scons-3.0.1/0000775000175000017500000000000013202656646014152 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/scons-time.10000664000175000017500000006265113202656642016323 0ustar bdbaddogbdbaddog00000000000000'\" t .\" Title: SCONS-TIME .\" Author: [see the "AUTHORS" section] .\" Generator: DocBook XSL Stylesheets v1.76.1 .\" Date: 11/14/2017 .\" Manual: SCons 3.0.1 .\" Source: SCons 3.0.1 .\" Language: English .\" .TH "SCONS\-TIME" "1" "11/14/2017" "SCons 3\&.0\&.1" "SCons 3\&.0\&.1" .\" ----------------------------------------------------------------- .\" * Define some portability stuff .\" ----------------------------------------------------------------- .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .\" http://bugs.debian.org/507673 .\" http://lists.gnu.org/archive/html/groff/2009-02/msg00013.html .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .ie \n(.g .ds Aq \(aq .el .ds Aq ' .\" ----------------------------------------------------------------- .\" * set default formatting .\" ----------------------------------------------------------------- .\" disable hyphenation .nh .\" disable justification (adjust text to left margin only) .ad l .\" ----------------------------------------------------------------- .\" * MAIN CONTENT STARTS HERE * .\" ----------------------------------------------------------------- .SH "NAME" scons-time \- generate and display SCons timing information .SH "SYNOPSIS" .HP \w'\fBscons\-time\fR\ 'u \fBscons\-time\fR \fIsubcommand\fR [\fIoptions\fR...] [\fIarguments\fR...] .SH "GENERATING TIMING INFORMATION" .PP \fBscons\-time run\fR [\fB\-hnqv\fR] [\fB\-\-aegis=\fR\fIPROJECT\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-number=\fR\fINUMBER\fR] [\fB\-\-outdir=\fR\fIOUTDIR\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-\-python=\fR\fIPYTHON\fR] [\fB\-s \fR\fIDIR\fR] [\fB\-\-scons=\fR\fISCONS\fR] [\fB\-\-svn=\fR\fIURL\fR] [\fIARGUMENTS\fR] .SS "Extracting Function Timings" .PP \fBscons\-time func\fR [\fB\-h\fR] [\fB\-\-chdir=\fR\fIDIR\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-fmt=\fR\fIFORMAT\fR] [\fB\-\-func=\fR\fINAME\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-t \fR\fINUMBER\fR] [\fB\-\-title= TITLE\fR] [\fIARGUMENTS\fR] .SS "Extracting Memory Statistics" .PP \fBscons\-time mem\fR [\fB\-h\fR] [\fB\-\-chdir=\fR\fIDIR\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-fmt=\fR\fIFORMAT\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-\-stage=\fR\fISTAGE\fR] [\fB\-t \fR\fINUMBER\fR] [\fB\-\-title=\fR\fITITLE\fR] [\fIARGUMENTS\fR] .SS "Extracting Object Counts" .PP \fBscons\-time obj\fR [\fB\-h\fR] [\fB\-\-chdir=\fR\fIDIR\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-fmt=\fR\fIFORMAT\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-\-stage=\fR\fISTAGE\fR] [\fB\-t \fR\fINUMBER\fR] [\fB\-\-title=\fR\fITITLE\fR] [\fIARGUMENTS\fR] .SS "Extracting Execution Times" .PP \fBscons\-time time\fR [\fB\-h\fR] [\fB\-\-chdir=\fR\fIDIR\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-fmt=\fR\fIFORMAT\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-t \fR\fINUMBER\fR] [\fB\-\-title=\fR\fITITLE\fR] [\fB\-\-which=\fR\fIWHICH\fR] [\fIARGUMENTS\fR] .SS "Help Text" .PP \fBscons\-time help\fR \fISUBCOMMAND\fR [\&.\&.\&.] .SH "DESCRIPTION" .PP The \fBscons\-time\fR command runs an SCons configuration through a standard set of profiled timings and can extract and graph information from the resulting profiles and log files of those timings\&. The action to be performed by the \fBscons\-time\fR script is specified by a subcommand, the first argument on the command line\&. See the SUBCOMMANDS section below for information about the operation of specific subcommands\&. .PP The basic way to use \fBscons\-time\fR is to run the \fBscons\-time run\fR subcommand (possibly multiple times) to generate profile and log file output, and then use one of the other subcommands to display the results captured in the profiles and log files for a particular kind of information: function timings (the \fBscons\-time func\fR subcommand), total memory used (the \fBscons\-time mem\fR subcommand), object counts (the \fBscons\-time obj\fR subcommand) and overall execution time (the \fBscons\-time time\fR subcommand)\&. Options exist to place and find the profiles and log files in separate directories, to generate the output in a format suitable for graphing with the \fBgnuplot\fR(1) program, and so on\&. .PP There are two basic ways the \fBscons\-time run\fR subcommand is intended to be used to gather timing statistics for a configuration\&. One is to use the \fB\-\-svn=\fR option to test a configuration against a list of revisions from the SCons Subversion repository\&. This will generate a profile and timing log file for every revision listed with the \fB\-\-number=\fR option, and can be used to look at the impact of committed changes to the SCons code base on a particular configuration over time\&. .PP The other way is to profile incremental changes to a local SCons code base during a development cycle\-\-that is, to look at the performance impact of changes you\*(Aqre making in the local tree\&. In this mode, you run the \fBscons\-time run\fR subcommand \fIwithout\fR the \fB\-\-svn=\fR option, in which case it simply looks in the profile/log file output directory (the current directory by default) and automatically figures out the \fInext\fR run number for the output profile and log file\&. Used in this way, the development cycle goes something like: make a change to SCons; run \fBscons\-time run\fR to profile it against a specific configuration; make another change to SCons; run \fBscons\-time run\fR again to profile it; etc\&. .SH "OPTIONS" .PP The \fBscons\-time\fR command only supports a few global options: .PP \-h, \-\-help .RS 4 Displays the global help text and exits, identical to the \fBscons\-time help\fR subcommand\&. .RE .PP \-V, \-\-version .RS 4 Displays the \fBscons\-time\fR version and exits\&. .RE .PP Most functionality is controlled by options to the individual subcommands\&. See the next section for information about individual subcommand options\&. .SH "SUBCOMMANDS" .PP The \fBscons\-time\fR command supports the following individual subcommands\&. .SS "The func Subcommand" .PP \fBscons\-time func\fR [\fB\-h\fR] [\fB\-\-chdir=\fR\fIDIR\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-fmt=\fR\fIFORMAT\fR] [\fB\-\-func=\fR\fINAME\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-t \fR\fINUMBER\fR] [\fB\-\-title= TITLE\fR] [\fIARGUMENTS\fR] .PP The \fBscons\-time func\fR subcommand displays timing information for a specific Python function within SCons\&. By default, it extracts information about the \fB_main\fR() function, which includes the Python profiler timing for all of SCons\&. .PP The \fBscons\-time func\fR subcommand extracts function timing information from all the specified file arguments, which should be Python profiler output files\&. (Normally, these would be \fB*\&.prof\fR files generated by the \fBscons\-time run\fR subcommand, but they can actually be generated by any Python profiler invocation\&.) All file name arguments will be globbed for on\-disk files\&. .PP If no arguments are specified, then function timing information will be extracted from all \fB*\&.prof\fR files, or the subset of them with a prefix specified by the \fB\-p\fR option\&. .PP Options include: .PP \-C DIRECTORY, \-\-chdir=DIRECTORY .RS 4 Changes to the specified \fIDIRECTORY\fR before looking for the specified files (or files that match the specified patterns)\&. .RE .PP \-f FILE, \-\-file=FILE .RS 4 Reads configuration information from the specified \fIFILE\fR\&. .RE .PP \-fmt=FORMAT, \-\-format=FORMAT .RS 4 Reports the output in the specified \fIFORMAT\fR\&. The formats currently supported are \fBascii\fR (the default) and \fBgnuplot\fR\&. .RE .PP \-\-func=NAME .RS 4 Extracts timings for the specified function \fINAME\fR\&. The default is to report cumulative timings for the \fB_main\fR() function, which contains the entire SCons run\&. .RE .PP \-h, \-\-help .RS 4 Displays help text for the \fBscons\-time func\fR subcommand\&. .RE .PP \-p STRING, \-\-prefix=STRING .RS 4 Specifies the prefix string for profiles from which to extract function timing information\&. This will be used to search for profiles if no arguments are specified on the command line\&. .RE .PP \-t NUMBER, \-\-tail=NUMBER .RS 4 Only extracts function timings from the last \fINUMBER\fR files\&. .RE .SS "The help Subcommand" .PP \fBscons\-time help\fR \fISUBCOMMAND\fR [\&.\&.\&.] The \fBhelp\fR subcommand prints help text for any other subcommands listed as later arguments on the command line\&. .SS "The mem Subcommand" .PP \fBscons\-time mem\fR [\fB\-h\fR] [\fB\-\-chdir=\fR\fIDIR\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-fmt=\fR\fIFORMAT\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-\-stage=\fR\fISTAGE\fR] [\fB\-t \fR\fINUMBER\fR] [\fB\-\-title=\fR\fITITLE\fR] [\fIARGUMENTS\fR] .PP The \fBscons\-time mem\fR subcommand displays how much memory SCons uses\&. .PP The \fBscons\-time mem\fR subcommand extracts memory use information from all the specified file arguments, which should be files containing output from running SCons with the \fB\-\-debug=memory\fR option\&. (Normally, these would be \fB*\&.log\fR files generated by the \fBscons\-time run\fR subcommand\&.) All file name arguments will be globbed for on\-disk files\&. .PP If no arguments are specified, then memory information will be extracted from all \fB*\&.log\fR files, or the subset of them with a prefix specified by the \fB\-p\fR option\&. .PP \-C DIR, \-\-chdir=DIR .RS 4 Changes to the specified \fIDIRECTORY\fR before looking for the specified files (or files that match the specified patterns)\&. .RE .PP \-f FILE, \-\-file=FILE .RS 4 Reads configuration information from the specified \fIFILE\fR\&. .RE .PP \-fmt=FORMAT, \-\-format=FORMAT .RS 4 Reports the output in the specified \fIFORMAT\fR\&. The formats currently supported are \fBascii\fR (the default) and \fBgnuplot\fR\&. .RE .PP \-h, \-\-help .RS 4 Displays help text for the \fBscons\-time mem\fR subcommand\&. .RE .PP \-p STRING, \-\-prefix=STRING .RS 4 Specifies the prefix string for log files from which to extract memory usage information\&. This will be used to search for log files if no arguments are specified on the command line\&. .RE .PP \-\-stage=STAGE .RS 4 Prints the memory used at the end of the specified \fISTAGE\fR: \fBpre\-read\fR (before the SConscript files are read), \fBpost\-read ,\fR (after the SConscript files are read), \fBpre\-build\fR (before any targets are built) or \fBpost\-build\fR (after any targets are built)\&. If no \fB\-\-stage\fR option is specified, the default behavior is \fBpost\-build\fR, which reports the final amount of memory used by SCons during each run\&. .RE .PP \-t NUMBER, \-\-tail=NUMBER .RS 4 Only reports memory statistics from the last \fINUMBER\fR files\&. .RE .SS "The obj Subcommand" .PP \fBscons\-time obj\fR [\fB\-h\fR] [\fB\-\-chdir=\fR\fIDIR\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-fmt=\fR\fIFORMAT\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-\-stage=\fR\fISTAGE\fR] [\fB\-t \fR\fINUMBER\fR] [\fB\-\-title=\fR\fITITLE\fR] [\fIARGUMENTS\fR] .PP The \fBscons\-time obj\fR subcommand displays how many objects of a specific named type are created by SCons\&. .PP The \fBscons\-time obj\fR subcommand extracts object counts from all the specified file arguments, which should be files containing output from running SCons with the \fB\-\-debug=count\fR option\&. (Normally, these would be \fB*\&.log\fR files generated by the \fBscons\-time run\fR subcommand\&.) All file name arguments will be globbed for on\-disk files\&. .PP If no arguments are specified, then object counts will be extracted from all \fB*\&.log\fR files, or the subset of them with a prefix specified by the \fB\-p\fR option\&. .PP \-C DIR, \-\-chdir=DIR .RS 4 Changes to the specified \fIDIRECTORY\fR before looking for the specified files (or files that match the specified patterns)\&. .RE .PP \-f FILE, \-\-file=FILE .RS 4 Reads configuration information from the specified \fIFILE\fR\&. .RE .PP \-fmt=FORMAT, \-\-format=FORMAT .RS 4 Reports the output in the specified \fIFORMAT\fR\&. The formats currently supported are \fBascii\fR (the default) and \fBgnuplot\fR\&. .RE .PP \-h, \-\-help .RS 4 Displays help text for the \fBscons\-time obj\fR subcommand\&. .RE .PP \-p STRING, \-\-prefix=STRING .RS 4 Specifies the prefix string for log files from which to extract object counts\&. This will be used to search for log files if no arguments are specified on the command line\&. .RE .PP \-\-stage=STAGE .RS 4 Prints the object count at the end of the specified \fISTAGE\fR: \fBpre\-read\fR (before the SConscript files are read), \fBpost\-read ,\fR (after the SConscript files are read), \fBpre\-build\fR (before any targets are built) or \fBpost\-build\fR (after any targets are built)\&. If no \fB\-\-stage\fR option is specified, the default behavior is \fBpost\-build\fR, which reports the final object count during each run\&. .RE .PP \-t NUMBER, \-\-tail=NUMBER .RS 4 Only reports object counts from the last \fINUMBER\fR files\&. .RE .SS "The run Subcommand" .PP \fBscons\-time run\fR [\fB\-hnqv\fR] [\fB\-\-aegis=\fR\fIPROJECT\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-number=\fR\fINUMBER\fR] [\fB\-\-outdir=\fR\fIOUTDIR\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-\-python=\fR\fIPYTHON\fR] [\fB\-s \fR\fIDIR\fR] [\fB\-\-scons=\fR\fISCONS\fR] [\fB\-\-svn=\fR\fIURL\fR] [\fIARGUMENTS\fR] The \fBscons\-time run\fR subcommand is the basic subcommand for profiling a specific configuration against a version of SCons\&. .PP The configuration to be tested is specified as a list of files or directories that will be unpacked or copied into a temporary directory in which SCons will be invoked\&. The \fBscons\-time run\fR subcommand understands file suffixes like \fB\&.tar\fR, \fB\&.tar\&.gz\fR, \fB\&.tgz\fR and \fB\&.zip\fR and will unpack their contents into a temporary directory\&. If more than one argument is specified, each one will be unpacked or copied into the temporary directory "on top of" the previous archives or directories, so the expectation is that multiple specified archives share the same directory layout\&. .PP Once the file or directory arguments are unpacked or copied to the temporary directory, the \fBscons\-time run\fR subcommand runs the requested version of SCons against the configuration three times: .PP Startup .RS 4 SCons is run with the \fB\-\-help\fR option so that just the SConscript files are read, and then the default help text is printed\&. This profiles just the perceived "overhead" of starting up SCons and processing the SConscript files\&. .RE .PP Full build .RS 4 SCons is run to build everything specified in the configuration\&. Specific targets to be passed in on the command l ine may be specified by the \fBtargets\fR keyword in a configuration file; see below for details\&. .RE .PP Rebuild .RS 4 SCons is run again on the same just\-built directory\&. If the dependencies in the SCons configuration are correct, this should be an up\-to\-date, "do nothing" rebuild\&. .RE .PP Each invocation captures the output log file and a profile\&. .PP The \fBscons\-time run\fR subcommand supports the following options: .PP \-\-aegis=PROJECT .RS 4 Specifies the Aegis \fIPROJECT\fR from which the version(s) of \fBscons\fR being timed will be extracted\&. When \fB\-\-aegis\fR is specified, the \fB\-\-number=\fR\fINUMBER\fR option specifies delta numbers that will be tested\&. Output from each invocation run will be placed in file names that match the Aegis delta numbers\&. If the \fB\-\-number=\fR option is not specified, then the default behavior is to time the tip of the specified \fIPROJECT\fR\&. .RE .PP \-f FILE, \-\-file=FILE .RS 4 Reads configuration information from the specified \fIFILE\fR\&. This often provides a more convenient way to specify and collect parameters associated with a specific timing configuration than specifying them on the command line\&. See the CONFIGURATION FILE section below for information about the configuration file parameters\&. .RE .PP \-h, \-\-help .RS 4 Displays help text for the \fBscons\-time run\fR subcommand\&. .RE .PP \-n, \-\-no\-exec .RS 4 Do not execute commands, just printing the command\-line equivalents of what would be executed\&. Note that the \fBscons\-time\fR script actually executes its actions in Python, where possible, for portability\&. The commands displayed are UNIX \fIequivalents\fR of what it\*(Aqs doing\&. .RE .PP \-\-number=NUMBER .RS 4 Specifies the run number to be used in the names of the log files and profile outputs generated by this run\&. .RE .PP When used in conjunction with the \fB\-\-aegis=\fR\fIPROJECT\fR option, \fINUMBER\fR specifies one or more comma\-separated Aegis delta numbers that will be retrieved automatically from the specified Aegis \fIPROJECT\fR\&. .PP When used in conjunction with the \fB\-\-svn=\fR\fIURL\fR option, \fINUMBER\fR specifies one or more comma\-separated Subversion revision numbers that will be retrieved automatically from the Subversion repository at the specified \fIURL\fR\&. Ranges of delta or revision numbers may be specified be separating two numbers with a hyphen (\fB\-\fR)\&. .PP Example: .sp .if n \{\ .RS 4 .\} .nf % scons\-time run \-\-svn=\m[blue]\fBhttp://scons\&.tigris\&.org/svn/trunk\fR\m[] \-\-num=1247,1249\-1252 \&. .fi .if n \{\ .RE .\} .PP \-p STRING, \-\-prefix=STRING .RS 4 Specifies the prefix string to be used for all of the log files and profiles generated by this run\&. The default is derived from the first specified argument: if the first argument is a directory, the default prefix is the name of the directory; if the first argument is an archive (tar or zip file), the default prefix is the the base name of the archive, that is, what remains after stripping the archive suffix (\fB\&.tgz\fR, \fB\&.tar\&.gz\fR or \fB\&.zip\fR)\&. .RE .PP \-\-python=PYTHON .RS 4 Specifies a path to the Python executable to be used for the timing runs\&. The default is to use the same Python executable that is running the \fBscons\-time\fR command itself\&. .RE .PP \-q, \-\-quiet .RS 4 Suppresses display of the command lines being executed\&. .RE .PP \-s DIR, \-\-subdir=DIR .RS 4 Specifies the name of directory or subdirectory from which the commands should be executed\&. The default is XXX .RE .PP \-\-scons=SCONS .RS 4 Specifies a path to the SCons script to be used for the timing runs\&. The default is XXX .RE .PP \-\-svn=URL, \-\-subversion=URL .RS 4 Specifies the \fIURL\fR of the Subversion repository from which the version(s) of \fBscons\fR being timed will be extracted\&. When \fB\-\-svn\fR is specified, the \fB\-\-number=\fR\fINUMBER\fR option specifies revision numbers that will be tested\&. Output from each invocation run will be placed in file names that match the Subversion revision numbers\&. If the \fB\-\-number=\fR option is not specified, then the default behavior is to time the \fBHEAD\fR of the specified \fIURL\fR\&. .RE .PP \-v, \-\-verbose .RS 4 Displays the output from individual commands to the screen (in addition to capturing the output in log files)\&. .RE .SS "The time Subcommand" .PP \fBscons\-time time\fR [\fB\-h\fR] [\fB\-\-chdir=\fR\fIDIR\fR] [\fB\-f \fR\fIFILE\fR] [\fB\-\-fmt=\fR\fIFORMAT\fR] [\fB\-p \fR\fISTRING\fR] [\fB\-t \fR\fINUMBER\fR] [\fB\-\-title=\fR\fITITLE\fR] [\fB\-\-which=\fR\fIWHICH\fR] [\fIARGUMENTS\fR] .PP The \fBscons\-time time\fR subcommand displays SCons execution times as reported by the \fBscons \-\-debug=time\fR option\&. .PP The \fBscons\-time time\fR subcommand extracts SCons timing from all the specified file arguments, which should be files containing output from running SCons with the \fB\-\-debug=time\fR option\&. (Normally, these would be \fB*\&.log\fR files generated by the \fBscons\-time run\fR subcommand\&.) All file name arguments will be globbed for on\-disk files\&. .PP If no arguments are specified, then execution timings will be extracted from all \fB*\&.log\fR files, or the subset of them with a prefix specified by the \fB\-p\fR option\&. .PP \-C DIR, \-\-chdir=DIR .RS 4 Changes to the specified \fIDIRECTORY\fR before looking for the specified files (or files that match the specified patterns)\&. .RE .PP \-f FILE, \-\-file=FILE .RS 4 Reads configuration information from the specified \fIFILE\fR\&. .RE .PP \-fmt=FORMAT, \-\-format=FORMAT .RS 4 Reports the output in the specified \fIFORMAT\fR\&. The formats currently supported are \fBascii\fR (the default) and \fBgnuplot\fR\&. .RE .PP \-h, \-\-help .RS 4 Displays help text for the \fBscons\-time time\fR subcommand\&. .RE .PP \-p STRING, \-\-prefix=STRING .RS 4 Specifies the prefix string for log files from which to extract execution timings\&. This will be used to search for log files if no arguments are specified on the command line\&. .RE .PP \-t NUMBER, \-\-tail=NUMBER .RS 4 Only reports object counts from the last \fINUMBER\fR files\&. .RE .PP \-\-which=WHICH .RS 4 Prints the execution time for the specified \fIWHICH\fR value: \fBtotal\fR (the total execution time), \fBSConscripts\fR (total execution time for the SConscript files themselves), \fBSCons\fR (exectuion time in SCons code itself) or \fBcommands\fR (execution time of the commands and other actions used to build targets)\&. If no \fB\-\-which\fR option is specified, the default behavior is \fBtotal\fR, which reports the total execution time for each run\&. .RE .SH "CONFIGURATION FILE" .PP Various \fBscons\-time\fR subcommands can read information from a specified configuration file when passed the \fB\-f\fR or \fB\-\-file\fR options\&. The configuration file is actually executed as a Python script\&. Setting Python variables in the configuration file controls the behavior of the \fBscons\-time\fR script more conveniently than having to specify command\-line options or arguments for every run, and provides a handy way to "shrink\-wrap" the necessary information for producing (and reporting) consistent timing runs for a given configuration\&. .PP \fBaegis\fR .RS 4 The Aegis executable for extracting deltas\&. The default is simply \fBaegis\fR\&. .RE .PP \fBaegis_project\fR .RS 4 The Aegis project from which deltas should be extracted\&. The default is whatever is specified with the \fB\-\-aegis=\fR command\-line option\&. .RE .PP \fBarchive_list\fR .RS 4 A list of archives (files or directories) that will be copied to the temporary directory in which SCons will be invoked\&. \fB\&.tar\fR, \fB\&.tar\&.gz\fR, \fB\&.tgz\fR and \fB\&.zip\fR files will have their contents unpacked in the temporary directory\&. Directory trees and files will be copied as\-is\&. .RE .PP \fBinitial_commands\fR .RS 4 A list of commands that will be executed before the actual timed \fBscons\fR runs\&. This can be used for commands that are necessary to prepare the source tree\-for example, creating a configuration file that should not be part of the timed run\&. .RE .PP \fBkey_location\fR .RS 4 The location of the key on Gnuplot graphing information generated with the \fB\-\-format=gnuplot\fR option\&. The default is \fBbottom left\fR\&. .RE .PP \fBprefix\fR .RS 4 The file name prefix to be used when running or extracting timing for this configuration\&. .RE .PP \fBpython\fR .RS 4 The path name of the Python executable to be used when running or extracting information for this configuration\&. The default is the same version of Python used to run the SCons .RE .PP \fBscons\fR .RS 4 The path name of the SCons script to be used when running or extracting information for this configuration\&. The default is simply \fBscons\fR\&. .RE .PP \fBscons_flags\fR .RS 4 The \fBscons\fR flags used when running SCons to collect timing information\&. The default value is \fB\-\-debug=count \-\-debug=memory \-\-debug=time \-\-debug=memoizer\fR\&. .RE .PP \fBscons_lib_dir\fR, \fBscons_wrapper\fR, \fBstartup_targets\fR, \fBsubdir\fR .RS 4 The subdirectory of the project into which the \fBscons\-time\fR script should change before executing the SCons commands to time\&. .RE .PP \fBsubversion_url\fR .RS 4 The Subversion URL from .RE .PP \fBsvn\fR .RS 4 The subversion executable used to check out revisions of SCons to be timed\&. The default is simple \fBsvn\fR\&. .RE .PP \fBsvn_co_flag\fR, \fBtar\fR, \fBtargets\fR .RS 4 A string containing the targets that should be added to the command line of every timed \fBscons\fR run\&. This can be used to restrict what\*(Aqs being timed to a subset of the full build for the configuration\&. .RE .PP \fBtargets0\fR, \fBtargets1\fR, \fBtargets2\fR, \fBtitle\fR, \fBunzip\fR, \fBverbose\fR, \fBvertical_bars\fR .RS 4 .RE .SS "Example" .PP Here is an example \fBscons\-time\fR configuration file for a hypothetical sample project: .sp .if n \{\ .RS 4 .\} .nf # The project doesn\*(Aqt use SCons natively (yet), so we\*(Aqre # timing a separate set of SConscript files that we lay # on top of the vanilla unpacked project tarball\&. arguments = [\*(Aqproject\-1\&.2\&.tgz\*(Aq, \*(Aqproject\-SConscripts\&.tar\*(Aq] # The subdirectory name contains the project version number, # so tell scons\-time to chdir there before building\&. subdir = \*(Aqproject\-1\&.2\*(Aq # Set the prefix so output log files and profiles are named: # project\-000\-[012]\&.{log,prof} # project\-001\-[012]\&.{log,prof} # etc\&. prefix = \*(Aqproject\*(Aq # The SConscript files being tested don\*(Aqt do any SConf # configuration, so run their normal \&./configure script # before we invoke SCons\&. initial_commands = [ \*(Aq\&./configure\*(Aq, ] # Only time building the bin/project executable\&. targets = \*(Aqbin/project\*(Aq # Time against SCons revisions of the branches/core branch subversion_url = \*(Aq\m[blue]\fBhttp://scons\&.tigris\&.org/svn/scons/branches/core\fR\m[]\*(Aq .fi .if n \{\ .RE .\} .SH "ENVIRONMENT" .PP The \fBscons\-time\fR script uses the following environment variables: .PP \fBPRESERVE\fR .RS 4 If this value is set, the \fBscons\-time\fR script will \fInot\fR remove the temporary directory or directories in which it builds the specified configuration or downloads a specific version of SCons\&. .RE .SH "SEE ALSO" .PP \fBgnuplot\fR(1), \fBscons\fR(1) .SH "AUTHORS" .PP Steven Knight scons-3.0.1/MANIFEST0000664000175000017500000001324213202656642015301 0ustar bdbaddogbdbaddog00000000000000CHANGES.txt LICENSE.txt MANIFEST README.txt RELEASE.txt engine/SCons/Action.py engine/SCons/Builder.py engine/SCons/CacheDir.py engine/SCons/Conftest.py engine/SCons/Debug.py engine/SCons/Defaults.py engine/SCons/Environment.py engine/SCons/Errors.py engine/SCons/Executor.py engine/SCons/Job.py engine/SCons/Memoize.py engine/SCons/Node/Alias.py engine/SCons/Node/FS.py engine/SCons/Node/Python.py engine/SCons/Node/__init__.py engine/SCons/Options/BoolOption.py engine/SCons/Options/EnumOption.py engine/SCons/Options/ListOption.py engine/SCons/Options/PackageOption.py engine/SCons/Options/PathOption.py engine/SCons/Options/__init__.py engine/SCons/PathList.py engine/SCons/Platform/__init__.py engine/SCons/Platform/aix.py engine/SCons/Platform/cygwin.py engine/SCons/Platform/darwin.py engine/SCons/Platform/hpux.py engine/SCons/Platform/irix.py engine/SCons/Platform/os2.py engine/SCons/Platform/posix.py engine/SCons/Platform/sunos.py engine/SCons/Platform/win32.py engine/SCons/SConf.py engine/SCons/SConsign.py engine/SCons/Scanner/C.py engine/SCons/Scanner/D.py engine/SCons/Scanner/Dir.py engine/SCons/Scanner/Fortran.py engine/SCons/Scanner/IDL.py engine/SCons/Scanner/LaTeX.py engine/SCons/Scanner/Prog.py engine/SCons/Scanner/RC.py engine/SCons/Scanner/SWIG.py engine/SCons/Scanner/__init__.py engine/SCons/Script/Interactive.py engine/SCons/Script/Main.py engine/SCons/Script/SConsOptions.py engine/SCons/Script/SConscript.py engine/SCons/Script/__init__.py engine/SCons/Subst.py engine/SCons/Taskmaster.py engine/SCons/Tool/386asm.py engine/SCons/Tool/DCommon.py engine/SCons/Tool/FortranCommon.py engine/SCons/Tool/GettextCommon.py engine/SCons/Tool/JavaCommon.py engine/SCons/Tool/MSCommon/__init__.py engine/SCons/Tool/MSCommon/arch.py engine/SCons/Tool/MSCommon/common.py engine/SCons/Tool/MSCommon/netframework.py engine/SCons/Tool/MSCommon/sdk.py engine/SCons/Tool/MSCommon/vc.py engine/SCons/Tool/MSCommon/vs.py engine/SCons/Tool/PharLapCommon.py engine/SCons/Tool/__init__.py engine/SCons/Tool/aixc++.py engine/SCons/Tool/aixcc.py engine/SCons/Tool/aixcxx.py engine/SCons/Tool/aixf77.py engine/SCons/Tool/aixlink.py engine/SCons/Tool/applelink.py engine/SCons/Tool/ar.py engine/SCons/Tool/as.py engine/SCons/Tool/bcc32.py engine/SCons/Tool/c++.py engine/SCons/Tool/cc.py engine/SCons/Tool/clang.py engine/SCons/Tool/clangxx.py engine/SCons/Tool/cvf.py engine/SCons/Tool/cxx.py engine/SCons/Tool/cyglink.py engine/SCons/Tool/default.py engine/SCons/Tool/dmd.py engine/SCons/Tool/docbook/__init__.py engine/SCons/Tool/dvi.py engine/SCons/Tool/dvipdf.py engine/SCons/Tool/dvips.py engine/SCons/Tool/f03.py engine/SCons/Tool/f08.py engine/SCons/Tool/f77.py engine/SCons/Tool/f90.py engine/SCons/Tool/f95.py engine/SCons/Tool/filesystem.py engine/SCons/Tool/fortran.py engine/SCons/Tool/g++.py engine/SCons/Tool/g77.py engine/SCons/Tool/gas.py engine/SCons/Tool/gcc.py engine/SCons/Tool/gdc.py engine/SCons/Tool/gettext_tool.py engine/SCons/Tool/gfortran.py engine/SCons/Tool/gnulink.py engine/SCons/Tool/gs.py engine/SCons/Tool/gxx.py engine/SCons/Tool/hpc++.py engine/SCons/Tool/hpcc.py engine/SCons/Tool/hpcxx.py engine/SCons/Tool/hplink.py engine/SCons/Tool/icc.py engine/SCons/Tool/icl.py engine/SCons/Tool/ifl.py engine/SCons/Tool/ifort.py engine/SCons/Tool/ilink.py engine/SCons/Tool/ilink32.py engine/SCons/Tool/install.py engine/SCons/Tool/intelc.py engine/SCons/Tool/ipkg.py engine/SCons/Tool/jar.py engine/SCons/Tool/javac.py engine/SCons/Tool/javah.py engine/SCons/Tool/latex.py engine/SCons/Tool/ldc.py engine/SCons/Tool/lex.py engine/SCons/Tool/link.py engine/SCons/Tool/linkloc.py engine/SCons/Tool/m4.py engine/SCons/Tool/masm.py engine/SCons/Tool/midl.py engine/SCons/Tool/mingw.py engine/SCons/Tool/msgfmt.py engine/SCons/Tool/msginit.py engine/SCons/Tool/msgmerge.py engine/SCons/Tool/mslib.py engine/SCons/Tool/mslink.py engine/SCons/Tool/mssdk.py engine/SCons/Tool/msvc.py engine/SCons/Tool/msvs.py engine/SCons/Tool/mwcc.py engine/SCons/Tool/mwld.py engine/SCons/Tool/nasm.py engine/SCons/Tool/packaging/__init__.py engine/SCons/Tool/packaging/ipk.py engine/SCons/Tool/packaging/msi.py engine/SCons/Tool/packaging/rpm.py engine/SCons/Tool/packaging/src_tarbz2.py engine/SCons/Tool/packaging/src_targz.py engine/SCons/Tool/packaging/src_zip.py engine/SCons/Tool/packaging/tarbz2.py engine/SCons/Tool/packaging/targz.py engine/SCons/Tool/packaging/zip.py engine/SCons/Tool/pdf.py engine/SCons/Tool/pdflatex.py engine/SCons/Tool/pdftex.py engine/SCons/Tool/qt.py engine/SCons/Tool/rmic.py engine/SCons/Tool/rpcgen.py engine/SCons/Tool/rpm.py engine/SCons/Tool/rpmutils.py engine/SCons/Tool/sgiar.py engine/SCons/Tool/sgic++.py engine/SCons/Tool/sgicc.py engine/SCons/Tool/sgicxx.py engine/SCons/Tool/sgilink.py engine/SCons/Tool/sunar.py engine/SCons/Tool/sunc++.py engine/SCons/Tool/suncc.py engine/SCons/Tool/suncxx.py engine/SCons/Tool/sunf77.py engine/SCons/Tool/sunf90.py engine/SCons/Tool/sunf95.py engine/SCons/Tool/sunlink.py engine/SCons/Tool/swig.py engine/SCons/Tool/tar.py engine/SCons/Tool/tex.py engine/SCons/Tool/textfile.py engine/SCons/Tool/tlib.py engine/SCons/Tool/wix.py engine/SCons/Tool/xgettext.py engine/SCons/Tool/yacc.py engine/SCons/Tool/zip.py engine/SCons/Util.py engine/SCons/Variables/BoolVariable.py engine/SCons/Variables/EnumVariable.py engine/SCons/Variables/ListVariable.py engine/SCons/Variables/PackageVariable.py engine/SCons/Variables/PathVariable.py engine/SCons/Variables/__init__.py engine/SCons/Warnings.py engine/SCons/__init__.py engine/SCons/compat/__init__.py engine/SCons/compat/_scons_dbm.py engine/SCons/cpp.py engine/SCons/dblite.py engine/SCons/exitfuncs.py scons-time.1 scons.1 sconsign.1 script/scons script/scons-configure-cache script/scons-time script/scons.bat script/sconsign setup.cfg setup.py scons-3.0.1/sconsign.10000664000175000017500000001132013202656642016050 0ustar bdbaddogbdbaddog00000000000000'\" t .\" Title: SCONSIGN .\" Author: [see the "AUTHORS" section] .\" Generator: DocBook XSL Stylesheets v1.76.1 .\" Date: 11/14/2017 .\" Manual: SCons 3.0.1 .\" Source: SCons 3.0.1 .\" Language: English .\" .TH "SCONSIGN" "1" "11/14/2017" "SCons 3\&.0\&.1" "SCons 3\&.0\&.1" .\" ----------------------------------------------------------------- .\" * Define some portability stuff .\" ----------------------------------------------------------------- .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .\" http://bugs.debian.org/507673 .\" http://lists.gnu.org/archive/html/groff/2009-02/msg00013.html .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .ie \n(.g .ds Aq \(aq .el .ds Aq ' .\" ----------------------------------------------------------------- .\" * set default formatting .\" ----------------------------------------------------------------- .\" disable hyphenation .nh .\" disable justification (adjust text to left margin only) .ad l .\" ----------------------------------------------------------------- .\" * MAIN CONTENT STARTS HERE * .\" ----------------------------------------------------------------- .SH "NAME" sconsign \- print SCons \&.sconsign file information .SH "SYNOPSIS" .HP \w'\fBsconsign\fR\ 'u \fBsconsign\fR [\fIoptions\fR...] \fIfile\fR [\fI\&.\&.\&.\fR] .SH "DESCRIPTION" .PP The \fBsconsign\fR command displays the contents of one or more \fB\&.sconsign\fR files specified by the user\&. .PP By default, \fBsconsign\fR dumps the entire contents of the specified file(s)\&. Each entry is printed in the following format: .PP file: signature timestamp length implicit_dependency_1: signature timestamp length implicit_dependency_2: signature timestamp length action_signature [action string] .PP \fBNone\fR is printed in place of any missing timestamp, bsig, or csig values for any entry or any of its dependencies\&. If the entry has no implicit dependencies, or no build action, the lines are simply omitted\&. .PP By default, \fBsconsign\fR assumes that any \fIfile\fR arguments that end with a \fB\&.dbm\fR suffix contains signature entries for more than one directory (that is, was specified by the \fBSConsignFile ()\fR function)\&. Any \fIfile\fR argument that does not end in \fB\&.dbm\fR is assumed to be a traditional \fB\&.sconsign\fR file containing the signature entries for a single directory\&. An explicit format may be specified using the \fB\-f\fR or \fB\-\-file=\fR options\&. .SH "OPTIONS" .PP Various options control what information is printed and the format: .PP \-a, \-\-act, \-\-action .RS 4 Prints the build action information for all entries or the specified entries\&. .RE .PP \-c, \-\-csig .RS 4 Prints the content signature (csig) information for all entries or the specified entries\&. .RE .PP \-d DIRECTORY, \-\-dir=DIRECTORY .RS 4 When the signatures are being read from a \fB\&.dbm\fR file, or the \fB\-f dbm\fR or \fB\-\-format=dbm\fR options are used, prints information about only the signatures for entries in the specified \fIDIRECTORY\fR\&. .RE .PP \-e ENTRY, \-\-entry=ENTRY .RS 4 Prints information about only the specified \fIENTRY\fR\&. Multiple \-e options may be used, in which case information about each \fIENTRY\fR is printed in the order in which the options are specified on the command line\&. .RE .PP \-f FORMAT, \-\-format=FORMAT .RS 4 The file(s) to be printed are in the specified \fIFORMAT\fR\&. Legal values are \fBdbm\fR (the DBM format used when the \fBSConsignFile\fR() function is used) or \fBsconsign\fR (the default format used for an individual \fB\&.sconsign\fR file in each directory)\&. .RE .PP \-h, \-\-help .RS 4 Prints a help message and exits\&. .RE .PP \-i, \-\-implicit .RS 4 Prints the list of cached implicit dependencies for all entries or the the specified entries\&. .RE .PP \-\-raw .RS 4 Prints a pretty\-printed representation of the raw Python dictionary that holds build information about individual entry (both the entry itself or its implicit dependencies)\&. An entry\*(Aqs build action is still printed in its usual format\&. .RE .PP \-r, \-\-readable .RS 4 Prints timestamps in a human\-readable string, enclosed in single quotes\&. .RE .PP \-t, \-\-timestamp .RS 4 Prints the timestamp information for all entries or the specified entries\&. .RE .PP \-v, \-\-verbose .RS 4 Prints labels identifying each field being printed\&. .RE .SH "ENVIRONMENT" .PP SCONS_LIB_DIR .RS 4 Specifies the directory that contains the SCons Python module directory (e\&.g\&. /home/aroach/scons\-src\-0\&.01/src/engine)\&. on the command line\&. .RE .SH "SEE ALSO" .PP \fBscons\fR, \fBscons\fR User Manual, \fBscons\fR Design Document, \fBscons\fR source code\&. .SH "AUTHORS" .PP Steven Knight scons-3.0.1/script/0000775000175000017500000000000013202656646015456 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/script/scons.bat0000664000175000017500000000301113202656642017262 0ustar bdbaddogbdbaddog00000000000000@REM Copyright (c) 2001 - 2017 The SCons Foundation @REM src/script/scons.bat 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog @echo off set SCONS_ERRORLEVEL= if "%OS%" == "Windows_NT" goto WinNT @REM for 9x/Me you better not have more than 9 args python -c "from os.path import join; import sys; sys.path = [ join(sys.prefix, 'Lib', 'site-packages', 'scons-3.0.1'), join(sys.prefix, 'Lib', 'site-packages', 'scons'), join(sys.prefix, 'scons-3.0.1'), join(sys.prefix, 'scons')] + sys.path; import SCons.Script; SCons.Script.main()" %1 %2 %3 %4 %5 %6 %7 %8 %9 @REM no way to set exit status of this script for 9x/Me goto endscons @REM Credit where credit is due: we return the exit code despite our @REM use of setlocal+endlocal using a technique from Bear's Journal: @REM http://code-bear.com/bearlog/2007/06/01/getting-the-exit-code-from-a-batch-file-that-is-run-from-a-python-program/ :WinNT setlocal @REM ensure the script will be executed with the Python it was installed for set path=%~dp0;%~dp0..;%path% @REM try the script named as the .bat file in current dir, then in Scripts subdir set scriptname=%~dp0%~n0.py if not exist "%scriptname%" set scriptname=%~dp0Scripts\%~n0.py python "%scriptname%" %* endlocal & set SCONS_ERRORLEVEL=%ERRORLEVEL% if NOT "%COMSPEC%" == "%SystemRoot%\system32\cmd.exe" goto returncode if errorlevel 9009 echo you do not have python in your PATH goto endscons :returncode exit /B %SCONS_ERRORLEVEL% :endscons call :returncode %SCONS_ERRORLEVEL% scons-3.0.1/script/scons-time0000664000175000017500000013732713202656512017467 0ustar bdbaddogbdbaddog00000000000000#!/usr/bin/env python # # scons-time - run SCons timings and collect statistics # # A script for running a configuration through SCons with a standard # set of invocations to collect timing and memory statistics and to # capture the results in a consistent set of output files for display # and analysis. # # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import division, print_function __revision__ = "src/script/scons-time.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import getopt import glob import os import re import shutil import sys import tempfile import time def make_temp_file(**kw): try: result = tempfile.mktemp(**kw) result = os.path.realpath(result) except TypeError: try: save_template = tempfile.template prefix = kw['prefix'] del kw['prefix'] tempfile.template = prefix result = tempfile.mktemp(**kw) finally: tempfile.template = save_template return result def HACK_for_exec(cmd, *args): ''' For some reason, Python won't allow an exec() within a function that also declares an internal function (including lambda functions). This function is a hack that calls exec() in a function with no internal functions. ''' if not args: exec(cmd) elif len(args) == 1: exec(cmd, args[0]) else: exec(cmd, args[0], args[1]) class Plotter(object): def increment_size(self, largest): """ Return the size of each horizontal increment line for a specified maximum value. This returns a value that will provide somewhere between 5 and 9 horizontal lines on the graph, on some set of boundaries that are multiples of 10/100/1000/etc. """ i = largest // 5 if not i: return largest multiplier = 1 while i >= 10: i = i // 10 multiplier = multiplier * 10 return i * multiplier def max_graph_value(self, largest): # Round up to next integer. largest = int(largest) + 1 increment = self.increment_size(largest) return ((largest + increment - 1) // increment) * increment class Line(object): def __init__(self, points, type, title, label, comment, fmt="%s %s"): self.points = points self.type = type self.title = title self.label = label self.comment = comment self.fmt = fmt def print_label(self, inx, x, y): if self.label: print('set label %s "%s" at %0.1f,%0.1f right' % (inx, self.label, x, y)) def plot_string(self): if self.title: title_string = 'title "%s"' % self.title else: title_string = 'notitle' return "'-' %s with lines lt %s" % (title_string, self.type) def print_points(self, fmt=None): if fmt is None: fmt = self.fmt if self.comment: print('# %s' % self.comment) for x, y in self.points: # If y is None, it usually represents some kind of break # in the line's index number. We might want to represent # this some way rather than just drawing the line straight # between the two points on either side. if not y is None: print(fmt % (x, y)) print('e') def get_x_values(self): return [ p[0] for p in self.points ] def get_y_values(self): return [ p[1] for p in self.points ] class Gnuplotter(Plotter): def __init__(self, title, key_location): self.lines = [] self.title = title self.key_location = key_location def line(self, points, type, title=None, label=None, comment=None, fmt='%s %s'): if points: line = Line(points, type, title, label, comment, fmt) self.lines.append(line) def plot_string(self, line): return line.plot_string() def vertical_bar(self, x, type, label, comment): if self.get_min_x() <= x and x <= self.get_max_x(): points = [(x, 0), (x, self.max_graph_value(self.get_max_y()))] self.line(points, type, label, comment) def get_all_x_values(self): result = [] for line in self.lines: result.extend(line.get_x_values()) return [r for r in result if not r is None] def get_all_y_values(self): result = [] for line in self.lines: result.extend(line.get_y_values()) return [r for r in result if not r is None] def get_min_x(self): try: return self.min_x except AttributeError: try: self.min_x = min(self.get_all_x_values()) except ValueError: self.min_x = 0 return self.min_x def get_max_x(self): try: return self.max_x except AttributeError: try: self.max_x = max(self.get_all_x_values()) except ValueError: self.max_x = 0 return self.max_x def get_min_y(self): try: return self.min_y except AttributeError: try: self.min_y = min(self.get_all_y_values()) except ValueError: self.min_y = 0 return self.min_y def get_max_y(self): try: return self.max_y except AttributeError: try: self.max_y = max(self.get_all_y_values()) except ValueError: self.max_y = 0 return self.max_y def draw(self): if not self.lines: return if self.title: print('set title "%s"' % self.title) print('set key %s' % self.key_location) min_y = self.get_min_y() max_y = self.max_graph_value(self.get_max_y()) incr = (max_y - min_y) / 10.0 start = min_y + (max_y / 2.0) + (2.0 * incr) position = [ start - (i * incr) for i in range(5) ] inx = 1 for line in self.lines: line.print_label(inx, line.points[0][0]-1, position[(inx-1) % len(position)]) inx += 1 plot_strings = [ self.plot_string(l) for l in self.lines ] print('plot ' + ', \\\n '.join(plot_strings)) for line in self.lines: line.print_points() def untar(fname): import tarfile tar = tarfile.open(name=fname, mode='r') for tarinfo in tar: tar.extract(tarinfo) tar.close() def unzip(fname): import zipfile zf = zipfile.ZipFile(fname, 'r') for name in zf.namelist(): dir = os.path.dirname(name) try: os.makedirs(dir) except: pass open(name, 'wb').write(zf.read(name)) def read_tree(dir): for dirpath, dirnames, filenames in os.walk(dir): for fn in filenames: fn = os.path.join(dirpath, fn) if os.path.isfile(fn): open(fn, 'rb').read() def redirect_to_file(command, log): return '%s > %s 2>&1' % (command, log) def tee_to_file(command, log): return '%s 2>&1 | tee %s' % (command, log) class SConsTimer(object): """ Usage: scons-time SUBCOMMAND [ARGUMENTS] Type "scons-time help SUBCOMMAND" for help on a specific subcommand. Available subcommands: func Extract test-run data for a function help Provides help mem Extract --debug=memory data from test runs obj Extract --debug=count data from test runs time Extract --debug=time data from test runs run Runs a test configuration """ name = 'scons-time' name_spaces = ' '*len(name) def makedict(**kw): return kw default_settings = makedict( aegis = 'aegis', aegis_project = None, chdir = None, config_file = None, initial_commands = [], key_location = 'bottom left', orig_cwd = os.getcwd(), outdir = None, prefix = '', python = '"%s"' % sys.executable, redirect = redirect_to_file, scons = None, scons_flags = '--debug=count --debug=memory --debug=time --debug=memoizer', scons_lib_dir = None, scons_wrapper = None, startup_targets = '--help', subdir = None, subversion_url = None, svn = 'svn', svn_co_flag = '-q', tar = 'tar', targets = '', targets0 = None, targets1 = None, targets2 = None, title = None, unzip = 'unzip', verbose = False, vertical_bars = [], unpack_map = { '.tar.gz' : (untar, '%(tar)s xzf %%s'), '.tgz' : (untar, '%(tar)s xzf %%s'), '.tar' : (untar, '%(tar)s xf %%s'), '.zip' : (unzip, '%(unzip)s %%s'), }, ) run_titles = [ 'Startup', 'Full build', 'Up-to-date build', ] run_commands = [ '%(python)s %(scons_wrapper)s %(scons_flags)s --profile=%(prof0)s %(targets0)s', '%(python)s %(scons_wrapper)s %(scons_flags)s --profile=%(prof1)s %(targets1)s', '%(python)s %(scons_wrapper)s %(scons_flags)s --profile=%(prof2)s %(targets2)s', ] stages = [ 'pre-read', 'post-read', 'pre-build', 'post-build', ] stage_strings = { 'pre-read' : 'Memory before reading SConscript files:', 'post-read' : 'Memory after reading SConscript files:', 'pre-build' : 'Memory before building targets:', 'post-build' : 'Memory after building targets:', } memory_string_all = 'Memory ' default_stage = stages[-1] time_strings = { 'total' : 'Total build time', 'SConscripts' : 'Total SConscript file execution time', 'SCons' : 'Total SCons execution time', 'commands' : 'Total command execution time', } time_string_all = 'Total .* time' # def __init__(self): self.__dict__.update(self.default_settings) # Functions for displaying and executing commands. def subst(self, x, dictionary): try: return x % dictionary except TypeError: # x isn't a string (it's probably a Python function), # so just return it. return x def subst_variables(self, command, dictionary): """ Substitutes (via the format operator) the values in the specified dictionary into the specified command. The command can be an (action, string) tuple. In all cases, we perform substitution on strings and don't worry if something isn't a string. (It's probably a Python function to be executed.) """ try: command + '' except TypeError: action = command[0] string = command[1] args = command[2:] else: action = command string = action args = (()) action = self.subst(action, dictionary) string = self.subst(string, dictionary) return (action, string, args) def _do_not_display(self, msg, *args): pass def display(self, msg, *args): """ Displays the specified message. Each message is prepended with a standard prefix of our name plus the time. """ if callable(msg): msg = msg(*args) else: msg = msg % args if msg is None: return fmt = '%s[%s]: %s\n' sys.stdout.write(fmt % (self.name, time.strftime('%H:%M:%S'), msg)) def _do_not_execute(self, action, *args): pass def execute(self, action, *args): """ Executes the specified action. The action is called if it's a callable Python function, and otherwise passed to os.system(). """ if callable(action): action(*args) else: os.system(action % args) def run_command_list(self, commands, dict): """ Executes a list of commands, substituting values from the specified dictionary. """ commands = [ self.subst_variables(c, dict) for c in commands ] for action, string, args in commands: self.display(string, *args) sys.stdout.flush() status = self.execute(action, *args) if status: sys.exit(status) def log_display(self, command, log): command = self.subst(command, self.__dict__) if log: command = self.redirect(command, log) return command def log_execute(self, command, log): command = self.subst(command, self.__dict__) output = os.popen(command).read() if self.verbose: sys.stdout.write(output) # TODO: Figure out # Not sure we need to write binary here open(log, 'w').write(output) # def archive_splitext(self, path): """ Splits an archive name into a filename base and extension. This is like os.path.splitext() (which it calls) except that it also looks for '.tar.gz' and treats it as an atomic extensions. """ if path.endswith('.tar.gz'): return path[:-7], path[-7:] else: return os.path.splitext(path) def args_to_files(self, args, tail=None): """ Takes a list of arguments, expands any glob patterns, and returns the last "tail" files from the list. """ files = [] for a in args: files.extend(sorted(glob.glob(a))) if tail: files = files[-tail:] return files def ascii_table(self, files, columns, line_function, file_function=lambda x: x, *args, **kw): header_fmt = ' '.join(['%12s'] * len(columns)) line_fmt = header_fmt + ' %s' print(header_fmt % columns) for file in files: t = line_function(file, *args, **kw) if t is None: t = [] diff = len(columns) - len(t) if diff > 0: t += [''] * diff t.append(file_function(file)) print(line_fmt % tuple(t)) def collect_results(self, files, function, *args, **kw): results = {} for file in files: base = os.path.splitext(file)[0] run, index = base.split('-')[-2:] run = int(run) index = int(index) value = function(file, *args, **kw) try: r = results[index] except KeyError: r = [] results[index] = r r.append((run, value)) return results def doc_to_help(self, obj): """ Translates an object's __doc__ string into help text. This strips a consistent number of spaces from each line in the help text, essentially "outdenting" the text to the left-most column. """ doc = obj.__doc__ if doc is None: return '' return self.outdent(doc) def find_next_run_number(self, dir, prefix): """ Returns the next run number in a directory for the specified prefix. Examines the contents the specified directory for files with the specified prefix, extracts the run numbers from each file name, and returns the next run number after the largest it finds. """ x = re.compile(re.escape(prefix) + '-([0-9]+).*') matches = [x.match(e) for e in os.listdir(dir)] matches = [_f for _f in matches if _f] if not matches: return 0 run_numbers = [int(m.group(1)) for m in matches] return int(max(run_numbers)) + 1 def gnuplot_results(self, results, fmt='%s %.3f'): """ Prints out a set of results in Gnuplot format. """ gp = Gnuplotter(self.title, self.key_location) for i in sorted(results.keys()): try: t = self.run_titles[i] except IndexError: t = '??? %s ???' % i results[i].sort() gp.line(results[i], i+1, t, None, t, fmt=fmt) for bar_tuple in self.vertical_bars: try: x, type, label, comment = bar_tuple except ValueError: x, type, label = bar_tuple comment = label gp.vertical_bar(x, type, label, comment) gp.draw() def logfile_name(self, invocation): """ Returns the absolute path of a log file for the specificed invocation number. """ name = self.prefix_run + '-%d.log' % invocation return os.path.join(self.outdir, name) def outdent(self, s): """ Strip as many spaces from each line as are found at the beginning of the first line in the list. """ lines = s.split('\n') if lines[0] == '': lines = lines[1:] spaces = re.match(' *', lines[0]).group(0) def strip_initial_spaces(l, s=spaces): if l.startswith(spaces): l = l[len(spaces):] return l return '\n'.join([ strip_initial_spaces(l) for l in lines ]) + '\n' def profile_name(self, invocation): """ Returns the absolute path of a profile file for the specified invocation number. """ name = self.prefix_run + '-%d.prof' % invocation return os.path.join(self.outdir, name) def set_env(self, key, value): os.environ[key] = value # def get_debug_times(self, file, time_string=None): """ Fetch times from the --debug=time strings in the specified file. """ if time_string is None: search_string = self.time_string_all else: search_string = time_string contents = open(file).read() if not contents: sys.stderr.write('file %s has no contents!\n' % repr(file)) return None result = re.findall(r'%s: ([\d\.]*)' % search_string, contents)[-4:] result = [ float(r) for r in result ] if not time_string is None: try: result = result[0] except IndexError: sys.stderr.write('file %s has no results!\n' % repr(file)) return None return result def get_function_profile(self, file, function): """ Returns the file, line number, function name, and cumulative time. """ try: import pstats except ImportError as e: sys.stderr.write('%s: func: %s\n' % (self.name, e)) sys.stderr.write('%s This version of Python is missing the profiler.\n' % self.name_spaces) sys.stderr.write('%s Cannot use the "func" subcommand.\n' % self.name_spaces) sys.exit(1) statistics = pstats.Stats(file).stats matches = [ e for e in statistics.items() if e[0][2] == function ] r = matches[0] return r[0][0], r[0][1], r[0][2], r[1][3] def get_function_time(self, file, function): """ Returns just the cumulative time for the specified function. """ return self.get_function_profile(file, function)[3] def get_memory(self, file, memory_string=None): """ Returns a list of integers of the amount of memory used. The default behavior is to return all the stages. """ if memory_string is None: search_string = self.memory_string_all else: search_string = memory_string lines = open(file).readlines() lines = [ l for l in lines if l.startswith(search_string) ][-4:] result = [ int(l.split()[-1]) for l in lines[-4:] ] if len(result) == 1: result = result[0] return result def get_object_counts(self, file, object_name, index=None): """ Returns the counts of the specified object_name. """ object_string = ' ' + object_name + '\n' lines = open(file).readlines() line = [ l for l in lines if l.endswith(object_string) ][0] result = [ int(field) for field in line.split()[:4] ] if index is not None: result = result[index] return result # command_alias = {} def execute_subcommand(self, argv): """ Executes the do_*() function for the specified subcommand (argv[0]). """ if not argv: return cmdName = self.command_alias.get(argv[0], argv[0]) try: func = getattr(self, 'do_' + cmdName) except AttributeError: return self.default(argv) try: return func(argv) except TypeError as e: sys.stderr.write("%s %s: %s\n" % (self.name, cmdName, e)) import traceback traceback.print_exc(file=sys.stderr) sys.stderr.write("Try '%s help %s'\n" % (self.name, cmdName)) def default(self, argv): """ The default behavior for an unknown subcommand. Prints an error message and exits. """ sys.stderr.write('%s: Unknown subcommand "%s".\n' % (self.name, argv[0])) sys.stderr.write('Type "%s help" for usage.\n' % self.name) sys.exit(1) # def do_help(self, argv): """ """ if argv[1:]: for arg in argv[1:]: try: func = getattr(self, 'do_' + arg) except AttributeError: sys.stderr.write('%s: No help for "%s"\n' % (self.name, arg)) else: try: help = getattr(self, 'help_' + arg) except AttributeError: sys.stdout.write(self.doc_to_help(func)) sys.stdout.flush() else: help() else: doc = self.doc_to_help(self.__class__) if doc: sys.stdout.write(doc) sys.stdout.flush() return None # def help_func(self): help = """\ Usage: scons-time func [OPTIONS] FILE [...] -C DIR, --chdir=DIR Change to DIR before looking for files -f FILE, --file=FILE Read configuration from specified FILE --fmt=FORMAT, --format=FORMAT Print data in specified FORMAT --func=NAME, --function=NAME Report time for function NAME -h, --help Print this help and exit -p STRING, --prefix=STRING Use STRING as log file/profile prefix -t NUMBER, --tail=NUMBER Only report the last NUMBER files --title=TITLE Specify the output plot TITLE """ sys.stdout.write(self.outdent(help)) sys.stdout.flush() def do_func(self, argv): """ """ format = 'ascii' function_name = '_main' tail = None short_opts = '?C:f:hp:t:' long_opts = [ 'chdir=', 'file=', 'fmt=', 'format=', 'func=', 'function=', 'help', 'prefix=', 'tail=', 'title=', ] opts, args = getopt.getopt(argv[1:], short_opts, long_opts) for o, a in opts: if o in ('-C', '--chdir'): self.chdir = a elif o in ('-f', '--file'): self.config_file = a elif o in ('--fmt', '--format'): format = a elif o in ('--func', '--function'): function_name = a elif o in ('-?', '-h', '--help'): self.do_help(['help', 'func']) sys.exit(0) elif o in ('--max',): max_time = int(a) elif o in ('-p', '--prefix'): self.prefix = a elif o in ('-t', '--tail'): tail = int(a) elif o in ('--title',): self.title = a if self.config_file: exec(open(self.config_file, 'r').read(), self.__dict__) if self.chdir: os.chdir(self.chdir) if not args: pattern = '%s*.prof' % self.prefix args = self.args_to_files([pattern], tail) if not args: if self.chdir: directory = self.chdir else: directory = os.getcwd() sys.stderr.write('%s: func: No arguments specified.\n' % self.name) sys.stderr.write('%s No %s*.prof files found in "%s".\n' % (self.name_spaces, self.prefix, directory)) sys.stderr.write('%s Type "%s help func" for help.\n' % (self.name_spaces, self.name)) sys.exit(1) else: args = self.args_to_files(args, tail) cwd_ = os.getcwd() + os.sep if format == 'ascii': for file in args: try: f, line, func, time = \ self.get_function_profile(file, function_name) except ValueError as e: sys.stderr.write("%s: func: %s: %s\n" % (self.name, file, e)) else: if f.startswith(cwd_): f = f[len(cwd_):] print("%.3f %s:%d(%s)" % (time, f, line, func)) elif format == 'gnuplot': results = self.collect_results(args, self.get_function_time, function_name) self.gnuplot_results(results) else: sys.stderr.write('%s: func: Unknown format "%s".\n' % (self.name, format)) sys.exit(1) # def help_mem(self): help = """\ Usage: scons-time mem [OPTIONS] FILE [...] -C DIR, --chdir=DIR Change to DIR before looking for files -f FILE, --file=FILE Read configuration from specified FILE --fmt=FORMAT, --format=FORMAT Print data in specified FORMAT -h, --help Print this help and exit -p STRING, --prefix=STRING Use STRING as log file/profile prefix --stage=STAGE Plot memory at the specified stage: pre-read, post-read, pre-build, post-build (default: post-build) -t NUMBER, --tail=NUMBER Only report the last NUMBER files --title=TITLE Specify the output plot TITLE """ sys.stdout.write(self.outdent(help)) sys.stdout.flush() def do_mem(self, argv): format = 'ascii' logfile_path = lambda x: x stage = self.default_stage tail = None short_opts = '?C:f:hp:t:' long_opts = [ 'chdir=', 'file=', 'fmt=', 'format=', 'help', 'prefix=', 'stage=', 'tail=', 'title=', ] opts, args = getopt.getopt(argv[1:], short_opts, long_opts) for o, a in opts: if o in ('-C', '--chdir'): self.chdir = a elif o in ('-f', '--file'): self.config_file = a elif o in ('--fmt', '--format'): format = a elif o in ('-?', '-h', '--help'): self.do_help(['help', 'mem']) sys.exit(0) elif o in ('-p', '--prefix'): self.prefix = a elif o in ('--stage',): if not a in self.stages: sys.stderr.write('%s: mem: Unrecognized stage "%s".\n' % (self.name, a)) sys.exit(1) stage = a elif o in ('-t', '--tail'): tail = int(a) elif o in ('--title',): self.title = a if self.config_file: HACK_for_exec(open(self.config_file, 'r').read(), self.__dict__) if self.chdir: os.chdir(self.chdir) logfile_path = lambda x: os.path.join(self.chdir, x) if not args: pattern = '%s*.log' % self.prefix args = self.args_to_files([pattern], tail) if not args: if self.chdir: directory = self.chdir else: directory = os.getcwd() sys.stderr.write('%s: mem: No arguments specified.\n' % self.name) sys.stderr.write('%s No %s*.log files found in "%s".\n' % (self.name_spaces, self.prefix, directory)) sys.stderr.write('%s Type "%s help mem" for help.\n' % (self.name_spaces, self.name)) sys.exit(1) else: args = self.args_to_files(args, tail) cwd_ = os.getcwd() + os.sep if format == 'ascii': self.ascii_table(args, tuple(self.stages), self.get_memory, logfile_path) elif format == 'gnuplot': results = self.collect_results(args, self.get_memory, self.stage_strings[stage]) self.gnuplot_results(results) else: sys.stderr.write('%s: mem: Unknown format "%s".\n' % (self.name, format)) sys.exit(1) return 0 # def help_obj(self): help = """\ Usage: scons-time obj [OPTIONS] OBJECT FILE [...] -C DIR, --chdir=DIR Change to DIR before looking for files -f FILE, --file=FILE Read configuration from specified FILE --fmt=FORMAT, --format=FORMAT Print data in specified FORMAT -h, --help Print this help and exit -p STRING, --prefix=STRING Use STRING as log file/profile prefix --stage=STAGE Plot memory at the specified stage: pre-read, post-read, pre-build, post-build (default: post-build) -t NUMBER, --tail=NUMBER Only report the last NUMBER files --title=TITLE Specify the output plot TITLE """ sys.stdout.write(self.outdent(help)) sys.stdout.flush() def do_obj(self, argv): format = 'ascii' logfile_path = lambda x: x stage = self.default_stage tail = None short_opts = '?C:f:hp:t:' long_opts = [ 'chdir=', 'file=', 'fmt=', 'format=', 'help', 'prefix=', 'stage=', 'tail=', 'title=', ] opts, args = getopt.getopt(argv[1:], short_opts, long_opts) for o, a in opts: if o in ('-C', '--chdir'): self.chdir = a elif o in ('-f', '--file'): self.config_file = a elif o in ('--fmt', '--format'): format = a elif o in ('-?', '-h', '--help'): self.do_help(['help', 'obj']) sys.exit(0) elif o in ('-p', '--prefix'): self.prefix = a elif o in ('--stage',): if not a in self.stages: sys.stderr.write('%s: obj: Unrecognized stage "%s".\n' % (self.name, a)) sys.stderr.write('%s Type "%s help obj" for help.\n' % (self.name_spaces, self.name)) sys.exit(1) stage = a elif o in ('-t', '--tail'): tail = int(a) elif o in ('--title',): self.title = a if not args: sys.stderr.write('%s: obj: Must specify an object name.\n' % self.name) sys.stderr.write('%s Type "%s help obj" for help.\n' % (self.name_spaces, self.name)) sys.exit(1) object_name = args.pop(0) if self.config_file: HACK_for_exec(open(self.config_file, 'r').read(), self.__dict__) if self.chdir: os.chdir(self.chdir) logfile_path = lambda x: os.path.join(self.chdir, x) if not args: pattern = '%s*.log' % self.prefix args = self.args_to_files([pattern], tail) if not args: if self.chdir: directory = self.chdir else: directory = os.getcwd() sys.stderr.write('%s: obj: No arguments specified.\n' % self.name) sys.stderr.write('%s No %s*.log files found in "%s".\n' % (self.name_spaces, self.prefix, directory)) sys.stderr.write('%s Type "%s help obj" for help.\n' % (self.name_spaces, self.name)) sys.exit(1) else: args = self.args_to_files(args, tail) cwd_ = os.getcwd() + os.sep if format == 'ascii': self.ascii_table(args, tuple(self.stages), self.get_object_counts, logfile_path, object_name) elif format == 'gnuplot': stage_index = 0 for s in self.stages: if stage == s: break stage_index = stage_index + 1 results = self.collect_results(args, self.get_object_counts, object_name, stage_index) self.gnuplot_results(results) else: sys.stderr.write('%s: obj: Unknown format "%s".\n' % (self.name, format)) sys.exit(1) return 0 # def help_run(self): help = """\ Usage: scons-time run [OPTIONS] [FILE ...] --aegis=PROJECT Use SCons from the Aegis PROJECT --chdir=DIR Name of unpacked directory for chdir -f FILE, --file=FILE Read configuration from specified FILE -h, --help Print this help and exit -n, --no-exec No execute, just print command lines --number=NUMBER Put output in files for run NUMBER --outdir=OUTDIR Put output files in OUTDIR -p STRING, --prefix=STRING Use STRING as log file/profile prefix --python=PYTHON Time using the specified PYTHON -q, --quiet Don't print command lines --scons=SCONS Time using the specified SCONS --svn=URL, --subversion=URL Use SCons from Subversion URL -v, --verbose Display output of commands """ sys.stdout.write(self.outdent(help)) sys.stdout.flush() def do_run(self, argv): """ """ run_number_list = [None] short_opts = '?f:hnp:qs:v' long_opts = [ 'aegis=', 'file=', 'help', 'no-exec', 'number=', 'outdir=', 'prefix=', 'python=', 'quiet', 'scons=', 'svn=', 'subdir=', 'subversion=', 'verbose', ] opts, args = getopt.getopt(argv[1:], short_opts, long_opts) for o, a in opts: if o in ('--aegis',): self.aegis_project = a elif o in ('-f', '--file'): self.config_file = a elif o in ('-?', '-h', '--help'): self.do_help(['help', 'run']) sys.exit(0) elif o in ('-n', '--no-exec'): self.execute = self._do_not_execute elif o in ('--number',): run_number_list = self.split_run_numbers(a) elif o in ('--outdir',): self.outdir = a elif o in ('-p', '--prefix'): self.prefix = a elif o in ('--python',): self.python = a elif o in ('-q', '--quiet'): self.display = self._do_not_display elif o in ('-s', '--subdir'): self.subdir = a elif o in ('--scons',): self.scons = a elif o in ('--svn', '--subversion'): self.subversion_url = a elif o in ('-v', '--verbose'): self.redirect = tee_to_file self.verbose = True self.svn_co_flag = '' if not args and not self.config_file: sys.stderr.write('%s: run: No arguments or -f config file specified.\n' % self.name) sys.stderr.write('%s Type "%s help run" for help.\n' % (self.name_spaces, self.name)) sys.exit(1) if self.config_file: exec(open(self.config_file, 'r').read(), self.__dict__) if args: self.archive_list = args archive_file_name = os.path.split(self.archive_list[0])[1] if not self.subdir: self.subdir = self.archive_splitext(archive_file_name)[0] if not self.prefix: self.prefix = self.archive_splitext(archive_file_name)[0] prepare = None if self.subversion_url: prepare = self.prep_subversion_run elif self.aegis_project: prepare = self.prep_aegis_run for run_number in run_number_list: self.individual_run(run_number, self.archive_list, prepare) def split_run_numbers(self, s): result = [] for n in s.split(','): try: x, y = n.split('-') except ValueError: result.append(int(n)) else: result.extend(list(range(int(x), int(y)+1))) return result def scons_path(self, dir): return os.path.join(dir, 'src', 'script', 'scons.py') def scons_lib_dir_path(self, dir): return os.path.join(dir, 'src', 'engine') def prep_aegis_run(self, commands, removals): self.aegis_tmpdir = make_temp_file(prefix = self.name + '-aegis-') removals.append((shutil.rmtree, 'rm -rf %%s', self.aegis_tmpdir)) self.aegis_parent_project = os.path.splitext(self.aegis_project)[0] self.scons = self.scons_path(self.aegis_tmpdir) self.scons_lib_dir = self.scons_lib_dir_path(self.aegis_tmpdir) commands.extend([ 'mkdir %(aegis_tmpdir)s', (lambda: os.chdir(self.aegis_tmpdir), 'cd %(aegis_tmpdir)s'), '%(aegis)s -cp -ind -p %(aegis_parent_project)s .', '%(aegis)s -cp -ind -p %(aegis_project)s -delta %(run_number)s .', ]) def prep_subversion_run(self, commands, removals): self.svn_tmpdir = make_temp_file(prefix = self.name + '-svn-') removals.append((shutil.rmtree, 'rm -rf %%s', self.svn_tmpdir)) self.scons = self.scons_path(self.svn_tmpdir) self.scons_lib_dir = self.scons_lib_dir_path(self.svn_tmpdir) commands.extend([ 'mkdir %(svn_tmpdir)s', '%(svn)s co %(svn_co_flag)s -r %(run_number)s %(subversion_url)s %(svn_tmpdir)s', ]) def individual_run(self, run_number, archive_list, prepare=None): """ Performs an individual run of the default SCons invocations. """ commands = [] removals = [] if prepare: prepare(commands, removals) save_scons = self.scons save_scons_wrapper = self.scons_wrapper save_scons_lib_dir = self.scons_lib_dir if self.outdir is None: self.outdir = self.orig_cwd elif not os.path.isabs(self.outdir): self.outdir = os.path.join(self.orig_cwd, self.outdir) if self.scons is None: self.scons = self.scons_path(self.orig_cwd) if self.scons_lib_dir is None: self.scons_lib_dir = self.scons_lib_dir_path(self.orig_cwd) if self.scons_wrapper is None: self.scons_wrapper = self.scons if not run_number: run_number = self.find_next_run_number(self.outdir, self.prefix) self.run_number = str(run_number) self.prefix_run = self.prefix + '-%03d' % run_number if self.targets0 is None: self.targets0 = self.startup_targets if self.targets1 is None: self.targets1 = self.targets if self.targets2 is None: self.targets2 = self.targets self.tmpdir = make_temp_file(prefix = self.name + '-') commands.extend([ 'mkdir %(tmpdir)s', (os.chdir, 'cd %%s', self.tmpdir), ]) for archive in archive_list: if not os.path.isabs(archive): archive = os.path.join(self.orig_cwd, archive) if os.path.isdir(archive): dest = os.path.split(archive)[1] commands.append((shutil.copytree, 'cp -r %%s %%s', archive, dest)) else: suffix = self.archive_splitext(archive)[1] unpack_command = self.unpack_map.get(suffix) if not unpack_command: dest = os.path.split(archive)[1] commands.append((shutil.copyfile, 'cp %%s %%s', archive, dest)) else: commands.append(unpack_command + (archive,)) commands.extend([ (os.chdir, 'cd %%s', self.subdir), ]) commands.extend(self.initial_commands) commands.extend([ (lambda: read_tree('.'), 'find * -type f | xargs cat > /dev/null'), (self.set_env, 'export %%s=%%s', 'SCONS_LIB_DIR', self.scons_lib_dir), '%(python)s %(scons_wrapper)s --version', ]) index = 0 for run_command in self.run_commands: setattr(self, 'prof%d' % index, self.profile_name(index)) c = ( self.log_execute, self.log_display, run_command, self.logfile_name(index), ) commands.append(c) index = index + 1 commands.extend([ (os.chdir, 'cd %%s', self.orig_cwd), ]) if not os.environ.get('PRESERVE'): commands.extend(removals) commands.append((shutil.rmtree, 'rm -rf %%s', self.tmpdir)) self.run_command_list(commands, self.__dict__) self.scons = save_scons self.scons_lib_dir = save_scons_lib_dir self.scons_wrapper = save_scons_wrapper # def help_time(self): help = """\ Usage: scons-time time [OPTIONS] FILE [...] -C DIR, --chdir=DIR Change to DIR before looking for files -f FILE, --file=FILE Read configuration from specified FILE --fmt=FORMAT, --format=FORMAT Print data in specified FORMAT -h, --help Print this help and exit -p STRING, --prefix=STRING Use STRING as log file/profile prefix -t NUMBER, --tail=NUMBER Only report the last NUMBER files --which=TIMER Plot timings for TIMER: total, SConscripts, SCons, commands. """ sys.stdout.write(self.outdent(help)) sys.stdout.flush() def do_time(self, argv): format = 'ascii' logfile_path = lambda x: x tail = None which = 'total' short_opts = '?C:f:hp:t:' long_opts = [ 'chdir=', 'file=', 'fmt=', 'format=', 'help', 'prefix=', 'tail=', 'title=', 'which=', ] opts, args = getopt.getopt(argv[1:], short_opts, long_opts) for o, a in opts: if o in ('-C', '--chdir'): self.chdir = a elif o in ('-f', '--file'): self.config_file = a elif o in ('--fmt', '--format'): format = a elif o in ('-?', '-h', '--help'): self.do_help(['help', 'time']) sys.exit(0) elif o in ('-p', '--prefix'): self.prefix = a elif o in ('-t', '--tail'): tail = int(a) elif o in ('--title',): self.title = a elif o in ('--which',): if not a in list(self.time_strings.keys()): sys.stderr.write('%s: time: Unrecognized timer "%s".\n' % (self.name, a)) sys.stderr.write('%s Type "%s help time" for help.\n' % (self.name_spaces, self.name)) sys.exit(1) which = a if self.config_file: HACK_for_exec(open(self.config_file, 'r').read(), self.__dict__) if self.chdir: os.chdir(self.chdir) logfile_path = lambda x: os.path.join(self.chdir, x) if not args: pattern = '%s*.log' % self.prefix args = self.args_to_files([pattern], tail) if not args: if self.chdir: directory = self.chdir else: directory = os.getcwd() sys.stderr.write('%s: time: No arguments specified.\n' % self.name) sys.stderr.write('%s No %s*.log files found in "%s".\n' % (self.name_spaces, self.prefix, directory)) sys.stderr.write('%s Type "%s help time" for help.\n' % (self.name_spaces, self.name)) sys.exit(1) else: args = self.args_to_files(args, tail) cwd_ = os.getcwd() + os.sep if format == 'ascii': columns = ("Total", "SConscripts", "SCons", "commands") self.ascii_table(args, columns, self.get_debug_times, logfile_path) elif format == 'gnuplot': results = self.collect_results(args, self.get_debug_times, self.time_strings[which]) self.gnuplot_results(results, fmt='%s %.6f') else: sys.stderr.write('%s: time: Unknown format "%s".\n' % (self.name, format)) sys.exit(1) if __name__ == '__main__': opts, args = getopt.getopt(sys.argv[1:], 'h?V', ['help', 'version']) ST = SConsTimer() for o, a in opts: if o in ('-?', '-h', '--help'): ST.do_help(['help']) sys.exit(0) elif o in ('-V', '--version'): sys.stdout.write('scons-time version\n') sys.exit(0) if not args: sys.stderr.write('Type "%s help" for usage.\n' % ST.name) sys.exit(1) ST.execute_subcommand(args) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/script/sconsign0000664000175000017500000004414413202656512017223 0ustar bdbaddogbdbaddog00000000000000#! /usr/bin/env python # # SCons - a Software Constructor # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import print_function __revision__ = "src/script/sconsign.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __version__ = "3.0.1" __build__ = "74b2c53bc42290e911b334a6b44f187da698a668" __buildsys__ = "hpmicrodog" __date__ = "2017/11/14 13:16:53" __developer__ = "bdbaddog" import os import sys ############################################################################## # BEGIN STANDARD SCons SCRIPT HEADER # # This is the cut-and-paste logic so that a self-contained script can # interoperate correctly with different SCons versions and installation # locations for the engine. If you modify anything in this section, you # should also change other scripts that use this same header. ############################################################################## # Strip the script directory from sys.path() so on case-insensitive # (WIN32) systems Python doesn't think that the "scons" script is the # "SCons" package. Replace it with our own library directories # (version-specific first, in case they installed by hand there, # followed by generic) so we pick up the right version of the build # engine modules if they're in either directory. script_dir = os.path.dirname(os.path.realpath(__file__)) if script_dir in sys.path: sys.path.remove(script_dir) libs = [] if "SCONS_LIB_DIR" in os.environ: libs.append(os.environ["SCONS_LIB_DIR"]) # - running from source takes priority (since 2.3.2), excluding SCONS_LIB_DIR settings script_path = os.path.abspath(os.path.dirname(__file__)) source_path = os.path.join(script_path, '..', 'engine') libs.append(source_path) local_version = 'scons-local-' + __version__ local = 'scons-local' if script_dir: local_version = os.path.join(script_dir, local_version) local = os.path.join(script_dir, local) libs.append(os.path.abspath(local_version)) libs.append(os.path.abspath(local)) scons_version = 'scons-%s' % __version__ # preferred order of scons lookup paths prefs = [] try: import pkg_resources except ImportError: pass else: # when running from an egg add the egg's directory try: d = pkg_resources.get_distribution('scons') except pkg_resources.DistributionNotFound: pass else: prefs.append(d.location) if sys.platform == 'win32': # sys.prefix is (likely) C:\Python*; # check only C:\Python*. prefs.append(sys.prefix) prefs.append(os.path.join(sys.prefix, 'Lib', 'site-packages')) else: # On other (POSIX) platforms, things are more complicated due to # the variety of path names and library locations. Try to be smart # about it. if script_dir == 'bin': # script_dir is `pwd`/bin; # check `pwd`/lib/scons*. prefs.append(os.getcwd()) else: if script_dir == '.' or script_dir == '': script_dir = os.getcwd() head, tail = os.path.split(script_dir) if tail == "bin": # script_dir is /foo/bin; # check /foo/lib/scons*. prefs.append(head) head, tail = os.path.split(sys.prefix) if tail == "usr": # sys.prefix is /foo/usr; # check /foo/usr/lib/scons* first, # then /foo/usr/local/lib/scons*. prefs.append(sys.prefix) prefs.append(os.path.join(sys.prefix, "local")) elif tail == "local": h, t = os.path.split(head) if t == "usr": # sys.prefix is /foo/usr/local; # check /foo/usr/local/lib/scons* first, # then /foo/usr/lib/scons*. prefs.append(sys.prefix) prefs.append(head) else: # sys.prefix is /foo/local; # check only /foo/local/lib/scons*. prefs.append(sys.prefix) else: # sys.prefix is /foo (ends in neither /usr or /local); # check only /foo/lib/scons*. prefs.append(sys.prefix) temp = [os.path.join(x, 'lib') for x in prefs] temp.extend([os.path.join(x, 'lib', 'python' + sys.version[:3], 'site-packages') for x in prefs]) prefs = temp # Add the parent directory of the current python's library to the # preferences. On SuSE-91/AMD64, for example, this is /usr/lib64, # not /usr/lib. try: libpath = os.__file__ except AttributeError: pass else: # Split /usr/libfoo/python*/os.py to /usr/libfoo/python*. libpath, tail = os.path.split(libpath) # Split /usr/libfoo/python* to /usr/libfoo libpath, tail = os.path.split(libpath) # Check /usr/libfoo/scons*. prefs.append(libpath) # Look first for 'scons-__version__' in all of our preference libs, # then for 'scons'. libs.extend([os.path.join(x, scons_version) for x in prefs]) libs.extend([os.path.join(x, 'scons') for x in prefs]) sys.path = libs + sys.path ############################################################################## # END STANDARD SCons SCRIPT HEADER ############################################################################## import SCons.compat try: import whichdb whichdb = whichdb.whichdb except ImportError as e: from dbm import whichdb import time import pickle import imp import SCons.SConsign def my_whichdb(filename): if filename[-7:] == ".dblite": return "SCons.dblite" try: f = open(filename + ".dblite", "rb") f.close() return "SCons.dblite" except IOError: pass return _orig_whichdb(filename) # Should work on python2 _orig_whichdb = whichdb whichdb = my_whichdb # was changed for python3 #_orig_whichdb = whichdb.whichdb #dbm.whichdb = my_whichdb def my_import(mname): if '.' in mname: i = mname.rfind('.') parent = my_import(mname[:i]) fp, pathname, description = imp.find_module(mname[i+1:], parent.__path__) else: fp, pathname, description = imp.find_module(mname) return imp.load_module(mname, fp, pathname, description) class Flagger(object): default_value = 1 def __setitem__(self, item, value): self.__dict__[item] = value self.default_value = 0 def __getitem__(self, item): return self.__dict__.get(item, self.default_value) Do_Call = None Print_Directories = [] Print_Entries = [] Print_Flags = Flagger() Verbose = 0 Readable = 0 def default_mapper(entry, name): try: val = eval("entry."+name) except: val = None if sys.version_info.major >= 3 and isinstance(val, bytes): # This is a dirty hack for py 2/3 compatibility. csig is a bytes object # in Python3 while Python2 bytes are str. Hence, we decode the csig to a # Python3 string val = val.decode() return str(val) def map_action(entry, name): try: bact = entry.bact bactsig = entry.bactsig except AttributeError: return None return '%s [%s]' % (bactsig, bact) def map_timestamp(entry, name): try: timestamp = entry.timestamp except AttributeError: timestamp = None if Readable and timestamp: return "'" + time.ctime(timestamp) + "'" else: return str(timestamp) def map_bkids(entry, name): try: bkids = entry.bsources + entry.bdepends + entry.bimplicit bkidsigs = entry.bsourcesigs + entry.bdependsigs + entry.bimplicitsigs except AttributeError: return None result = [] for i in range(len(bkids)): result.append(nodeinfo_string(bkids[i], bkidsigs[i], " ")) if result == []: return None return "\n ".join(result) map_field = { 'action' : map_action, 'timestamp' : map_timestamp, 'bkids' : map_bkids, } map_name = { 'implicit' : 'bkids', } def field(name, entry, verbose=Verbose): if not Print_Flags[name]: return None fieldname = map_name.get(name, name) mapper = map_field.get(fieldname, default_mapper) val = mapper(entry, name) if verbose: val = name + ": " + val return val def nodeinfo_raw(name, ninfo, prefix=""): # This just formats the dictionary, which we would normally use str() # to do, except that we want the keys sorted for deterministic output. d = ninfo.__getstate__() try: keys = ninfo.field_list + ['_version_id'] except AttributeError: keys = sorted(d.keys()) l = [] for k in keys: l.append('%s: %s' % (repr(k), repr(d.get(k)))) if '\n' in name: name = repr(name) return name + ': {' + ', '.join(l) + '}' def nodeinfo_cooked(name, ninfo, prefix=""): try: field_list = ninfo.field_list except AttributeError: field_list = [] if '\n' in name: name = repr(name) outlist = [name+':'] + [_f for _f in [field(x, ninfo, Verbose) for x in field_list] if _f] if Verbose: sep = '\n ' + prefix else: sep = ' ' return sep.join(outlist) nodeinfo_string = nodeinfo_cooked def printfield(name, entry, prefix=""): outlist = field("implicit", entry, 0) if outlist: if Verbose: print(" implicit:") print(" " + outlist) outact = field("action", entry, 0) if outact: if Verbose: print(" action: " + outact) else: print(" " + outact) def printentries(entries, location): if Print_Entries: for name in Print_Entries: try: entry = entries[name] except KeyError: sys.stderr.write("sconsign: no entry `%s' in `%s'\n" % (name, location)) else: try: ninfo = entry.ninfo except AttributeError: print(name + ":") else: print(nodeinfo_string(name, entry.ninfo)) printfield(name, entry.binfo) else: for name in sorted(entries.keys()): entry = entries[name] try: ninfo = entry.ninfo except AttributeError: print(name + ":") else: print(nodeinfo_string(name, entry.ninfo)) printfield(name, entry.binfo) class Do_SConsignDB(object): def __init__(self, dbm_name, dbm): self.dbm_name = dbm_name self.dbm = dbm def __call__(self, fname): # The *dbm modules stick their own file suffixes on the names # that are passed in. This is causes us to jump through some # hoops here to be able to allow the user try: # Try opening the specified file name. Example: # SPECIFIED OPENED BY self.dbm.open() # --------- ------------------------- # .sconsign => .sconsign.dblite # .sconsign.dblite => .sconsign.dblite.dblite db = self.dbm.open(fname, "r") except (IOError, OSError) as e: print_e = e try: # That didn't work, so try opening the base name, # so that if the actually passed in 'sconsign.dblite' # (for example), the dbm module will put the suffix back # on for us and open it anyway. db = self.dbm.open(os.path.splitext(fname)[0], "r") except (IOError, OSError): # That didn't work either. See if the file name # they specified just exists (independent of the dbm # suffix-mangling). try: open(fname, "r") except (IOError, OSError) as e: # Nope, that file doesn't even exist, so report that # fact back. print_e = e sys.stderr.write("sconsign: %s\n" % (print_e)) return except KeyboardInterrupt: raise except pickle.UnpicklingError: sys.stderr.write("sconsign: ignoring invalid `%s' file `%s'\n" % (self.dbm_name, fname)) return except Exception as e: sys.stderr.write("sconsign: ignoring invalid `%s' file `%s': %s\n" % (self.dbm_name, fname, e)) return if Print_Directories: for dir in Print_Directories: try: val = db[dir] except KeyError: sys.stderr.write("sconsign: no dir `%s' in `%s'\n" % (dir, args[0])) else: self.printentries(dir, val) else: for dir in sorted(db.keys()): self.printentries(dir, db[dir]) def printentries(self, dir, val): print('=== ' + dir + ':') printentries(pickle.loads(val), dir) def Do_SConsignDir(name): try: fp = open(name, 'rb') except (IOError, OSError) as e: sys.stderr.write("sconsign: %s\n" % (e)) return try: sconsign = SCons.SConsign.Dir(fp) except KeyboardInterrupt: raise except pickle.UnpicklingError: sys.stderr.write("sconsign: ignoring invalid .sconsign file `%s'\n" % (name)) return except Exception as e: sys.stderr.write("sconsign: ignoring invalid .sconsign file `%s': %s\n" % (name, e)) return printentries(sconsign.entries, args[0]) ############################################################################## import getopt helpstr = """\ Usage: sconsign [OPTIONS] FILE [...] Options: -a, --act, --action Print build action information. -c, --csig Print content signature information. -d DIR, --dir=DIR Print only info about DIR. -e ENTRY, --entry=ENTRY Print only info about ENTRY. -f FORMAT, --format=FORMAT FILE is in the specified FORMAT. -h, --help Print this message and exit. -i, --implicit Print implicit dependency information. -r, --readable Print timestamps in human-readable form. --raw Print raw Python object representations. -s, --size Print file sizes. -t, --timestamp Print timestamp information. -v, --verbose Verbose, describe each field. """ opts, args = getopt.getopt(sys.argv[1:], "acd:e:f:hirstv", ['act', 'action', 'csig', 'dir=', 'entry=', 'format=', 'help', 'implicit', 'raw', 'readable', 'size', 'timestamp', 'verbose']) for o, a in opts: if o in ('-a', '--act', '--action'): Print_Flags['action'] = 1 elif o in ('-c', '--csig'): Print_Flags['csig'] = 1 elif o in ('-d', '--dir'): Print_Directories.append(a) elif o in ('-e', '--entry'): Print_Entries.append(a) elif o in ('-f', '--format'): # Try to map the given DB format to a known module # name, that we can then try to import... Module_Map = {'dblite' : 'SCons.dblite', 'sconsign' : None} dbm_name = Module_Map.get(a, a) if dbm_name: try: if dbm_name != "SCons.dblite": dbm = my_import(dbm_name) else: import SCons.dblite dbm = SCons.dblite # Ensure that we don't ignore corrupt DB files, # this was handled by calling my_import('SCons.dblite') # again in earlier versions... SCons.dblite.ignore_corrupt_dbfiles = 0 except: sys.stderr.write("sconsign: illegal file format `%s'\n" % a) print(helpstr) sys.exit(2) Do_Call = Do_SConsignDB(a, dbm) else: Do_Call = Do_SConsignDir elif o in ('-h', '--help'): print(helpstr) sys.exit(0) elif o in ('-i', '--implicit'): Print_Flags['implicit'] = 1 elif o in ('--raw',): nodeinfo_string = nodeinfo_raw elif o in ('-r', '--readable'): Readable = 1 elif o in ('-s', '--size'): Print_Flags['size'] = 1 elif o in ('-t', '--timestamp'): Print_Flags['timestamp'] = 1 elif o in ('-v', '--verbose'): Verbose = 1 if Do_Call: for a in args: Do_Call(a) else: for a in args: dbm_name = whichdb(a) if dbm_name: Map_Module = {'SCons.dblite' : 'dblite'} if dbm_name != "SCons.dblite": dbm = my_import(dbm_name) else: import SCons.dblite dbm = SCons.dblite # Ensure that we don't ignore corrupt DB files, # this was handled by calling my_import('SCons.dblite') # again in earlier versions... SCons.dblite.ignore_corrupt_dbfiles = 0 Do_SConsignDB(Map_Module.get(dbm_name, dbm_name), dbm)(a) else: Do_SConsignDir(a) sys.exit(0) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/script/scons0000664000175000017500000001565313202656512016530 0ustar bdbaddogbdbaddog00000000000000#! /usr/bin/env python # # SCons - a Software Constructor # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import print_function __revision__ = "src/script/scons.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __version__ = "3.0.1" __build__ = "74b2c53bc42290e911b334a6b44f187da698a668" __buildsys__ = "hpmicrodog" __date__ = "2017/11/14 13:16:53" __developer__ = "bdbaddog" import os import sys ############################################################################## # BEGIN STANDARD SCons SCRIPT HEADER # # This is the cut-and-paste logic so that a self-contained script can # interoperate correctly with different SCons versions and installation # locations for the engine. If you modify anything in this section, you # should also change other scripts that use this same header. ############################################################################## # Strip the script directory from sys.path() so on case-insensitive # (WIN32) systems Python doesn't think that the "scons" script is the # "SCons" package. Replace it with our own library directories # (version-specific first, in case they installed by hand there, # followed by generic) so we pick up the right version of the build # engine modules if they're in either directory. if (3,0,0) < sys.version_info < (3,5,0) or sys.version_info < (2,7,0): msg = "scons: *** SCons version %s does not run under Python version %s.\n\ Python < 3.5 is not yet supported.\n" sys.stderr.write(msg % (__version__, sys.version.split()[0])) sys.exit(1) script_dir = os.path.dirname(os.path.realpath(__file__)) if script_dir in sys.path: sys.path.remove(script_dir) libs = [] if "SCONS_LIB_DIR" in os.environ: libs.append(os.environ["SCONS_LIB_DIR"]) # - running from source takes priority (since 2.3.2), excluding SCONS_LIB_DIR settings script_path = os.path.abspath(os.path.dirname(__file__)) source_path = os.path.join(script_path, '..', 'engine') libs.append(source_path) local_version = 'scons-local-' + __version__ local = 'scons-local' if script_dir: local_version = os.path.join(script_dir, local_version) local = os.path.join(script_dir, local) libs.append(os.path.abspath(local_version)) libs.append(os.path.abspath(local)) scons_version = 'scons-%s' % __version__ # preferred order of scons lookup paths prefs = [] # - running from egg check try: import pkg_resources except ImportError: pass else: # when running from an egg add the egg's directory try: d = pkg_resources.get_distribution('scons') except pkg_resources.DistributionNotFound: pass else: prefs.append(d.location) if sys.platform == 'win32': # sys.prefix is (likely) C:\Python*; # check only C:\Python*. prefs.append(sys.prefix) prefs.append(os.path.join(sys.prefix, 'Lib', 'site-packages')) else: # On other (POSIX) platforms, things are more complicated due to # the variety of path names and library locations. Try to be smart # about it. if script_dir == 'bin': # script_dir is `pwd`/bin; # check `pwd`/lib/scons*. prefs.append(os.getcwd()) else: if script_dir == '.' or script_dir == '': script_dir = os.getcwd() head, tail = os.path.split(script_dir) if tail == "bin": # script_dir is /foo/bin; # check /foo/lib/scons*. prefs.append(head) head, tail = os.path.split(sys.prefix) if tail == "usr": # sys.prefix is /foo/usr; # check /foo/usr/lib/scons* first, # then /foo/usr/local/lib/scons*. prefs.append(sys.prefix) prefs.append(os.path.join(sys.prefix, "local")) elif tail == "local": h, t = os.path.split(head) if t == "usr": # sys.prefix is /foo/usr/local; # check /foo/usr/local/lib/scons* first, # then /foo/usr/lib/scons*. prefs.append(sys.prefix) prefs.append(head) else: # sys.prefix is /foo/local; # check only /foo/local/lib/scons*. prefs.append(sys.prefix) else: # sys.prefix is /foo (ends in neither /usr or /local); # check only /foo/lib/scons*. prefs.append(sys.prefix) temp = [os.path.join(x, 'lib') for x in prefs] temp.extend([os.path.join(x, 'lib', 'python' + sys.version[:3], 'site-packages') for x in prefs]) prefs = temp # Add the parent directory of the current python's library to the # preferences. On SuSE-91/AMD64, for example, this is /usr/lib64, # not /usr/lib. try: libpath = os.__file__ except AttributeError: pass else: # Split /usr/libfoo/python*/os.py to /usr/libfoo/python*. libpath, tail = os.path.split(libpath) # Split /usr/libfoo/python* to /usr/libfoo libpath, tail = os.path.split(libpath) # Check /usr/libfoo/scons*. prefs.append(libpath) # Look first for 'scons-__version__' in all of our preference libs, # then for 'scons'. libs.extend([os.path.join(x, scons_version) for x in prefs]) libs.extend([os.path.join(x, 'scons') for x in prefs]) sys.path = libs + sys.path ############################################################################## # END STANDARD SCons SCRIPT HEADER ############################################################################## if __name__ == "__main__": try: import SCons.Script except ImportError: print("SCons import failed. Unable to find engine files in:") for path in libs: print(" {}".format(path)) raise # this does all the work, and calls sys.exit # with the proper exit status when done. SCons.Script.main() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/script/scons-configure-cache0000664000175000017500000001235313202656512021542 0ustar bdbaddogbdbaddog00000000000000#! /usr/bin/env python # # SCons - a Software Constructor # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import print_function __revision__ = "src/script/scons-configure-cache.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __version__ = "3.0.1" __build__ = "74b2c53bc42290e911b334a6b44f187da698a668" __buildsys__ = "hpmicrodog" __date__ = "2017/11/14 13:16:53" __developer__ = "bdbaddog" import argparse import glob import json import os def rearrange_cache_entries(current_prefix_len, new_prefix_len): print('Changing prefix length from', current_prefix_len, 'to', new_prefix_len) dirs = set() old_dirs = set() for file in glob.iglob(os.path.join('*', '*')): name = os.path.basename(file) dir = name[:current_prefix_len].upper() if dir not in old_dirs: print('Migrating', dir) old_dirs.add(dir) dir = name[:new_prefix_len].upper() if dir not in dirs: os.mkdir(dir) dirs.add(dir) os.rename(file, os.path.join(dir, name)) # Now delete the original directories for dir in old_dirs: os.rmdir(dir) # This dictionary should have one entry per entry in the cache config # Each entry should have the following: # implicit - (optional) This is to allow adding a new config entry and also # changing the behaviour of the system at the same time. This # indicates the value the config entry would have had if it had been # specified. # default - The value the config entry should have if it wasn't previously # specified # command-line - parameters to pass to ArgumentParser.add_argument # converter - (optional) Function to call if it's necessary to do some work # if this configuration entry changes config_entries = { 'prefix_len' : { 'implicit' : 1, 'default' : 2 , 'command-line' : { 'help' : 'Length of cache file name used as subdirectory prefix', 'metavar' : '', 'type' : int }, 'converter' : rearrange_cache_entries } } parser = argparse.ArgumentParser( description = 'Modify the configuration of an scons cache directory', epilog = ''' Unless you specify an option, it will not be changed (if it is already set in the cache config), or changed to an appropriate default (it it is not set). ''' ) parser.add_argument('cache-dir', help='Path to scons cache directory') for param in config_entries: parser.add_argument('--' + param.replace('_', '-'), **config_entries[param]['command-line']) parser.add_argument('--version', action='version', version='%(prog)s 1.0') # Get the command line as a dict without any of the unspecified entries. args = dict([x for x in vars(parser.parse_args()).items() if x[1]]) # It seems somewhat strange to me, but positional arguments don't get the - # in the name changed to _, whereas optional arguments do... os.chdir(args['cache-dir']) del args['cache-dir'] if not os.path.exists('config'): # Validate the only files in the directory are directories 0-9, a-f expected = [ '{:X}'.format(x) for x in range(0, 16) ] if not set(os.listdir('.')).issubset(expected): raise RuntimeError("This doesn't look like a version 1 cache directory") config = dict() else: with open('config') as conf: config = json.load(conf) # Find any keys that aren't currently set but should be for key in config_entries: if key not in config: if 'implicit' in config_entries[key]: config[key] = config_entries[key]['implicit'] else: config[key] = config_entries[key]['default'] if key not in args: args[key] = config_entries[key]['default'] #Now we go through each entry in args to see if it changes an existing config #setting. for key in args: if args[key] != config[key]: if 'converter' in config_entries[key]: config_entries[key]['converter'](config[key], args[key]) config[key] = args[key] # and write the updated config file with open('config', 'w') as conf: json.dump(config, conf) scons-3.0.1/engine/0000775000175000017500000000000013202656646015417 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/0000775000175000017500000000000013202656646016444 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Debug.py0000664000175000017500000001655613202656511020050 0ustar bdbaddogbdbaddog00000000000000"""SCons.Debug Code for debugging SCons internal things. Shouldn't be needed by most users. Quick shortcuts: from SCons.Debug import caller_trace caller_trace() """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Debug.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import sys import time import weakref import inspect # Global variable that gets set to 'True' by the Main script, # when the creation of class instances should get tracked. track_instances = False # List of currently tracked classes tracked_classes = {} def logInstanceCreation(instance, name=None): if name is None: name = instance.__class__.__name__ if name not in tracked_classes: tracked_classes[name] = [] if hasattr(instance, '__dict__'): tracked_classes[name].append(weakref.ref(instance)) else: # weakref doesn't seem to work when the instance # contains only slots... tracked_classes[name].append(instance) def string_to_classes(s): if s == '*': return sorted(tracked_classes.keys()) else: return s.split() def fetchLoggedInstances(classes="*"): classnames = string_to_classes(classes) return [(cn, len(tracked_classes[cn])) for cn in classnames] def countLoggedInstances(classes, file=sys.stdout): for classname in string_to_classes(classes): file.write("%s: %d\n" % (classname, len(tracked_classes[classname]))) def listLoggedInstances(classes, file=sys.stdout): for classname in string_to_classes(classes): file.write('\n%s:\n' % classname) for ref in tracked_classes[classname]: if inspect.isclass(ref): obj = ref() else: obj = ref if obj is not None: file.write(' %s\n' % repr(obj)) def dumpLoggedInstances(classes, file=sys.stdout): for classname in string_to_classes(classes): file.write('\n%s:\n' % classname) for ref in tracked_classes[classname]: obj = ref() if obj is not None: file.write(' %s:\n' % obj) for key, value in obj.__dict__.items(): file.write(' %20s : %s\n' % (key, value)) if sys.platform[:5] == "linux": # Linux doesn't actually support memory usage stats from getrusage(). def memory(): with open('/proc/self/stat') as f: mstr = f.read() mstr = mstr.split()[22] return int(mstr) elif sys.platform[:6] == 'darwin': #TODO really get memory stats for OS X def memory(): return 0 else: try: import resource except ImportError: try: import win32process import win32api except ImportError: def memory(): return 0 else: def memory(): process_handle = win32api.GetCurrentProcess() memory_info = win32process.GetProcessMemoryInfo( process_handle ) return memory_info['PeakWorkingSetSize'] else: def memory(): res = resource.getrusage(resource.RUSAGE_SELF) return res[4] # returns caller's stack def caller_stack(): import traceback tb = traceback.extract_stack() # strip itself and the caller from the output tb = tb[:-2] result = [] for back in tb: # (filename, line number, function name, text) key = back[:3] result.append('%s:%d(%s)' % func_shorten(key)) return result caller_bases = {} caller_dicts = {} def caller_trace(back=0): """ Trace caller stack and save info into global dicts, which are printed automatically at the end of SCons execution. """ global caller_bases, caller_dicts import traceback tb = traceback.extract_stack(limit=3+back) tb.reverse() callee = tb[1][:3] caller_bases[callee] = caller_bases.get(callee, 0) + 1 for caller in tb[2:]: caller = callee + caller[:3] try: entry = caller_dicts[callee] except KeyError: caller_dicts[callee] = entry = {} entry[caller] = entry.get(caller, 0) + 1 callee = caller # print a single caller and its callers, if any def _dump_one_caller(key, file, level=0): leader = ' '*level for v,c in sorted([(-v,c) for c,v in caller_dicts[key].items()]): file.write("%s %6d %s:%d(%s)\n" % ((leader,-v) + func_shorten(c[-3:]))) if c in caller_dicts: _dump_one_caller(c, file, level+1) # print each call tree def dump_caller_counts(file=sys.stdout): for k in sorted(caller_bases.keys()): file.write("Callers of %s:%d(%s), %d calls:\n" % (func_shorten(k) + (caller_bases[k],))) _dump_one_caller(k, file) shorten_list = [ ( '/scons/SCons/', 1), ( '/src/engine/SCons/', 1), ( '/usr/lib/python', 0), ] if os.sep != '/': shorten_list = [(t[0].replace('/', os.sep), t[1]) for t in shorten_list] def func_shorten(func_tuple): f = func_tuple[0] for t in shorten_list: i = f.find(t[0]) if i >= 0: if t[1]: i = i + len(t[0]) return (f[i:],)+func_tuple[1:] return func_tuple TraceFP = {} if sys.platform == 'win32': TraceDefault = 'con' else: TraceDefault = '/dev/tty' TimeStampDefault = None StartTime = time.time() PreviousTime = StartTime def Trace(msg, file=None, mode='w', tstamp=None): """Write a trace message to a file. Whenever a file is specified, it becomes the default for the next call to Trace().""" global TraceDefault global TimeStampDefault global PreviousTime if file is None: file = TraceDefault else: TraceDefault = file if tstamp is None: tstamp = TimeStampDefault else: TimeStampDefault = tstamp try: fp = TraceFP[file] except KeyError: try: fp = TraceFP[file] = open(file, mode) except TypeError: # Assume we were passed an open file pointer. fp = file if tstamp: now = time.time() fp.write('%8.4f %8.4f: ' % (now - StartTime, now - PreviousTime)) PreviousTime = now fp.write(msg) fp.flush() fp.close() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/SConsign.py0000664000175000017500000003262713202656511020542 0ustar bdbaddogbdbaddog00000000000000"""SCons.SConsign Writing and reading information to the .sconsign file or files. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/SConsign.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.compat import os import pickle import SCons.dblite import SCons.Warnings from SCons.compat import PICKLE_PROTOCOL def corrupt_dblite_warning(filename): SCons.Warnings.warn(SCons.Warnings.CorruptSConsignWarning, "Ignoring corrupt .sconsign file: %s"%filename) SCons.dblite.ignore_corrupt_dbfiles = 1 SCons.dblite.corruption_warning = corrupt_dblite_warning # XXX Get rid of the global array so this becomes re-entrant. sig_files = [] # Info for the database SConsign implementation (now the default): # "DataBase" is a dictionary that maps top-level SConstruct directories # to open database handles. # "DB_Module" is the Python database module to create the handles. # "DB_Name" is the base name of the database file (minus any # extension the underlying DB module will add). DataBase = {} DB_Module = SCons.dblite DB_Name = ".sconsign" DB_sync_list = [] def Get_DataBase(dir): global DataBase, DB_Module, DB_Name top = dir.fs.Top if not os.path.isabs(DB_Name) and top.repositories: mode = "c" for d in [top] + top.repositories: if dir.is_under(d): try: return DataBase[d], mode except KeyError: path = d.entry_abspath(DB_Name) try: db = DataBase[d] = DB_Module.open(path, mode) except (IOError, OSError): pass else: if mode != "r": DB_sync_list.append(db) return db, mode mode = "r" try: return DataBase[top], "c" except KeyError: db = DataBase[top] = DB_Module.open(DB_Name, "c") DB_sync_list.append(db) return db, "c" except TypeError: print("DataBase =", DataBase) raise def Reset(): """Reset global state. Used by unit tests that end up using SConsign multiple times to get a clean slate for each test.""" global sig_files, DB_sync_list sig_files = [] DB_sync_list = [] normcase = os.path.normcase def write(): global sig_files for sig_file in sig_files: sig_file.write(sync=0) for db in DB_sync_list: try: syncmethod = db.sync except AttributeError: pass # Not all dbm modules have sync() methods. else: syncmethod() try: closemethod = db.close except AttributeError: pass # Not all dbm modules have close() methods. else: closemethod() class SConsignEntry(object): """ Wrapper class for the generic entry in a .sconsign file. The Node subclass populates it with attributes as it pleases. XXX As coded below, we do expect a '.binfo' attribute to be added, but we'll probably generalize this in the next refactorings. """ __slots__ = ("binfo", "ninfo", "__weakref__") current_version_id = 2 def __init__(self): # Create an object attribute from the class attribute so it ends up # in the pickled data in the .sconsign file. #_version_id = self.current_version_id pass def convert_to_sconsign(self): self.binfo.convert_to_sconsign() def convert_from_sconsign(self, dir, name): self.binfo.convert_from_sconsign(dir, name) def __getstate__(self): state = getattr(self, '__dict__', {}).copy() for obj in type(self).mro(): for name in getattr(obj,'__slots__',()): if hasattr(self, name): state[name] = getattr(self, name) state['_version_id'] = self.current_version_id try: del state['__weakref__'] except KeyError: pass return state def __setstate__(self, state): for key, value in state.items(): if key not in ('_version_id','__weakref__'): setattr(self, key, value) class Base(object): """ This is the controlling class for the signatures for the collection of entries associated with a specific directory. The actual directory association will be maintained by a subclass that is specific to the underlying storage method. This class provides a common set of methods for fetching and storing the individual bits of information that make up signature entry. """ def __init__(self): self.entries = {} self.dirty = False self.to_be_merged = {} def get_entry(self, filename): """ Fetch the specified entry attribute. """ return self.entries[filename] def set_entry(self, filename, obj): """ Set the entry. """ self.entries[filename] = obj self.dirty = True def do_not_set_entry(self, filename, obj): pass def store_info(self, filename, node): entry = node.get_stored_info() entry.binfo.merge(node.get_binfo()) self.to_be_merged[filename] = node self.dirty = True def do_not_store_info(self, filename, node): pass def merge(self): for key, node in self.to_be_merged.items(): entry = node.get_stored_info() try: ninfo = entry.ninfo except AttributeError: # This happens with SConf Nodes, because the configuration # subsystem takes direct control over how the build decision # is made and its information stored. pass else: ninfo.merge(node.get_ninfo()) self.entries[key] = entry self.to_be_merged = {} class DB(Base): """ A Base subclass that reads and writes signature information from a global .sconsign.db* file--the actual file suffix is determined by the database module. """ def __init__(self, dir): Base.__init__(self) self.dir = dir db, mode = Get_DataBase(dir) # Read using the path relative to the top of the Repository # (self.dir.tpath) from which we're fetching the signature # information. path = normcase(dir.get_tpath()) try: rawentries = db[path] except KeyError: pass else: try: self.entries = pickle.loads(rawentries) if not isinstance(self.entries, dict): self.entries = {} raise TypeError except KeyboardInterrupt: raise except Exception as e: SCons.Warnings.warn(SCons.Warnings.CorruptSConsignWarning, "Ignoring corrupt sconsign entry : %s (%s)\n"%(self.dir.get_tpath(), e)) for key, entry in self.entries.items(): entry.convert_from_sconsign(dir, key) if mode == "r": # This directory is actually under a repository, which means # likely they're reaching in directly for a dependency on # a file there. Don't actually set any entry info, so we # won't try to write to that .sconsign.dblite file. self.set_entry = self.do_not_set_entry self.store_info = self.do_not_store_info global sig_files sig_files.append(self) def write(self, sync=1): if not self.dirty: return self.merge() db, mode = Get_DataBase(self.dir) # Write using the path relative to the top of the SConstruct # directory (self.dir.path), not relative to the top of # the Repository; we only write to our own .sconsign file, # not to .sconsign files in Repositories. path = normcase(self.dir.get_internal_path()) for key, entry in self.entries.items(): entry.convert_to_sconsign() db[path] = pickle.dumps(self.entries, PICKLE_PROTOCOL) if sync: try: syncmethod = db.sync except AttributeError: # Not all anydbm modules have sync() methods. pass else: syncmethod() class Dir(Base): def __init__(self, fp=None, dir=None): """ fp - file pointer to read entries from """ Base.__init__(self) if not fp: return self.entries = pickle.load(fp) if not isinstance(self.entries, dict): self.entries = {} raise TypeError if dir: for key, entry in self.entries.items(): entry.convert_from_sconsign(dir, key) class DirFile(Dir): """ Encapsulates reading and writing a per-directory .sconsign file. """ def __init__(self, dir): """ dir - the directory for the file """ self.dir = dir self.sconsign = os.path.join(dir.get_internal_path(), '.sconsign') try: fp = open(self.sconsign, 'rb') except IOError: fp = None try: Dir.__init__(self, fp, dir) except KeyboardInterrupt: raise except: SCons.Warnings.warn(SCons.Warnings.CorruptSConsignWarning, "Ignoring corrupt .sconsign file: %s"%self.sconsign) global sig_files sig_files.append(self) def write(self, sync=1): """ Write the .sconsign file to disk. Try to write to a temporary file first, and rename it if we succeed. If we can't write to the temporary file, it's probably because the directory isn't writable (and if so, how did we build anything in this directory, anyway?), so try to write directly to the .sconsign file as a backup. If we can't rename, try to copy the temporary contents back to the .sconsign file. Either way, always try to remove the temporary file at the end. """ if not self.dirty: return self.merge() temp = os.path.join(self.dir.get_internal_path(), '.scons%d' % os.getpid()) try: file = open(temp, 'wb') fname = temp except IOError: try: file = open(self.sconsign, 'wb') fname = self.sconsign except IOError: return for key, entry in self.entries.items(): entry.convert_to_sconsign() pickle.dump(self.entries, file, PICKLE_PROTOCOL) file.close() if fname != self.sconsign: try: mode = os.stat(self.sconsign)[0] os.chmod(self.sconsign, 0o666) os.unlink(self.sconsign) except (IOError, OSError): # Try to carry on in the face of either OSError # (things like permission issues) or IOError (disk # or network issues). If there's a really dangerous # issue, it should get re-raised by the calls below. pass try: os.rename(fname, self.sconsign) except OSError: # An OSError failure to rename may indicate something # like the directory has no write permission, but # the .sconsign file itself might still be writable, # so try writing on top of it directly. An IOError # here, or in any of the following calls, would get # raised, indicating something like a potentially # serious disk or network issue. open(self.sconsign, 'wb').write(open(fname, 'rb').read()) os.chmod(self.sconsign, mode) try: os.unlink(temp) except (IOError, OSError): pass ForDirectory = DB def File(name, dbm_module=None): """ Arrange for all signatures to be stored in a global .sconsign.db* file. """ global ForDirectory, DB_Name, DB_Module if name is None: ForDirectory = DirFile DB_Module = None else: ForDirectory = DB DB_Name = name if not dbm_module is None: DB_Module = dbm_module # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/cpp.py0000664000175000017500000004637613202656511017607 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/cpp.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """ SCons C Pre-Processor module """ import SCons.compat import os import re # # First "subsystem" of regular expressions that we set up: # # Stuff to turn the C preprocessor directives in a file's contents into # a list of tuples that we can process easily. # # A table of regular expressions that fetch the arguments from the rest of # a C preprocessor line. Different directives have different arguments # that we want to fetch, using the regular expressions to which the lists # of preprocessor directives map. cpp_lines_dict = { # Fetch the rest of a #if/#elif/#ifdef/#ifndef as one argument, # separated from the keyword by white space. ('if', 'elif', 'ifdef', 'ifndef',) : '\s+(.+)', # Fetch the rest of a #import/#include/#include_next line as one # argument, with white space optional. ('import', 'include', 'include_next',) : '\s*(.+)', # We don't care what comes after a #else or #endif line. ('else', 'endif',) : '', # Fetch three arguments from a #define line: # 1) The #defined keyword. # 2) The optional parentheses and arguments (if it's a function-like # macro, '' if it's not). # 3) The expansion value. ('define',) : '\s+([_A-Za-z][_A-Za-z0-9_]*)(\([^)]*\))?\s*(.*)', # Fetch the #undefed keyword from a #undef line. ('undef',) : '\s+([_A-Za-z][A-Za-z0-9_]*)', } # Create a table that maps each individual C preprocessor directive to # the corresponding compiled regular expression that fetches the arguments # we care about. Table = {} for op_list, expr in cpp_lines_dict.items(): e = re.compile(expr) for op in op_list: Table[op] = e del e del op del op_list # Create a list of the expressions we'll use to match all of the # preprocessor directives. These are the same as the directives # themselves *except* that we must use a negative lookahead assertion # when matching "if" so it doesn't match the "if" in "ifdef." override = { 'if' : 'if(?!def)', } l = [override.get(x, x) for x in list(Table.keys())] # Turn the list of expressions into one big honkin' regular expression # that will match all the preprocessor lines at once. This will return # a list of tuples, one for each preprocessor line. The preprocessor # directive will be the first element in each tuple, and the rest of # the line will be the second element. e = '^\s*#\s*(' + '|'.join(l) + ')(.*)$' # And last but not least, compile the expression. CPP_Expression = re.compile(e, re.M) # # Second "subsystem" of regular expressions that we set up: # # Stuff to translate a C preprocessor expression (as found on a #if or # #elif line) into an equivalent Python expression that we can eval(). # # A dictionary that maps the C representation of Boolean operators # to their Python equivalents. CPP_to_Python_Ops_Dict = { '!' : ' not ', '!=' : ' != ', '&&' : ' and ', '||' : ' or ', '?' : ' and ', ':' : ' or ', '\r' : '', } CPP_to_Python_Ops_Sub = lambda m: CPP_to_Python_Ops_Dict[m.group(0)] # We have to sort the keys by length so that longer expressions # come *before* shorter expressions--in particular, "!=" must # come before "!" in the alternation. Without this, the Python # re module, as late as version 2.2.2, empirically matches the # "!" in "!=" first, instead of finding the longest match. # What's up with that? l = sorted(list(CPP_to_Python_Ops_Dict.keys()), key=lambda a: len(a), reverse=True) # Turn the list of keys into one regular expression that will allow us # to substitute all of the operators at once. expr = '|'.join(map(re.escape, l)) # ...and compile the expression. CPP_to_Python_Ops_Expression = re.compile(expr) # A separate list of expressions to be evaluated and substituted # sequentially, not all at once. CPP_to_Python_Eval_List = [ ['defined\s+(\w+)', '"\\1" in __dict__'], ['defined\s*\((\w+)\)', '"\\1" in __dict__'], ['/\*.*\*/', ''], ['/\*.*', ''], ['//.*', ''], ['(0x[0-9A-Fa-f]*)[UL]+', '\\1'], ] # Replace the string representations of the regular expressions in the # list with compiled versions. for l in CPP_to_Python_Eval_List: l[0] = re.compile(l[0]) # Wrap up all of the above into a handy function. def CPP_to_Python(s): """ Converts a C pre-processor expression into an equivalent Python expression that can be evaluated. """ s = CPP_to_Python_Ops_Expression.sub(CPP_to_Python_Ops_Sub, s) for expr, repl in CPP_to_Python_Eval_List: s = expr.sub(repl, s) return s del expr del l del override class FunctionEvaluator(object): """ Handles delayed evaluation of a #define function call. """ def __init__(self, name, args, expansion): """ Squirrels away the arguments and expansion value of a #define macro function for later evaluation when we must actually expand a value that uses it. """ self.name = name self.args = function_arg_separator.split(args) try: expansion = expansion.split('##') except AttributeError: pass self.expansion = expansion def __call__(self, *values): """ Evaluates the expansion of a #define macro function called with the specified values. """ if len(self.args) != len(values): raise ValueError("Incorrect number of arguments to `%s'" % self.name) # Create a dictionary that maps the macro arguments to the # corresponding values in this "call." We'll use this when we # eval() the expansion so that arguments will get expanded to # the right values. locals = {} for k, v in zip(self.args, values): locals[k] = v parts = [] for s in self.expansion: if not s in self.args: s = repr(s) parts.append(s) statement = ' + '.join(parts) return eval(statement, globals(), locals) # Find line continuations. line_continuations = re.compile('\\\\\r?\n') # Search for a "function call" macro on an expansion. Returns the # two-tuple of the "function" name itself, and a string containing the # arguments within the call parentheses. function_name = re.compile('(\S+)\(([^)]*)\)') # Split a string containing comma-separated function call arguments into # the separate arguments. function_arg_separator = re.compile(',\s*') class PreProcessor(object): """ The main workhorse class for handling C pre-processing. """ def __init__(self, current=os.curdir, cpppath=(), dict={}, all=0): global Table cpppath = tuple(cpppath) self.searchpath = { '"' : (current,) + cpppath, '<' : cpppath + (current,), } # Initialize our C preprocessor namespace for tracking the # values of #defined keywords. We use this namespace to look # for keywords on #ifdef/#ifndef lines, and to eval() the # expressions on #if/#elif lines (after massaging them from C to # Python). self.cpp_namespace = dict.copy() self.cpp_namespace['__dict__'] = self.cpp_namespace if all: self.do_include = self.all_include # For efficiency, a dispatch table maps each C preprocessor # directive (#if, #define, etc.) to the method that should be # called when we see it. We accomodate state changes (#if, # #ifdef, #ifndef) by pushing the current dispatch table on a # stack and changing what method gets called for each relevant # directive we might see next at this level (#else, #elif). # #endif will simply pop the stack. d = { 'scons_current_file' : self.scons_current_file } for op in list(Table.keys()): d[op] = getattr(self, 'do_' + op) self.default_table = d # Controlling methods. def tupleize(self, contents): """ Turns the contents of a file into a list of easily-processed tuples describing the CPP lines in the file. The first element of each tuple is the line's preprocessor directive (#if, #include, #define, etc., minus the initial '#'). The remaining elements are specific to the type of directive, as pulled apart by the regular expression. """ global CPP_Expression, Table contents = line_continuations.sub('', contents) cpp_tuples = CPP_Expression.findall(contents) return [(m[0],) + Table[m[0]].match(m[1]).groups() for m in cpp_tuples] def __call__(self, file): """ Pre-processes a file. This is the main public entry point. """ self.current_file = file return self.process_contents(self.read_file(file), file) def process_contents(self, contents, fname=None): """ Pre-processes a file contents. This is the main internal entry point. """ self.stack = [] self.dispatch_table = self.default_table.copy() self.current_file = fname self.tuples = self.tupleize(contents) self.initialize_result(fname) while self.tuples: t = self.tuples.pop(0) # Uncomment to see the list of tuples being processed (e.g., # to validate the CPP lines are being translated correctly). #print(t) self.dispatch_table[t[0]](t) return self.finalize_result(fname) # Dispatch table stack manipulation methods. def save(self): """ Pushes the current dispatch table on the stack and re-initializes the current dispatch table to the default. """ self.stack.append(self.dispatch_table) self.dispatch_table = self.default_table.copy() def restore(self): """ Pops the previous dispatch table off the stack and makes it the current one. """ try: self.dispatch_table = self.stack.pop() except IndexError: pass # Utility methods. def do_nothing(self, t): """ Null method for when we explicitly want the action for a specific preprocessor directive to do nothing. """ pass def scons_current_file(self, t): self.current_file = t[1] def eval_expression(self, t): """ Evaluates a C preprocessor expression. This is done by converting it to a Python equivalent and eval()ing it in the C preprocessor namespace we use to track #define values. """ t = CPP_to_Python(' '.join(t[1:])) try: return eval(t, self.cpp_namespace) except (NameError, TypeError): return 0 def initialize_result(self, fname): self.result = [fname] def finalize_result(self, fname): return self.result[1:] def find_include_file(self, t): """ Finds the #include file for a given preprocessor tuple. """ fname = t[2] for d in self.searchpath[t[1]]: if d == os.curdir: f = fname else: f = os.path.join(d, fname) if os.path.isfile(f): return f return None def read_file(self, file): with open(file) as f: return f.read() # Start and stop processing include lines. def start_handling_includes(self, t=None): """ Causes the PreProcessor object to start processing #import, #include and #include_next lines. This method will be called when a #if, #ifdef, #ifndef or #elif evaluates True, or when we reach the #else in a #if, #ifdef, #ifndef or #elif block where a condition already evaluated False. """ d = self.dispatch_table p = self.stack[-1] if self.stack else self.default_table for k in ('import', 'include', 'include_next'): d[k] = p[k] def stop_handling_includes(self, t=None): """ Causes the PreProcessor object to stop processing #import, #include and #include_next lines. This method will be called when a #if, #ifdef, #ifndef or #elif evaluates False, or when we reach the #else in a #if, #ifdef, #ifndef or #elif block where a condition already evaluated True. """ d = self.dispatch_table d['import'] = self.do_nothing d['include'] = self.do_nothing d['include_next'] = self.do_nothing # Default methods for handling all of the preprocessor directives. # (Note that what actually gets called for a given directive at any # point in time is really controlled by the dispatch_table.) def _do_if_else_condition(self, condition): """ Common logic for evaluating the conditions on #if, #ifdef and #ifndef lines. """ self.save() d = self.dispatch_table if condition: self.start_handling_includes() d['elif'] = self.stop_handling_includes d['else'] = self.stop_handling_includes else: self.stop_handling_includes() d['elif'] = self.do_elif d['else'] = self.start_handling_includes def do_ifdef(self, t): """ Default handling of a #ifdef line. """ self._do_if_else_condition(t[1] in self.cpp_namespace) def do_ifndef(self, t): """ Default handling of a #ifndef line. """ self._do_if_else_condition(t[1] not in self.cpp_namespace) def do_if(self, t): """ Default handling of a #if line. """ self._do_if_else_condition(self.eval_expression(t)) def do_elif(self, t): """ Default handling of a #elif line. """ d = self.dispatch_table if self.eval_expression(t): self.start_handling_includes() d['elif'] = self.stop_handling_includes d['else'] = self.stop_handling_includes def do_else(self, t): """ Default handling of a #else line. """ pass def do_endif(self, t): """ Default handling of a #endif line. """ self.restore() def do_define(self, t): """ Default handling of a #define line. """ _, name, args, expansion = t try: expansion = int(expansion) except (TypeError, ValueError): pass if args: evaluator = FunctionEvaluator(name, args[1:-1], expansion) self.cpp_namespace[name] = evaluator else: self.cpp_namespace[name] = expansion def do_undef(self, t): """ Default handling of a #undef line. """ try: del self.cpp_namespace[t[1]] except KeyError: pass def do_import(self, t): """ Default handling of a #import line. """ # XXX finish this -- maybe borrow/share logic from do_include()...? pass def do_include(self, t): """ Default handling of a #include line. """ t = self.resolve_include(t) include_file = self.find_include_file(t) if include_file: #print("include_file =", include_file) self.result.append(include_file) contents = self.read_file(include_file) new_tuples = [('scons_current_file', include_file)] + \ self.tupleize(contents) + \ [('scons_current_file', self.current_file)] self.tuples[:] = new_tuples + self.tuples # Date: Tue, 22 Nov 2005 20:26:09 -0500 # From: Stefan Seefeld # # By the way, #include_next is not the same as #include. The difference # being that #include_next starts its search in the path following the # path that let to the including file. In other words, if your system # include paths are ['/foo', '/bar'], and you are looking at a header # '/foo/baz.h', it might issue an '#include_next ' which would # correctly resolve to '/bar/baz.h' (if that exists), but *not* see # '/foo/baz.h' again. See http://www.delorie.com/gnu/docs/gcc/cpp_11.html # for more reasoning. # # I have no idea in what context 'import' might be used. # XXX is #include_next really the same as #include ? do_include_next = do_include # Utility methods for handling resolution of include files. def resolve_include(self, t): """Resolve a tuple-ized #include line. This handles recursive expansion of values without "" or <> surrounding the name until an initial " or < is found, to handle #include FILE where FILE is a #define somewhere else.""" s = t[1] while not s[0] in '<"': #print("s =", s) try: s = self.cpp_namespace[s] except KeyError: m = function_name.search(s) s = self.cpp_namespace[m.group(1)] if callable(s): args = function_arg_separator.split(m.group(2)) s = s(*args) if not s: return None return (t[0], s[0], s[1:-1]) def all_include(self, t): """ """ self.result.append(self.resolve_include(t)) class DumbPreProcessor(PreProcessor): """A preprocessor that ignores all #if/#elif/#else/#endif directives and just reports back *all* of the #include files (like the classic SCons scanner did). This is functionally equivalent to using a regular expression to find all of the #include lines, only slower. It exists mainly as an example of how the main PreProcessor class can be sub-classed to tailor its behavior. """ def __init__(self, *args, **kw): PreProcessor.__init__(self, *args, **kw) d = self.default_table for func in ['if', 'elif', 'else', 'endif', 'ifdef', 'ifndef']: d[func] = d[func] = self.do_nothing del __revision__ # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Errors.py0000664000175000017500000001705213202656511020266 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # """SCons.Errors This file contains the exception classes used to handle internal and user errors in SCons. """ __revision__ = "src/engine/SCons/Errors.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import shutil import SCons.Util class BuildError(Exception): """ Errors occurring while building. BuildError have the following attributes: ========================================= Information about the cause of the build error: ----------------------------------------------- errstr : a description of the error message status : the return code of the action that caused the build error. Must be set to a non-zero value even if the build error is not due to an action returning a non-zero returned code. exitstatus : SCons exit status due to this build error. Must be nonzero unless due to an explicit Exit() call. Not always the same as status, since actions return a status code that should be respected, but SCons typically exits with 2 irrespective of the return value of the failed action. filename : The name of the file or directory that caused the build error. Set to None if no files are associated with this error. This might be different from the target being built. For example, failure to create the directory in which the target file will appear. It can be None if the error is not due to a particular filename. exc_info : Info about exception that caused the build error. Set to (None, None, None) if this build error is not due to an exception. Information about the cause of the location of the error: --------------------------------------------------------- node : the error occured while building this target node(s) executor : the executor that caused the build to fail (might be None if the build failures is not due to the executor failing) action : the action that caused the build to fail (might be None if the build failures is not due to the an action failure) command : the command line for the action that caused the build to fail (might be None if the build failures is not due to the an action failure) """ def __init__(self, node=None, errstr="Unknown error", status=2, exitstatus=2, filename=None, executor=None, action=None, command=None, exc_info=(None, None, None)): # py3: errstr should be string and not bytes. self.errstr = SCons.Util.to_str(errstr) self.status = status self.exitstatus = exitstatus self.filename = filename self.exc_info = exc_info self.node = node self.executor = executor self.action = action self.command = command Exception.__init__(self, node, errstr, status, exitstatus, filename, executor, action, command, exc_info) def __str__(self): if self.filename: return self.filename + ': ' + self.errstr else: return self.errstr class InternalError(Exception): pass class UserError(Exception): pass class StopError(Exception): pass class EnvironmentError(Exception): pass class MSVCError(IOError): pass class ExplicitExit(Exception): def __init__(self, node=None, status=None, *args): self.node = node self.status = status self.exitstatus = status Exception.__init__(self, *args) def convert_to_BuildError(status, exc_info=None): """ Convert any return code a BuildError Exception. :Parameters: - `status`: can either be a return code or an Exception. The buildError.status we set here will normally be used as the exit status of the "scons" process. """ if not exc_info and isinstance(status, Exception): exc_info = (status.__class__, status, None) if isinstance(status, BuildError): buildError = status buildError.exitstatus = 2 # always exit with 2 on build errors elif isinstance(status, ExplicitExit): status = status.status errstr = 'Explicit exit, status %s' % status buildError = BuildError( errstr=errstr, status=status, # might be 0, OK here exitstatus=status, # might be 0, OK here exc_info=exc_info) elif isinstance(status, (StopError, UserError)): buildError = BuildError( errstr=str(status), status=2, exitstatus=2, exc_info=exc_info) elif isinstance(status, shutil.SameFileError): # PY3 has a exception for when copying file to itself # It's object provides info differently than below try: filename = status.filename except AttributeError: filename = None buildError = BuildError( errstr=status.args[0], status=status.errno, exitstatus=2, filename=filename, exc_info=exc_info) elif isinstance(status, (EnvironmentError, OSError, IOError)): # If an IOError/OSError happens, raise a BuildError. # Report the name of the file or directory that caused the # error, which might be different from the target being built # (for example, failure to create the directory in which the # target file will appear). try: filename = status.filename except AttributeError: filename = None buildError = BuildError( errstr=status.strerror, status=status.errno, exitstatus=2, filename=filename, exc_info=exc_info) elif isinstance(status, Exception): buildError = BuildError( errstr='%s : %s' % (status.__class__.__name__, status), status=2, exitstatus=2, exc_info=exc_info) elif SCons.Util.is_String(status): buildError = BuildError( errstr=status, status=2, exitstatus=2) else: buildError = BuildError( errstr="Error %s" % status, status=status, exitstatus=2) #import sys #sys.stderr.write("convert_to_BuildError: status %s => (errstr %s, status %s)\n"%(status,buildError.errstr, buildError.status)) return buildError # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Memoize.py0000664000175000017500000002253613202656511020422 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/Memoize.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Memoizer A decorator-based implementation to count hits and misses of the computed values that various methods cache in memory. Use of this modules assumes that wrapped methods be coded to cache their values in a consistent way. In particular, it requires that the class uses a dictionary named "_memo" to store the cached values. Here is an example of wrapping a method that returns a computed value, with no input parameters:: @SCons.Memoize.CountMethodCall def foo(self): try: # Memoization return self._memo['foo'] # Memoization except KeyError: # Memoization pass # Memoization result = self.compute_foo_value() self._memo['foo'] = result # Memoization return result Here is an example of wrapping a method that will return different values based on one or more input arguments:: def _bar_key(self, argument): # Memoization return argument # Memoization @SCons.Memoize.CountDictCall(_bar_key) def bar(self, argument): memo_key = argument # Memoization try: # Memoization memo_dict = self._memo['bar'] # Memoization except KeyError: # Memoization memo_dict = {} # Memoization self._memo['dict'] = memo_dict # Memoization else: # Memoization try: # Memoization return memo_dict[memo_key] # Memoization except KeyError: # Memoization pass # Memoization result = self.compute_bar_value(argument) memo_dict[memo_key] = result # Memoization return result Deciding what to cache is tricky, because different configurations can have radically different performance tradeoffs, and because the tradeoffs involved are often so non-obvious. Consequently, deciding whether or not to cache a given method will likely be more of an art than a science, but should still be based on available data from this module. Here are some VERY GENERAL guidelines about deciding whether or not to cache return values from a method that's being called a lot: -- The first question to ask is, "Can we change the calling code so this method isn't called so often?" Sometimes this can be done by changing the algorithm. Sometimes the *caller* should be memoized, not the method you're looking at. -- The memoized function should be timed with multiple configurations to make sure it doesn't inadvertently slow down some other configuration. -- When memoizing values based on a dictionary key composed of input arguments, you don't need to use all of the arguments if some of them don't affect the return values. """ # A flag controlling whether or not we actually use memoization. use_memoizer = None # Global list of counter objects CounterList = {} class Counter(object): """ Base class for counting memoization hits and misses. We expect that the initialization in a matching decorator will fill in the correct class name and method name that represents the name of the function being counted. """ def __init__(self, cls_name, method_name): """ """ self.cls_name = cls_name self.method_name = method_name self.hit = 0 self.miss = 0 def key(self): return self.cls_name+'.'+self.method_name def display(self): print(" {:7d} hits {:7d} misses {}()".format(self.hit, self.miss, self.key())) def __eq__(self, other): try: return self.key() == other.key() except AttributeError: return True class CountValue(Counter): """ A counter class for simple, atomic memoized values. A CountValue object should be instantiated in a decorator for each of the class's methods that memoizes its return value by simply storing the return value in its _memo dictionary. """ def count(self, *args, **kw): """ Counts whether the memoized value has already been set (a hit) or not (a miss). """ obj = args[0] if self.method_name in obj._memo: self.hit = self.hit + 1 else: self.miss = self.miss + 1 class CountDict(Counter): """ A counter class for memoized values stored in a dictionary, with keys based on the method's input arguments. A CountDict object is instantiated in a decorator for each of the class's methods that memoizes its return value in a dictionary, indexed by some key that can be computed from one or more of its input arguments. """ def __init__(self, cls_name, method_name, keymaker): """ """ Counter.__init__(self, cls_name, method_name) self.keymaker = keymaker def count(self, *args, **kw): """ Counts whether the computed key value is already present in the memoization dictionary (a hit) or not (a miss). """ obj = args[0] try: memo_dict = obj._memo[self.method_name] except KeyError: self.miss = self.miss + 1 else: key = self.keymaker(*args, **kw) if key in memo_dict: self.hit = self.hit + 1 else: self.miss = self.miss + 1 def Dump(title=None): """ Dump the hit/miss count for all the counters collected so far. """ if title: print(title) for counter in sorted(CounterList): CounterList[counter].display() def EnableMemoization(): global use_memoizer use_memoizer = 1 def CountMethodCall(fn): """ Decorator for counting memoizer hits/misses while retrieving a simple value in a class method. It wraps the given method fn and uses a CountValue object to keep track of the caching statistics. Wrapping gets enabled by calling EnableMemoization(). """ if use_memoizer: def wrapper(self, *args, **kwargs): global CounterList key = self.__class__.__name__+'.'+fn.__name__ if key not in CounterList: CounterList[key] = CountValue(self.__class__.__name__, fn.__name__) CounterList[key].count(self, *args, **kwargs) return fn(self, *args, **kwargs) wrapper.__name__= fn.__name__ return wrapper else: return fn def CountDictCall(keyfunc): """ Decorator for counting memoizer hits/misses while accessing dictionary values with a key-generating function. Like CountMethodCall above, it wraps the given method fn and uses a CountDict object to keep track of the caching statistics. The dict-key function keyfunc has to get passed in the decorator call and gets stored in the CountDict instance. Wrapping gets enabled by calling EnableMemoization(). """ def decorator(fn): if use_memoizer: def wrapper(self, *args, **kwargs): global CounterList key = self.__class__.__name__+'.'+fn.__name__ if key not in CounterList: CounterList[key] = CountDict(self.__class__.__name__, fn.__name__, keyfunc) CounterList[key].count(self, *args, **kwargs) return fn(self, *args, **kwargs) wrapper.__name__= fn.__name__ return wrapper else: return fn return decorator # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Job.py0000664000175000017500000003736113202656511017531 0ustar bdbaddogbdbaddog00000000000000"""SCons.Job This module defines the Serial and Parallel classes that execute tasks to complete a build. The Jobs class provides a higher level interface to start, stop, and wait on jobs. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Job.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.compat import os import signal import SCons.Errors # The default stack size (in kilobytes) of the threads used to execute # jobs in parallel. # # We use a stack size of 256 kilobytes. The default on some platforms # is too large and prevents us from creating enough threads to fully # parallelized the build. For example, the default stack size on linux # is 8 MBytes. explicit_stack_size = None default_stack_size = 256 interrupt_msg = 'Build interrupted.' class InterruptState(object): def __init__(self): self.interrupted = False def set(self): self.interrupted = True def __call__(self): return self.interrupted class Jobs(object): """An instance of this class initializes N jobs, and provides methods for starting, stopping, and waiting on all N jobs. """ def __init__(self, num, taskmaster): """ Create 'num' jobs using the given taskmaster. If 'num' is 1 or less, then a serial job will be used, otherwise a parallel job with 'num' worker threads will be used. The 'num_jobs' attribute will be set to the actual number of jobs allocated. If more than one job is requested but the Parallel class can't do it, it gets reset to 1. Wrapping interfaces that care should check the value of 'num_jobs' after initialization. """ self.job = None if num > 1: stack_size = explicit_stack_size if stack_size is None: stack_size = default_stack_size try: self.job = Parallel(taskmaster, num, stack_size) self.num_jobs = num except NameError: pass if self.job is None: self.job = Serial(taskmaster) self.num_jobs = 1 def run(self, postfunc=lambda: None): """Run the jobs. postfunc() will be invoked after the jobs has run. It will be invoked even if the jobs are interrupted by a keyboard interrupt (well, in fact by a signal such as either SIGINT, SIGTERM or SIGHUP). The execution of postfunc() is protected against keyboard interrupts and is guaranteed to run to completion.""" self._setup_sig_handler() try: self.job.start() finally: postfunc() self._reset_sig_handler() def were_interrupted(self): """Returns whether the jobs were interrupted by a signal.""" return self.job.interrupted() def _setup_sig_handler(self): """Setup an interrupt handler so that SCons can shutdown cleanly in various conditions: a) SIGINT: Keyboard interrupt b) SIGTERM: kill or system shutdown c) SIGHUP: Controlling shell exiting We handle all of these cases by stopping the taskmaster. It turns out that it's very difficult to stop the build process by throwing asynchronously an exception such as KeyboardInterrupt. For example, the python Condition variables (threading.Condition) and queues do not seem to be asynchronous-exception-safe. It would require adding a whole bunch of try/finally block and except KeyboardInterrupt all over the place. Note also that we have to be careful to handle the case when SCons forks before executing another process. In that case, we want the child to exit immediately. """ def handler(signum, stack, self=self, parentpid=os.getpid()): if os.getpid() == parentpid: self.job.taskmaster.stop() self.job.interrupted.set() else: os._exit(2) self.old_sigint = signal.signal(signal.SIGINT, handler) self.old_sigterm = signal.signal(signal.SIGTERM, handler) try: self.old_sighup = signal.signal(signal.SIGHUP, handler) except AttributeError: pass def _reset_sig_handler(self): """Restore the signal handlers to their previous state (before the call to _setup_sig_handler().""" signal.signal(signal.SIGINT, self.old_sigint) signal.signal(signal.SIGTERM, self.old_sigterm) try: signal.signal(signal.SIGHUP, self.old_sighup) except AttributeError: pass class Serial(object): """This class is used to execute tasks in series, and is more efficient than Parallel, but is only appropriate for non-parallel builds. Only one instance of this class should be in existence at a time. This class is not thread safe. """ def __init__(self, taskmaster): """Create a new serial job given a taskmaster. The taskmaster's next_task() method should return the next task that needs to be executed, or None if there are no more tasks. The taskmaster's executed() method will be called for each task when it is successfully executed, or failed() will be called if it failed to execute (e.g. execute() raised an exception).""" self.taskmaster = taskmaster self.interrupted = InterruptState() def start(self): """Start the job. This will begin pulling tasks from the taskmaster and executing them, and return when there are no more tasks. If a task fails to execute (i.e. execute() raises an exception), then the job will stop.""" while True: task = self.taskmaster.next_task() if task is None: break try: task.prepare() if task.needs_execute(): task.execute() except: if self.interrupted(): try: raise SCons.Errors.BuildError( task.targets[0], errstr=interrupt_msg) except: task.exception_set() else: task.exception_set() # Let the failed() callback function arrange for the # build to stop if that's appropriate. task.failed() else: task.executed() task.postprocess() self.taskmaster.cleanup() # Trap import failure so that everything in the Job module but the # Parallel class (and its dependent classes) will work if the interpreter # doesn't support threads. try: import queue import threading except ImportError: pass else: class Worker(threading.Thread): """A worker thread waits on a task to be posted to its request queue, dequeues the task, executes it, and posts a tuple including the task and a boolean indicating whether the task executed successfully. """ def __init__(self, requestQueue, resultsQueue, interrupted): threading.Thread.__init__(self) self.setDaemon(1) self.requestQueue = requestQueue self.resultsQueue = resultsQueue self.interrupted = interrupted self.start() def run(self): while True: task = self.requestQueue.get() if task is None: # The "None" value is used as a sentinel by # ThreadPool.cleanup(). This indicates that there # are no more tasks, so we should quit. break try: if self.interrupted(): raise SCons.Errors.BuildError( task.targets[0], errstr=interrupt_msg) task.execute() except: task.exception_set() ok = False else: ok = True self.resultsQueue.put((task, ok)) class ThreadPool(object): """This class is responsible for spawning and managing worker threads.""" def __init__(self, num, stack_size, interrupted): """Create the request and reply queues, and 'num' worker threads. One must specify the stack size of the worker threads. The stack size is specified in kilobytes. """ self.requestQueue = queue.Queue(0) self.resultsQueue = queue.Queue(0) try: prev_size = threading.stack_size(stack_size*1024) except AttributeError as e: # Only print a warning if the stack size has been # explicitly set. if not explicit_stack_size is None: msg = "Setting stack size is unsupported by this version of Python:\n " + \ e.args[0] SCons.Warnings.warn(SCons.Warnings.StackSizeWarning, msg) except ValueError as e: msg = "Setting stack size failed:\n " + str(e) SCons.Warnings.warn(SCons.Warnings.StackSizeWarning, msg) # Create worker threads self.workers = [] for _ in range(num): worker = Worker(self.requestQueue, self.resultsQueue, interrupted) self.workers.append(worker) if 'prev_size' in locals(): threading.stack_size(prev_size) def put(self, task): """Put task into request queue.""" self.requestQueue.put(task) def get(self): """Remove and return a result tuple from the results queue.""" return self.resultsQueue.get() def preparation_failed(self, task): self.resultsQueue.put((task, False)) def cleanup(self): """ Shuts down the thread pool, giving each worker thread a chance to shut down gracefully. """ # For each worker thread, put a sentinel "None" value # on the requestQueue (indicating that there's no work # to be done) so that each worker thread will get one and # terminate gracefully. for _ in self.workers: self.requestQueue.put(None) # Wait for all of the workers to terminate. # # If we don't do this, later Python versions (2.4, 2.5) often # seem to raise exceptions during shutdown. This happens # in requestQueue.get(), as an assertion failure that # requestQueue.not_full is notified while not acquired, # seemingly because the main thread has shut down (or is # in the process of doing so) while the workers are still # trying to pull sentinels off the requestQueue. # # Normally these terminations should happen fairly quickly, # but we'll stick a one-second timeout on here just in case # someone gets hung. for worker in self.workers: worker.join(1.0) self.workers = [] class Parallel(object): """This class is used to execute tasks in parallel, and is somewhat less efficient than Serial, but is appropriate for parallel builds. This class is thread safe. """ def __init__(self, taskmaster, num, stack_size): """Create a new parallel job given a taskmaster. The taskmaster's next_task() method should return the next task that needs to be executed, or None if there are no more tasks. The taskmaster's executed() method will be called for each task when it is successfully executed, or failed() will be called if the task failed to execute (i.e. execute() raised an exception). Note: calls to taskmaster are serialized, but calls to execute() on distinct tasks are not serialized, because that is the whole point of parallel jobs: they can execute multiple tasks simultaneously. """ self.taskmaster = taskmaster self.interrupted = InterruptState() self.tp = ThreadPool(num, stack_size, self.interrupted) self.maxjobs = num def start(self): """Start the job. This will begin pulling tasks from the taskmaster and executing them, and return when there are no more tasks. If a task fails to execute (i.e. execute() raises an exception), then the job will stop.""" jobs = 0 while True: # Start up as many available tasks as we're # allowed to. while jobs < self.maxjobs: task = self.taskmaster.next_task() if task is None: break try: # prepare task for execution task.prepare() except: task.exception_set() task.failed() task.postprocess() else: if task.needs_execute(): # dispatch task self.tp.put(task) jobs = jobs + 1 else: task.executed() task.postprocess() if not task and not jobs: break # Let any/all completed tasks finish up before we go # back and put the next batch of tasks on the queue. while True: task, ok = self.tp.get() jobs = jobs - 1 if ok: task.executed() else: if self.interrupted(): try: raise SCons.Errors.BuildError( task.targets[0], errstr=interrupt_msg) except: task.exception_set() # Let the failed() callback function arrange # for the build to stop if that's appropriate. task.failed() task.postprocess() if self.tp.resultsQueue.empty(): break self.tp.cleanup() self.taskmaster.cleanup() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Script/0000775000175000017500000000000013202656646017710 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Script/Main.py0000664000175000017500000014570513202656511021151 0ustar bdbaddogbdbaddog00000000000000"""SCons.Script This file implements the main() function used by the scons script. Architecturally, this *is* the scons script, and will likely only be called from the external "scons" wrapper. Consequently, anything here should not be, or be considered, part of the build engine. If it's something that we expect other software to want to use, it should go in some other module. If it's specific to the "scons" script invocation, it goes here. """ from __future__ import print_function unsupported_python_version = (2, 6, 0) deprecated_python_version = (2, 7, 0) # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Script/Main.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.compat import os import sys import time import traceback import sysconfig import SCons.CacheDir import SCons.Debug import SCons.Defaults import SCons.Environment import SCons.Errors import SCons.Job import SCons.Node import SCons.Node.FS import SCons.Platform import SCons.SConf import SCons.Script import SCons.Taskmaster import SCons.Util import SCons.Warnings import SCons.Script.Interactive def fetch_win32_parallel_msg(): # A subsidiary function that exists solely to isolate this import # so we don't have to pull it in on all platforms, and so that an # in-line "import" statement in the _main() function below doesn't # cause warnings about local names shadowing use of the 'SCons' # global in nest scopes and UnboundLocalErrors and the like in some # versions (2.1) of Python. import SCons.Platform.win32 return SCons.Platform.win32.parallel_msg def revert_io(): # This call is added to revert stderr and stdout to the original # ones just in case some build rule or something else in the system # has redirected them elsewhere. sys.stderr = sys.__stderr__ sys.stdout = sys.__stdout__ class SConsPrintHelpException(Exception): pass display = SCons.Util.display progress_display = SCons.Util.DisplayEngine() first_command_start = None last_command_end = None class Progressor(object): prev = '' count = 0 target_string = '$TARGET' def __init__(self, obj, interval=1, file=None, overwrite=False): if file is None: file = sys.stdout self.obj = obj self.file = file self.interval = interval self.overwrite = overwrite if callable(obj): self.func = obj elif SCons.Util.is_List(obj): self.func = self.spinner elif obj.find(self.target_string) != -1: self.func = self.replace_string else: self.func = self.string def write(self, s): self.file.write(s) self.file.flush() self.prev = s def erase_previous(self): if self.prev: length = len(self.prev) if self.prev[-1] in ('\n', '\r'): length = length - 1 self.write(' ' * length + '\r') self.prev = '' def spinner(self, node): self.write(self.obj[self.count % len(self.obj)]) def string(self, node): self.write(self.obj) def replace_string(self, node): self.write(self.obj.replace(self.target_string, str(node))) def __call__(self, node): self.count = self.count + 1 if (self.count % self.interval) == 0: if self.overwrite: self.erase_previous() self.func(node) ProgressObject = SCons.Util.Null() def Progress(*args, **kw): global ProgressObject ProgressObject = Progressor(*args, **kw) # Task control. # _BuildFailures = [] def GetBuildFailures(): return _BuildFailures class BuildTask(SCons.Taskmaster.OutOfDateTask): """An SCons build task.""" progress = ProgressObject def display(self, message): display('scons: ' + message) def prepare(self): self.progress(self.targets[0]) return SCons.Taskmaster.OutOfDateTask.prepare(self) def needs_execute(self): if SCons.Taskmaster.OutOfDateTask.needs_execute(self): return True if self.top and self.targets[0].has_builder(): display("scons: `%s' is up to date." % str(self.node)) return False def execute(self): if print_time: start_time = time.time() global first_command_start if first_command_start is None: first_command_start = start_time SCons.Taskmaster.OutOfDateTask.execute(self) if print_time: global cumulative_command_time global last_command_end finish_time = time.time() last_command_end = finish_time cumulative_command_time = cumulative_command_time+finish_time-start_time sys.stdout.write("Command execution time: %s: %f seconds\n"%(str(self.node), finish_time-start_time)) def do_failed(self, status=2): _BuildFailures.append(self.exception[1]) global exit_status global this_build_status if self.options.ignore_errors: SCons.Taskmaster.OutOfDateTask.executed(self) elif self.options.keep_going: SCons.Taskmaster.OutOfDateTask.fail_continue(self) exit_status = status this_build_status = status else: SCons.Taskmaster.OutOfDateTask.fail_stop(self) exit_status = status this_build_status = status def executed(self): t = self.targets[0] if self.top and not t.has_builder() and not t.side_effect: if not t.exists(): if t.__class__.__name__ in ('File', 'Dir', 'Entry'): errstr="Do not know how to make %s target `%s' (%s)." % (t.__class__.__name__, t, t.get_abspath()) else: # Alias or Python or ... errstr="Do not know how to make %s target `%s'." % (t.__class__.__name__, t) sys.stderr.write("scons: *** " + errstr) if not self.options.keep_going: sys.stderr.write(" Stop.") sys.stderr.write("\n") try: raise SCons.Errors.BuildError(t, errstr) except KeyboardInterrupt: raise except: self.exception_set() self.do_failed() else: print("scons: Nothing to be done for `%s'." % t) SCons.Taskmaster.OutOfDateTask.executed(self) else: SCons.Taskmaster.OutOfDateTask.executed(self) def failed(self): # Handle the failure of a build task. The primary purpose here # is to display the various types of Errors and Exceptions # appropriately. exc_info = self.exc_info() try: t, e, tb = exc_info except ValueError: t, e = exc_info tb = None if t is None: # The Taskmaster didn't record an exception for this Task; # see if the sys module has one. try: t, e, tb = sys.exc_info()[:] except ValueError: t, e = exc_info tb = None # Deprecated string exceptions will have their string stored # in the first entry of the tuple. if e is None: e = t buildError = SCons.Errors.convert_to_BuildError(e) if not buildError.node: buildError.node = self.node node = buildError.node if not SCons.Util.is_List(node): node = [ node ] nodename = ', '.join(map(str, node)) errfmt = "scons: *** [%s] %s\n" sys.stderr.write(errfmt % (nodename, buildError)) if (buildError.exc_info[2] and buildError.exc_info[1] and not isinstance( buildError.exc_info[1], (EnvironmentError, SCons.Errors.StopError, SCons.Errors.UserError))): type, value, trace = buildError.exc_info if tb and print_stacktrace: sys.stderr.write("scons: internal stack trace:\n") traceback.print_tb(tb, file=sys.stderr) traceback.print_exception(type, value, trace) elif tb and print_stacktrace: sys.stderr.write("scons: internal stack trace:\n") traceback.print_tb(tb, file=sys.stderr) self.exception = (e, buildError, tb) # type, value, traceback self.do_failed(buildError.exitstatus) self.exc_clear() def postprocess(self): if self.top: t = self.targets[0] for tp in self.options.tree_printers: tp.display(t) if self.options.debug_includes: tree = t.render_include_tree() if tree: print() print(tree) SCons.Taskmaster.OutOfDateTask.postprocess(self) def make_ready(self): """Make a task ready for execution""" SCons.Taskmaster.OutOfDateTask.make_ready(self) if self.out_of_date and self.options.debug_explain: explanation = self.out_of_date[0].explain() if explanation: sys.stdout.write("scons: " + explanation) class CleanTask(SCons.Taskmaster.AlwaysTask): """An SCons clean task.""" def fs_delete(self, path, pathstr, remove=True): try: if os.path.lexists(path): if os.path.isfile(path) or os.path.islink(path): if remove: os.unlink(path) display("Removed " + pathstr) elif os.path.isdir(path) and not os.path.islink(path): # delete everything in the dir for e in sorted(os.listdir(path)): p = os.path.join(path, e) s = os.path.join(pathstr, e) if os.path.isfile(p): if remove: os.unlink(p) display("Removed " + s) else: self.fs_delete(p, s, remove) # then delete dir itself if remove: os.rmdir(path) display("Removed directory " + pathstr) else: errstr = "Path '%s' exists but isn't a file or directory." raise SCons.Errors.UserError(errstr % (pathstr)) except SCons.Errors.UserError as e: print(e) except (IOError, OSError) as e: print("scons: Could not remove '%s':" % pathstr, e.strerror) def _get_files_to_clean(self): result = [] target = self.targets[0] if target.has_builder() or target.side_effect: result = [t for t in self.targets if not t.noclean] return result def _clean_targets(self, remove=True): target = self.targets[0] if target in SCons.Environment.CleanTargets: files = SCons.Environment.CleanTargets[target] for f in files: self.fs_delete(f.get_abspath(), str(f), remove) def show(self): for t in self._get_files_to_clean(): if not t.isdir(): display("Removed " + str(t)) self._clean_targets(remove=False) def remove(self): for t in self._get_files_to_clean(): try: removed = t.remove() except OSError as e: # An OSError may indicate something like a permissions # issue, an IOError would indicate something like # the file not existing. In either case, print a # message and keep going to try to remove as many # targets as possible. print("scons: Could not remove '{0}'".format(str(t)), e.strerror) else: if removed: display("Removed " + str(t)) self._clean_targets(remove=True) execute = remove # We want the Taskmaster to update the Node states (and therefore # handle reference counts, etc.), but we don't want to call # back to the Node's post-build methods, which would do things # we don't want, like store .sconsign information. executed = SCons.Taskmaster.Task.executed_without_callbacks # Have the Taskmaster arrange to "execute" all of the targets, because # we'll figure out ourselves (in remove() or show() above) whether # anything really needs to be done. make_ready = SCons.Taskmaster.Task.make_ready_all def prepare(self): pass class QuestionTask(SCons.Taskmaster.AlwaysTask): """An SCons task for the -q (question) option.""" def prepare(self): pass def execute(self): if self.targets[0].get_state() != SCons.Node.up_to_date or \ (self.top and not self.targets[0].exists()): global exit_status global this_build_status exit_status = 1 this_build_status = 1 self.tm.stop() def executed(self): pass class TreePrinter(object): def __init__(self, derived=False, prune=False, status=False): self.derived = derived self.prune = prune self.status = status def get_all_children(self, node): return node.all_children() def get_derived_children(self, node): children = node.all_children(None) return [x for x in children if x.has_builder()] def display(self, t): if self.derived: func = self.get_derived_children else: func = self.get_all_children s = self.status and 2 or 0 SCons.Util.print_tree(t, func, prune=self.prune, showtags=s) def python_version_string(): return sys.version.split()[0] def python_version_unsupported(version=sys.version_info): return version < unsupported_python_version def python_version_deprecated(version=sys.version_info): return version < deprecated_python_version # Global variables print_objects = 0 print_memoizer = 0 print_stacktrace = 0 print_time = 0 sconscript_time = 0 cumulative_command_time = 0 exit_status = 0 # final exit status, assume success by default this_build_status = 0 # "exit status" of an individual build num_jobs = None delayed_warnings = [] class FakeOptionParser(object): """ A do-nothing option parser, used for the initial OptionsParser variable. During normal SCons operation, the OptionsParser is created right away by the main() function. Certain tests scripts however, can introspect on different Tool modules, the initialization of which can try to add a new, local option to an otherwise uninitialized OptionsParser object. This allows that introspection to happen without blowing up. """ class FakeOptionValues(object): def __getattr__(self, attr): return None values = FakeOptionValues() def add_local_option(self, *args, **kw): pass OptionsParser = FakeOptionParser() def AddOption(*args, **kw): if 'default' not in kw: kw['default'] = None result = OptionsParser.add_local_option(*args, **kw) return result def GetOption(name): return getattr(OptionsParser.values, name) def SetOption(name, value): return OptionsParser.values.set_option(name, value) def PrintHelp(file=None): OptionsParser.print_help(file=file) class Stats(object): def __init__(self): self.stats = [] self.labels = [] self.append = self.do_nothing self.print_stats = self.do_nothing def enable(self, outfp): self.outfp = outfp self.append = self.do_append self.print_stats = self.do_print def do_nothing(self, *args, **kw): pass class CountStats(Stats): def do_append(self, label): self.labels.append(label) self.stats.append(SCons.Debug.fetchLoggedInstances()) def do_print(self): stats_table = {} for s in self.stats: for n in [t[0] for t in s]: stats_table[n] = [0, 0, 0, 0] i = 0 for s in self.stats: for n, c in s: stats_table[n][i] = c i = i + 1 self.outfp.write("Object counts:\n") pre = [" "] post = [" %s\n"] l = len(self.stats) fmt1 = ''.join(pre + [' %7s']*l + post) fmt2 = ''.join(pre + [' %7d']*l + post) labels = self.labels[:l] labels.append(("", "Class")) self.outfp.write(fmt1 % tuple([x[0] for x in labels])) self.outfp.write(fmt1 % tuple([x[1] for x in labels])) for k in sorted(stats_table.keys()): r = stats_table[k][:l] + [k] self.outfp.write(fmt2 % tuple(r)) count_stats = CountStats() class MemStats(Stats): def do_append(self, label): self.labels.append(label) self.stats.append(SCons.Debug.memory()) def do_print(self): fmt = 'Memory %-32s %12d\n' for label, stats in zip(self.labels, self.stats): self.outfp.write(fmt % (label, stats)) memory_stats = MemStats() # utility functions def _scons_syntax_error(e): """Handle syntax errors. Print out a message and show where the error occurred. """ etype, value, tb = sys.exc_info() lines = traceback.format_exception_only(etype, value) for line in lines: sys.stderr.write(line+'\n') sys.exit(2) def find_deepest_user_frame(tb): """ Find the deepest stack frame that is not part of SCons. Input is a "pre-processed" stack trace in the form returned by traceback.extract_tb() or traceback.extract_stack() """ tb.reverse() # find the deepest traceback frame that is not part # of SCons: for frame in tb: filename = frame[0] if filename.find(os.sep+'SCons'+os.sep) == -1: return frame return tb[0] def _scons_user_error(e): """Handle user errors. Print out a message and a description of the error, along with the line number and routine where it occured. The file and line number will be the deepest stack frame that is not part of SCons itself. """ global print_stacktrace etype, value, tb = sys.exc_info() if print_stacktrace: traceback.print_exception(etype, value, tb) filename, lineno, routine, dummy = find_deepest_user_frame(traceback.extract_tb(tb)) sys.stderr.write("\nscons: *** %s\n" % value) sys.stderr.write('File "%s", line %d, in %s\n' % (filename, lineno, routine)) sys.exit(2) def _scons_user_warning(e): """Handle user warnings. Print out a message and a description of the warning, along with the line number and routine where it occured. The file and line number will be the deepest stack frame that is not part of SCons itself. """ etype, value, tb = sys.exc_info() filename, lineno, routine, dummy = find_deepest_user_frame(traceback.extract_tb(tb)) sys.stderr.write("\nscons: warning: %s\n" % e) sys.stderr.write('File "%s", line %d, in %s\n' % (filename, lineno, routine)) def _scons_internal_warning(e): """Slightly different from _scons_user_warning in that we use the *current call stack* rather than sys.exc_info() to get our stack trace. This is used by the warnings framework to print warnings.""" filename, lineno, routine, dummy = find_deepest_user_frame(traceback.extract_stack()) sys.stderr.write("\nscons: warning: %s\n" % e.args[0]) sys.stderr.write('File "%s", line %d, in %s\n' % (filename, lineno, routine)) def _scons_internal_error(): """Handle all errors but user errors. Print out a message telling the user what to do in this case and print a normal trace. """ print('internal error') traceback.print_exc() sys.exit(2) def _SConstruct_exists(dirname='', repositories=[], filelist=None): """This function checks that an SConstruct file exists in a directory. If so, it returns the path of the file. By default, it checks the current directory. """ if not filelist: filelist = ['SConstruct', 'Sconstruct', 'sconstruct'] for file in filelist: sfile = os.path.join(dirname, file) if os.path.isfile(sfile): return sfile if not os.path.isabs(sfile): for rep in repositories: if os.path.isfile(os.path.join(rep, sfile)): return sfile return None def _set_debug_values(options): global print_memoizer, print_objects, print_stacktrace, print_time debug_values = options.debug if "count" in debug_values: # All of the object counts are within "if track_instances:" blocks, # which get stripped when running optimized (with python -O or # from compiled *.pyo files). Provide a warning if __debug__ is # stripped, so it doesn't just look like --debug=count is broken. enable_count = False if __debug__: enable_count = True if enable_count: count_stats.enable(sys.stdout) SCons.Debug.track_instances = True else: msg = "--debug=count is not supported when running SCons\n" + \ "\twith the python -O option or optimized (.pyo) modules." SCons.Warnings.warn(SCons.Warnings.NoObjectCountWarning, msg) if "dtree" in debug_values: options.tree_printers.append(TreePrinter(derived=True)) options.debug_explain = ("explain" in debug_values) if "findlibs" in debug_values: SCons.Scanner.Prog.print_find_libs = "findlibs" options.debug_includes = ("includes" in debug_values) print_memoizer = ("memoizer" in debug_values) if "memory" in debug_values: memory_stats.enable(sys.stdout) print_objects = ("objects" in debug_values) if print_objects: SCons.Debug.track_instances = True if "presub" in debug_values: SCons.Action.print_actions_presub = 1 if "stacktrace" in debug_values: print_stacktrace = 1 if "stree" in debug_values: options.tree_printers.append(TreePrinter(status=True)) if "time" in debug_values: print_time = 1 if "tree" in debug_values: options.tree_printers.append(TreePrinter()) if "prepare" in debug_values: SCons.Taskmaster.print_prepare = 1 if "duplicate" in debug_values: SCons.Node.print_duplicate = 1 def _create_path(plist): path = '.' for d in plist: if os.path.isabs(d): path = d else: path = path + '/' + d return path def _load_site_scons_dir(topdir, site_dir_name=None): """Load the site_scons dir under topdir. Prepends site_scons to sys.path, imports site_scons/site_init.py, and prepends site_scons/site_tools to default toolpath.""" if site_dir_name: err_if_not_found = True # user specified: err if missing else: site_dir_name = "site_scons" err_if_not_found = False site_dir = os.path.join(topdir, site_dir_name) if not os.path.exists(site_dir): if err_if_not_found: raise SCons.Errors.UserError("site dir %s not found."%site_dir) return site_init_filename = "site_init.py" site_init_modname = "site_init" site_tools_dirname = "site_tools" # prepend to sys.path sys.path = [os.path.abspath(site_dir)] + sys.path site_init_file = os.path.join(site_dir, site_init_filename) site_tools_dir = os.path.join(site_dir, site_tools_dirname) if os.path.exists(site_init_file): import imp, re try: try: fp, pathname, description = imp.find_module(site_init_modname, [site_dir]) # Load the file into SCons.Script namespace. This is # opaque and clever; m is the module object for the # SCons.Script module, and the exec ... in call executes a # file (or string containing code) in the context of the # module's dictionary, so anything that code defines ends # up adding to that module. This is really short, but all # the error checking makes it longer. try: m = sys.modules['SCons.Script'] except Exception as e: fmt = 'cannot import site_init.py: missing SCons.Script module %s' raise SCons.Errors.InternalError(fmt % repr(e)) try: sfx = description[0] modname = os.path.basename(pathname)[:-len(sfx)] site_m = {"__file__": pathname, "__name__": modname, "__doc__": None} re_special = re.compile("__[^_]+__") for k in list(m.__dict__.keys()): if not re_special.match(k): site_m[k] = m.__dict__[k] # This is the magic. exec(compile(fp.read(), fp.name, 'exec'), site_m) except KeyboardInterrupt: raise except Exception as e: fmt = '*** Error loading site_init file %s:\n' sys.stderr.write(fmt % repr(site_init_file)) raise else: for k in site_m: if not re_special.match(k): m.__dict__[k] = site_m[k] except KeyboardInterrupt: raise except ImportError as e: fmt = '*** cannot import site init file %s:\n' sys.stderr.write(fmt % repr(site_init_file)) raise finally: if fp: fp.close() if os.path.exists(site_tools_dir): # prepend to DefaultToolpath SCons.Tool.DefaultToolpath.insert(0, os.path.abspath(site_tools_dir)) def _load_all_site_scons_dirs(topdir, verbose=None): """Load all of the predefined site_scons dir. Order is significant; we load them in order from most generic (machine-wide) to most specific (topdir). The verbose argument is only for testing. """ platform = SCons.Platform.platform_default() def homedir(d): return os.path.expanduser('~/'+d) if platform == 'win32' or platform == 'cygwin': # Note we use $ here instead of %...% because older # pythons (prior to 2.6?) didn't expand %...% on Windows. # This set of dirs should work on XP, Vista, 7 and later. sysdirs=[ os.path.expandvars('$ALLUSERSPROFILE\\Application Data\\scons'), os.path.expandvars('$USERPROFILE\\Local Settings\\Application Data\\scons')] appdatadir = os.path.expandvars('$APPDATA\\scons') if appdatadir not in sysdirs: sysdirs.append(appdatadir) sysdirs.append(homedir('.scons')) elif platform == 'darwin': # MacOS X sysdirs=['/Library/Application Support/SCons', '/opt/local/share/scons', # (for MacPorts) '/sw/share/scons', # (for Fink) homedir('Library/Application Support/SCons'), homedir('.scons')] elif platform == 'sunos': # Solaris sysdirs=['/opt/sfw/scons', '/usr/share/scons', homedir('.scons')] else: # Linux, HPUX, etc. # assume posix-like, i.e. platform == 'posix' sysdirs=['/usr/share/scons', homedir('.scons')] dirs=sysdirs + [topdir] for d in dirs: if verbose: # this is used by unit tests. print("Loading site dir ", d) _load_site_scons_dir(d) def test_load_all_site_scons_dirs(d): _load_all_site_scons_dirs(d, True) def version_string(label, module): version = module.__version__ build = module.__build__ if build: if build[0] != '.': build = '.' + build version = version + build fmt = "\t%s: v%s, %s, by %s on %s\n" return fmt % (label, version, module.__date__, module.__developer__, module.__buildsys__) def path_string(label, module): path = module.__path__ return "\t%s path: %s\n"%(label,path) def _main(parser): global exit_status global this_build_status options = parser.values # Here's where everything really happens. # First order of business: set up default warnings and then # handle the user's warning options, so that we can issue (or # suppress) appropriate warnings about anything that might happen, # as configured by the user. default_warnings = [ SCons.Warnings.WarningOnByDefault, SCons.Warnings.DeprecatedWarning, ] for warning in default_warnings: SCons.Warnings.enableWarningClass(warning) SCons.Warnings._warningOut = _scons_internal_warning SCons.Warnings.process_warn_strings(options.warn) # Now that we have the warnings configuration set up, we can actually # issue (or suppress) any warnings about warning-worthy things that # occurred while the command-line options were getting parsed. try: dw = options.delayed_warnings except AttributeError: pass else: delayed_warnings.extend(dw) for warning_type, message in delayed_warnings: SCons.Warnings.warn(warning_type, message) if options.diskcheck: SCons.Node.FS.set_diskcheck(options.diskcheck) # Next, we want to create the FS object that represents the outside # world's file system, as that's central to a lot of initialization. # To do this, however, we need to be in the directory from which we # want to start everything, which means first handling any relevant # options that might cause us to chdir somewhere (-C, -D, -U, -u). if options.directory: script_dir = os.path.abspath(_create_path(options.directory)) else: script_dir = os.getcwd() target_top = None if options.climb_up: target_top = '.' # directory to prepend to targets while script_dir and not _SConstruct_exists(script_dir, options.repository, options.file): script_dir, last_part = os.path.split(script_dir) if last_part: target_top = os.path.join(last_part, target_top) else: script_dir = '' if script_dir and script_dir != os.getcwd(): if not options.silent: display("scons: Entering directory `%s'" % script_dir) try: os.chdir(script_dir) except OSError: sys.stderr.write("Could not change directory to %s\n" % script_dir) # Now that we're in the top-level SConstruct directory, go ahead # and initialize the FS object that represents the file system, # and make it the build engine default. fs = SCons.Node.FS.get_default_fs() for rep in options.repository: fs.Repository(rep) # Now that we have the FS object, the next order of business is to # check for an SConstruct file (or other specified config file). # If there isn't one, we can bail before doing any more work. scripts = [] if options.file: scripts.extend(options.file) if not scripts: sfile = _SConstruct_exists(repositories=options.repository, filelist=options.file) if sfile: scripts.append(sfile) if not scripts: if options.help: # There's no SConstruct, but they specified -h. # Give them the options usage now, before we fail # trying to read a non-existent SConstruct file. raise SConsPrintHelpException raise SCons.Errors.UserError("No SConstruct file found.") if scripts[0] == "-": d = fs.getcwd() else: d = fs.File(scripts[0]).dir fs.set_SConstruct_dir(d) _set_debug_values(options) SCons.Node.implicit_cache = options.implicit_cache SCons.Node.implicit_deps_changed = options.implicit_deps_changed SCons.Node.implicit_deps_unchanged = options.implicit_deps_unchanged if options.no_exec: SCons.SConf.dryrun = 1 SCons.Action.execute_actions = None if options.question: SCons.SConf.dryrun = 1 if options.clean: SCons.SConf.SetBuildType('clean') if options.help: SCons.SConf.SetBuildType('help') SCons.SConf.SetCacheMode(options.config) SCons.SConf.SetProgressDisplay(progress_display) if options.no_progress or options.silent: progress_display.set_mode(0) if options.site_dir: _load_site_scons_dir(d.get_internal_path(), options.site_dir) elif not options.no_site_dir: _load_all_site_scons_dirs(d.get_internal_path()) if options.include_dir: sys.path = options.include_dir + sys.path # If we're about to start SCons in the interactive mode, # inform the FS about this right here. Else, the release_target_info # method could get called on some nodes, like the used "gcc" compiler, # when using the Configure methods within the SConscripts. # This would then cause subtle bugs, as already happened in #2971. if options.interactive: SCons.Node.interactive = True # That should cover (most of) the options. Next, set up the variables # that hold command-line arguments, so the SConscript files that we # read and execute have access to them. targets = [] xmit_args = [] for a in parser.largs: if a[:1] == '-': continue if '=' in a: xmit_args.append(a) else: targets.append(a) SCons.Script._Add_Targets(targets + parser.rargs) SCons.Script._Add_Arguments(xmit_args) # If stdout is not a tty, replace it with a wrapper object to call flush # after every write. # # Tty devices automatically flush after every newline, so the replacement # isn't necessary. Furthermore, if we replace sys.stdout, the readline # module will no longer work. This affects the behavior during # --interactive mode. --interactive should only be used when stdin and # stdout refer to a tty. if not hasattr(sys.stdout, 'isatty') or not sys.stdout.isatty(): sys.stdout = SCons.Util.Unbuffered(sys.stdout) if not hasattr(sys.stderr, 'isatty') or not sys.stderr.isatty(): sys.stderr = SCons.Util.Unbuffered(sys.stderr) memory_stats.append('before reading SConscript files:') count_stats.append(('pre-', 'read')) # And here's where we (finally) read the SConscript files. progress_display("scons: Reading SConscript files ...") start_time = time.time() try: for script in scripts: SCons.Script._SConscript._SConscript(fs, script) except SCons.Errors.StopError as e: # We had problems reading an SConscript file, such as it # couldn't be copied in to the VariantDir. Since we're just # reading SConscript files and haven't started building # things yet, stop regardless of whether they used -i or -k # or anything else. revert_io() sys.stderr.write("scons: *** %s Stop.\n" % e) sys.exit(2) global sconscript_time sconscript_time = time.time() - start_time progress_display("scons: done reading SConscript files.") memory_stats.append('after reading SConscript files:') count_stats.append(('post-', 'read')) # Re-{enable,disable} warnings in case they disabled some in # the SConscript file. # # We delay enabling the PythonVersionWarning class until here so that, # if they explicitly disabled it in either in the command line or in # $SCONSFLAGS, or in the SConscript file, then the search through # the list of deprecated warning classes will find that disabling # first and not issue the warning. #SCons.Warnings.enableWarningClass(SCons.Warnings.PythonVersionWarning) SCons.Warnings.process_warn_strings(options.warn) # Now that we've read the SConscript files, we can check for the # warning about deprecated Python versions--delayed until here # in case they disabled the warning in the SConscript files. if python_version_deprecated(): msg = "Support for pre-%s Python version (%s) is deprecated.\n" + \ " If this will cause hardship, contact scons-dev@scons.org" deprecated_version_string = ".".join(map(str, deprecated_python_version)) SCons.Warnings.warn(SCons.Warnings.PythonVersionWarning, msg % (deprecated_version_string, python_version_string())) if not options.help: # [ ] Clarify why we need to create Builder here at all, and # why it is created in DefaultEnvironment # https://bitbucket.org/scons/scons/commits/d27a548aeee8ad5e67ea75c2d19a7d305f784e30 if SCons.SConf.NeedConfigHBuilder(): SCons.SConf.CreateConfigHBuilder(SCons.Defaults.DefaultEnvironment()) # Now re-parse the command-line options (any to the left of a '--' # argument, that is) with any user-defined command-line options that # the SConscript files may have added to the parser object. This will # emit the appropriate error message and exit if any unknown option # was specified on the command line. parser.preserve_unknown_options = False parser.parse_args(parser.largs, options) if options.help: help_text = SCons.Script.help_text if help_text is None: # They specified -h, but there was no Help() inside the # SConscript files. Give them the options usage. raise SConsPrintHelpException else: print(help_text) print("Use scons -H for help about command-line options.") exit_status = 0 return # Change directory to the top-level SConstruct directory, then tell # the Node.FS subsystem that we're all done reading the SConscript # files and calling Repository() and VariantDir() and changing # directories and the like, so it can go ahead and start memoizing # the string values of file system nodes. fs.chdir(fs.Top) SCons.Node.FS.save_strings(1) # Now that we've read the SConscripts we can set the options # that are SConscript settable: SCons.Node.implicit_cache = options.implicit_cache SCons.Node.FS.set_duplicate(options.duplicate) fs.set_max_drift(options.max_drift) SCons.Job.explicit_stack_size = options.stack_size if options.md5_chunksize: SCons.Node.FS.File.md5_chunksize = options.md5_chunksize platform = SCons.Platform.platform_module() if options.interactive: SCons.Script.Interactive.interact(fs, OptionsParser, options, targets, target_top) else: # Build the targets nodes = _build_targets(fs, options, targets, target_top) if not nodes: revert_io() print('Found nothing to build') exit_status = 2 def _build_targets(fs, options, targets, target_top): global this_build_status this_build_status = 0 progress_display.set_mode(not (options.no_progress or options.silent)) display.set_mode(not options.silent) SCons.Action.print_actions = not options.silent SCons.Action.execute_actions = not options.no_exec SCons.Node.do_store_info = not options.no_exec SCons.SConf.dryrun = options.no_exec if options.diskcheck: SCons.Node.FS.set_diskcheck(options.diskcheck) SCons.CacheDir.cache_enabled = not options.cache_disable SCons.CacheDir.cache_readonly = options.cache_readonly SCons.CacheDir.cache_debug = options.cache_debug SCons.CacheDir.cache_force = options.cache_force SCons.CacheDir.cache_show = options.cache_show if options.no_exec: CleanTask.execute = CleanTask.show else: CleanTask.execute = CleanTask.remove lookup_top = None if targets or SCons.Script.BUILD_TARGETS != SCons.Script._build_plus_default: # They specified targets on the command line or modified # BUILD_TARGETS in the SConscript file(s), so if they used -u, # -U or -D, we have to look up targets relative to the top, # but we build whatever they specified. if target_top: lookup_top = fs.Dir(target_top) target_top = None targets = SCons.Script.BUILD_TARGETS else: # There are no targets specified on the command line, # so if they used -u, -U or -D, we may have to restrict # what actually gets built. d = None if target_top: if options.climb_up == 1: # -u, local directory and below target_top = fs.Dir(target_top) lookup_top = target_top elif options.climb_up == 2: # -D, all Default() targets target_top = None lookup_top = None elif options.climb_up == 3: # -U, local SConscript Default() targets target_top = fs.Dir(target_top) def check_dir(x, target_top=target_top): if hasattr(x, 'cwd') and not x.cwd is None: cwd = x.cwd.srcnode() return cwd == target_top else: # x doesn't have a cwd, so it's either not a target, # or not a file, so go ahead and keep it as a default # target and let the engine sort it out: return 1 d = [tgt for tgt in SCons.Script.DEFAULT_TARGETS if check_dir(tgt)] SCons.Script.DEFAULT_TARGETS[:] = d target_top = None lookup_top = None targets = SCons.Script._Get_Default_Targets(d, fs) if not targets: sys.stderr.write("scons: *** No targets specified and no Default() targets found. Stop.\n") return None def Entry(x, ltop=lookup_top, ttop=target_top, fs=fs): if isinstance(x, SCons.Node.Node): node = x else: node = None # Why would ltop be None? Unfortunately this happens. if ltop is None: ltop = '' # Curdir becomes important when SCons is called with -u, -C, # or similar option that changes directory, and so the paths # of targets given on the command line need to be adjusted. curdir = os.path.join(os.getcwd(), str(ltop)) for lookup in SCons.Node.arg2nodes_lookups: node = lookup(x, curdir=curdir) if node is not None: break if node is None: node = fs.Entry(x, directory=ltop, create=1) if ttop and not node.is_under(ttop): if isinstance(node, SCons.Node.FS.Dir) and ttop.is_under(node): node = ttop else: node = None return node nodes = [_f for _f in map(Entry, targets) if _f] task_class = BuildTask # default action is to build targets opening_message = "Building targets ..." closing_message = "done building targets." if options.keep_going: failure_message = "done building targets (errors occurred during build)." else: failure_message = "building terminated because of errors." if options.question: task_class = QuestionTask try: if options.clean: task_class = CleanTask opening_message = "Cleaning targets ..." closing_message = "done cleaning targets." if options.keep_going: failure_message = "done cleaning targets (errors occurred during clean)." else: failure_message = "cleaning terminated because of errors." except AttributeError: pass task_class.progress = ProgressObject if options.random: def order(dependencies): """Randomize the dependencies.""" import random random.shuffle(dependencies) return dependencies else: def order(dependencies): """Leave the order of dependencies alone.""" return dependencies if options.taskmastertrace_file == '-': tmtrace = sys.stdout elif options.taskmastertrace_file: tmtrace = open(options.taskmastertrace_file, 'w') else: tmtrace = None taskmaster = SCons.Taskmaster.Taskmaster(nodes, task_class, order, tmtrace) # Let the BuildTask objects get at the options to respond to the # various print_* settings, tree_printer list, etc. BuildTask.options = options python_has_threads = sysconfig.get_config_var('WITH_THREAD') # to check if python configured with threads. global num_jobs num_jobs = options.num_jobs jobs = SCons.Job.Jobs(num_jobs, taskmaster) if num_jobs > 1: msg = None if sys.platform == 'win32': msg = fetch_win32_parallel_msg() elif jobs.num_jobs == 1 or not python_has_threads: msg = "parallel builds are unsupported by this version of Python;\n" + \ "\tignoring -j or num_jobs option.\n" if msg: SCons.Warnings.warn(SCons.Warnings.NoParallelSupportWarning, msg) memory_stats.append('before building targets:') count_stats.append(('pre-', 'build')) def jobs_postfunc( jobs=jobs, options=options, closing_message=closing_message, failure_message=failure_message ): if jobs.were_interrupted(): if not options.no_progress and not options.silent: sys.stderr.write("scons: Build interrupted.\n") global exit_status global this_build_status exit_status = 2 this_build_status = 2 if this_build_status: progress_display("scons: " + failure_message) else: progress_display("scons: " + closing_message) if not options.no_exec: if jobs.were_interrupted(): progress_display("scons: writing .sconsign file.") SCons.SConsign.write() progress_display("scons: " + opening_message) jobs.run(postfunc = jobs_postfunc) memory_stats.append('after building targets:') count_stats.append(('post-', 'build')) return nodes def _exec_main(parser, values): sconsflags = os.environ.get('SCONSFLAGS', '') all_args = sconsflags.split() + sys.argv[1:] options, args = parser.parse_args(all_args, values) if isinstance(options.debug, list) and "pdb" in options.debug: import pdb pdb.Pdb().runcall(_main, parser) elif options.profile_file: # compat layer imports "cProfile" for us if it's available. from profile import Profile prof = Profile() try: prof.runcall(_main, parser) finally: prof.dump_stats(options.profile_file) else: _main(parser) def main(): global OptionsParser global exit_status global first_command_start # Check up front for a Python version we do not support. We # delay the check for deprecated Python versions until later, # after the SConscript files have been read, in case they # disable that warning. if python_version_unsupported(): msg = "scons: *** SCons version %s does not run under Python version %s.\n" sys.stderr.write(msg % (SCons.__version__, python_version_string())) sys.exit(1) parts = ["SCons by Steven Knight et al.:\n"] try: import __main__ parts.append(version_string("script", __main__)) except (ImportError, AttributeError): # On Windows there is no scons.py, so there is no # __main__.__version__, hence there is no script version. pass parts.append(version_string("engine", SCons)) parts.append(path_string("engine", SCons)) parts.append("Copyright (c) 2001 - 2017 The SCons Foundation") version = ''.join(parts) from . import SConsOptions parser = SConsOptions.Parser(version) values = SConsOptions.SConsValues(parser.get_default_values()) OptionsParser = parser try: try: _exec_main(parser, values) finally: revert_io() except SystemExit as s: if s: exit_status = s except KeyboardInterrupt: print("scons: Build interrupted.") sys.exit(2) except SyntaxError as e: _scons_syntax_error(e) except SCons.Errors.InternalError: _scons_internal_error() except SCons.Errors.UserError as e: _scons_user_error(e) except SConsPrintHelpException: parser.print_help() exit_status = 0 except SCons.Errors.BuildError as e: print(e) exit_status = e.exitstatus except: # An exception here is likely a builtin Python exception Python # code in an SConscript file. Show them precisely what the # problem was and where it happened. SCons.Script._SConscript.SConscript_exception() sys.exit(2) memory_stats.print_stats() count_stats.print_stats() if print_objects: SCons.Debug.listLoggedInstances('*') #SCons.Debug.dumpLoggedInstances('*') if print_memoizer: SCons.Memoize.Dump("Memoizer (memory cache) hits and misses:") # Dump any development debug info that may have been enabled. # These are purely for internal debugging during development, so # there's no need to control them with --debug= options; they're # controlled by changing the source code. SCons.Debug.dump_caller_counts() SCons.Taskmaster.dump_stats() if print_time: total_time = time.time() - SCons.Script.start_time if num_jobs == 1: ct = cumulative_command_time else: if last_command_end is None or first_command_start is None: ct = 0.0 else: ct = last_command_end - first_command_start scons_time = total_time - sconscript_time - ct print("Total build time: %f seconds"%total_time) print("Total SConscript file execution time: %f seconds"%sconscript_time) print("Total SCons execution time: %f seconds"%scons_time) print("Total command execution time: %f seconds"%ct) sys.exit(exit_status) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Script/Interactive.py0000664000175000017500000003272413202656511022536 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import print_function __revision__ = "src/engine/SCons/Script/Interactive.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """ SCons interactive mode """ # TODO: # # This has the potential to grow into something with a really big life # of its own, which might or might not be a good thing. Nevertheless, # here are some enhancements that will probably be requested some day # and are worth keeping in mind (assuming this takes off): # # - A command to re-read / re-load the SConscript files. This may # involve allowing people to specify command-line options (e.g. -f, # -I, --no-site-dir) that affect how the SConscript files are read. # # - Additional command-line options on the "build" command. # # Of the supported options that seemed to make sense (after a quick # pass through the list), the ones that seemed likely enough to be # used are listed in the man page and have explicit test scripts. # # These had code changed in Script/Main.py to support them, but didn't # seem likely to be used regularly, so had no test scripts added: # # build --diskcheck=* # build --implicit-cache=* # build --implicit-deps-changed=* # build --implicit-deps-unchanged=* # # These look like they should "just work" with no changes to the # existing code, but like those above, look unlikely to be used and # therefore had no test scripts added: # # build --random # # These I'm not sure about. They might be useful for individual # "build" commands, and may even work, but they seem unlikely enough # that we'll wait until they're requested before spending any time on # writing test scripts for them, or investigating whether they work. # # build -q [??? is there a useful analog to the exit status?] # build --duplicate= # build --profile= # build --max-drift= # build --warn=* # build --Y # # - Most of the SCons command-line options that the "build" command # supports should be settable as default options that apply to all # subsequent "build" commands. Maybe a "set {option}" command that # maps to "SetOption('{option}')". # # - Need something in the 'help' command that prints the -h output. # # - A command to run the configure subsystem separately (must see how # this interacts with the new automake model). # # - Command-line completion of target names; maybe even of SCons options? # Completion is something that's supported by the Python cmd module, # so this should be doable without too much trouble. # import cmd import copy import os import re import shlex import sys try: import readline except ImportError: pass class SConsInteractiveCmd(cmd.Cmd): """\ build [TARGETS] Build the specified TARGETS and their dependencies. 'b' is a synonym. clean [TARGETS] Clean (remove) the specified TARGETS and their dependencies. 'c' is a synonym. exit Exit SCons interactive mode. help [COMMAND] Prints help for the specified COMMAND. 'h' and '?' are synonyms. shell [COMMANDLINE] Execute COMMANDLINE in a subshell. 'sh' and '!' are synonyms. version Prints SCons version information. """ synonyms = { 'b' : 'build', 'c' : 'clean', 'h' : 'help', 'scons' : 'build', 'sh' : 'shell', } def __init__(self, **kw): cmd.Cmd.__init__(self) for key, val in kw.items(): setattr(self, key, val) if sys.platform == 'win32': self.shell_variable = 'COMSPEC' else: self.shell_variable = 'SHELL' def default(self, argv): print("*** Unknown command: %s" % argv[0]) def onecmd(self, line): line = line.strip() if not line: print(self.lastcmd) return self.emptyline() self.lastcmd = line if line[0] == '!': line = 'shell ' + line[1:] elif line[0] == '?': line = 'help ' + line[1:] if os.sep == '\\': line = line.replace('\\', '\\\\') argv = shlex.split(line) argv[0] = self.synonyms.get(argv[0], argv[0]) if not argv[0]: return self.default(line) else: try: func = getattr(self, 'do_' + argv[0]) except AttributeError: return self.default(argv) return func(argv) def do_build(self, argv): """\ build [TARGETS] Build the specified TARGETS and their dependencies. 'b' is a synonym. """ import SCons.Node import SCons.SConsign import SCons.Script.Main options = copy.deepcopy(self.options) options, targets = self.parser.parse_args(argv[1:], values=options) SCons.Script.COMMAND_LINE_TARGETS = targets if targets: SCons.Script.BUILD_TARGETS = targets else: # If the user didn't specify any targets on the command line, # use the list of default targets. SCons.Script.BUILD_TARGETS = SCons.Script._build_plus_default nodes = SCons.Script.Main._build_targets(self.fs, options, targets, self.target_top) if not nodes: return # Call each of the Node's alter_targets() methods, which may # provide additional targets that ended up as part of the build # (the canonical example being a VariantDir() when we're building # from a source directory) and which we therefore need their # state cleared, too. x = [] for n in nodes: x.extend(n.alter_targets()[0]) nodes.extend(x) # Clean up so that we can perform the next build correctly. # # We do this by walking over all the children of the targets, # and clearing their state. # # We currently have to re-scan each node to find their # children, because built nodes have already been partially # cleared and don't remember their children. (In scons # 0.96.1 and earlier, this wasn't the case, and we didn't # have to re-scan the nodes.) # # Because we have to re-scan each node, we can't clear the # nodes as we walk over them, because we may end up rescanning # a cleared node as we scan a later node. Therefore, only # store the list of nodes that need to be cleared as we walk # the tree, and clear them in a separate pass. # # XXX: Someone more familiar with the inner workings of scons # may be able to point out a more efficient way to do this. SCons.Script.Main.progress_display("scons: Clearing cached node information ...") seen_nodes = {} def get_unseen_children(node, parent, seen_nodes=seen_nodes): def is_unseen(node, seen_nodes=seen_nodes): return node not in seen_nodes return [child for child in node.children(scan=1) if is_unseen(child)] def add_to_seen_nodes(node, parent, seen_nodes=seen_nodes): seen_nodes[node] = 1 # If this file is in a VariantDir and has a # corresponding source file in the source tree, remember the # node in the source tree, too. This is needed in # particular to clear cached implicit dependencies on the # source file, since the scanner will scan it if the # VariantDir was created with duplicate=0. try: rfile_method = node.rfile except AttributeError: return else: rfile = rfile_method() if rfile != node: seen_nodes[rfile] = 1 for node in nodes: walker = SCons.Node.Walker(node, kids_func=get_unseen_children, eval_func=add_to_seen_nodes) n = walker.get_next() while n: n = walker.get_next() for node in list(seen_nodes.keys()): # Call node.clear() to clear most of the state node.clear() # node.clear() doesn't reset node.state, so call # node.set_state() to reset it manually node.set_state(SCons.Node.no_state) node.implicit = None # Debug: Uncomment to verify that all Taskmaster reference # counts have been reset to zero. #if node.ref_count != 0: # from SCons.Debug import Trace # Trace('node %s, ref_count %s !!!\n' % (node, node.ref_count)) SCons.SConsign.Reset() SCons.Script.Main.progress_display("scons: done clearing node information.") def do_clean(self, argv): """\ clean [TARGETS] Clean (remove) the specified TARGETS and their dependencies. 'c' is a synonym. """ return self.do_build(['build', '--clean'] + argv[1:]) def do_EOF(self, argv): print() self.do_exit(argv) def _do_one_help(self, arg): try: # If help_() exists, then call it. func = getattr(self, 'help_' + arg) except AttributeError: try: func = getattr(self, 'do_' + arg) except AttributeError: doc = None else: doc = self._doc_to_help(func) if doc: sys.stdout.write(doc + '\n') sys.stdout.flush() else: doc = self.strip_initial_spaces(func()) if doc: sys.stdout.write(doc + '\n') sys.stdout.flush() def _doc_to_help(self, obj): doc = obj.__doc__ if doc is None: return '' return self._strip_initial_spaces(doc) def _strip_initial_spaces(self, s): lines = s.split('\n') spaces = re.match(' *', lines[0]).group(0) def strip_spaces(l, spaces=spaces): if l[:len(spaces)] == spaces: l = l[len(spaces):] return l lines = list(map(strip_spaces, lines)) return '\n'.join(lines) def do_exit(self, argv): """\ exit Exit SCons interactive mode. """ sys.exit(0) def do_help(self, argv): """\ help [COMMAND] Prints help for the specified COMMAND. 'h' and '?' are synonyms. """ if argv[1:]: for arg in argv[1:]: if self._do_one_help(arg): break else: # If bare 'help' is called, print this class's doc # string (if it has one). doc = self._doc_to_help(self.__class__) if doc: sys.stdout.write(doc + '\n') sys.stdout.flush() def do_shell(self, argv): """\ shell [COMMANDLINE] Execute COMMANDLINE in a subshell. 'sh' and '!' are synonyms. """ import subprocess argv = argv[1:] if not argv: argv = os.environ[self.shell_variable] try: # Per "[Python-Dev] subprocess insufficiently platform-independent?" # http://mail.python.org/pipermail/python-dev/2008-August/081979.html "+ # Doing the right thing with an argument list currently # requires different shell= values on Windows and Linux. p = subprocess.Popen(argv, shell=(sys.platform=='win32')) except EnvironmentError as e: sys.stderr.write('scons: %s: %s\n' % (argv[0], e.strerror)) else: p.wait() def do_version(self, argv): """\ version Prints SCons version information. """ sys.stdout.write(self.parser.version + '\n') def interact(fs, parser, options, targets, target_top): c = SConsInteractiveCmd(prompt = 'scons>>> ', fs = fs, parser = parser, options = options, targets = targets, target_top = target_top) c.cmdloop() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Script/SConsOptions.py0000664000175000017500000011523713202656511022663 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Script/SConsOptions.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import optparse import re import sys import textwrap no_hyphen_re = re.compile(r'(\s+|(?<=[\w\!\"\'\&\.\,\?])-{2,}(?=\w))') try: from gettext import gettext except ImportError: def gettext(message): return message _ = gettext import SCons.Node.FS import SCons.Warnings OptionValueError = optparse.OptionValueError SUPPRESS_HELP = optparse.SUPPRESS_HELP diskcheck_all = SCons.Node.FS.diskcheck_types() def diskcheck_convert(value): if value is None: return [] if not SCons.Util.is_List(value): value = value.split(',') result = [] for v in value: v = v.lower() if v == 'all': result = diskcheck_all elif v == 'none': result = [] elif v in diskcheck_all: result.append(v) else: raise ValueError(v) return result class SConsValues(optparse.Values): """ Holder class for uniform access to SCons options, regardless of whether or not they can be set on the command line or in the SConscript files (using the SetOption() function). A SCons option value can originate three different ways: 1) set on the command line; 2) set in an SConscript file; 3) the default setting (from the the op.add_option() calls in the Parser() function, below). The command line always overrides a value set in a SConscript file, which in turn always overrides default settings. Because we want to support user-specified options in the SConscript file itself, though, we may not know about all of the options when the command line is first parsed, so we can't make all the necessary precedence decisions at the time the option is configured. The solution implemented in this class is to keep these different sets of settings separate (command line, SConscript file, and default) and to override the __getattr__() method to check them in turn. This should allow the rest of the code to just fetch values as attributes of an instance of this class, without having to worry about where they came from. Note that not all command line options are settable from SConscript files, and the ones that are must be explicitly added to the "settable" list in this class, and optionally validated and coerced in the set_option() method. """ def __init__(self, defaults): self.__dict__['__defaults__'] = defaults self.__dict__['__SConscript_settings__'] = {} def __getattr__(self, attr): """ Fetches an options value, checking first for explicit settings from the command line (which are direct attributes), then the SConscript file settings, then the default values. """ try: return self.__dict__[attr] except KeyError: try: return self.__dict__['__SConscript_settings__'][attr] except KeyError: try: return getattr(self.__dict__['__defaults__'], attr) except KeyError: # Added because with py3 this is a new class, # not a classic class, and due to the way # In that case it will create an object without # __defaults__, and then query for __setstate__ # which will throw an exception of KeyError # deepcopy() is expecting AttributeError if __setstate__ # is not available. raise AttributeError(attr) settable = [ 'clean', 'diskcheck', 'duplicate', 'help', 'implicit_cache', 'max_drift', 'md5_chunksize', 'no_exec', 'num_jobs', 'random', 'stack_size', 'warn', 'silent' ] def set_option(self, name, value): """ Sets an option from an SConscript file. """ if not name in self.settable: raise SCons.Errors.UserError("This option is not settable from a SConscript file: %s"%name) if name == 'num_jobs': try: value = int(value) if value < 1: raise ValueError except ValueError: raise SCons.Errors.UserError("A positive integer is required: %s"%repr(value)) elif name == 'max_drift': try: value = int(value) except ValueError: raise SCons.Errors.UserError("An integer is required: %s"%repr(value)) elif name == 'duplicate': try: value = str(value) except ValueError: raise SCons.Errors.UserError("A string is required: %s"%repr(value)) if not value in SCons.Node.FS.Valid_Duplicates: raise SCons.Errors.UserError("Not a valid duplication style: %s" % value) # Set the duplicate style right away so it can affect linking # of SConscript files. SCons.Node.FS.set_duplicate(value) elif name == 'diskcheck': try: value = diskcheck_convert(value) except ValueError as v: raise SCons.Errors.UserError("Not a valid diskcheck value: %s"%v) if 'diskcheck' not in self.__dict__: # No --diskcheck= option was specified on the command line. # Set this right away so it can affect the rest of the # file/Node lookups while processing the SConscript files. SCons.Node.FS.set_diskcheck(value) elif name == 'stack_size': try: value = int(value) except ValueError: raise SCons.Errors.UserError("An integer is required: %s"%repr(value)) elif name == 'md5_chunksize': try: value = int(value) except ValueError: raise SCons.Errors.UserError("An integer is required: %s"%repr(value)) elif name == 'warn': if SCons.Util.is_String(value): value = [value] value = self.__SConscript_settings__.get(name, []) + value SCons.Warnings.process_warn_strings(value) self.__SConscript_settings__[name] = value class SConsOption(optparse.Option): def convert_value(self, opt, value): if value is not None: if self.nargs in (1, '?'): return self.check_value(opt, value) else: return tuple([self.check_value(opt, v) for v in value]) def process(self, opt, value, values, parser): # First, convert the value(s) to the right type. Howl if any # value(s) are bogus. value = self.convert_value(opt, value) # And then take whatever action is expected of us. # This is a separate method to make life easier for # subclasses to add new actions. return self.take_action( self.action, self.dest, opt, value, values, parser) def _check_nargs_optional(self): if self.nargs == '?' and self._short_opts: fmt = "option %s: nargs='?' is incompatible with short options" raise SCons.Errors.UserError(fmt % self._short_opts[0]) try: _orig_CONST_ACTIONS = optparse.Option.CONST_ACTIONS _orig_CHECK_METHODS = optparse.Option.CHECK_METHODS except AttributeError: # optparse.Option had no CONST_ACTIONS before Python 2.5. _orig_CONST_ACTIONS = ("store_const",) def _check_const(self): if self.action not in self.CONST_ACTIONS and self.const is not None: raise OptionError( "'const' must not be supplied for action %r" % self.action, self) # optparse.Option collects its list of unbound check functions # up front. This sucks because it means we can't just override # the _check_const() function like a normal method, we have to # actually replace it in the list. This seems to be the most # straightforward way to do that. _orig_CHECK_METHODS = [optparse.Option._check_action, optparse.Option._check_type, optparse.Option._check_choice, optparse.Option._check_dest, _check_const, optparse.Option._check_nargs, optparse.Option._check_callback] CHECK_METHODS = _orig_CHECK_METHODS + [_check_nargs_optional] CONST_ACTIONS = _orig_CONST_ACTIONS + optparse.Option.TYPED_ACTIONS class SConsOptionGroup(optparse.OptionGroup): """ A subclass for SCons-specific option groups. The only difference between this and the base class is that we print the group's help text flush left, underneath their own title but lined up with the normal "SCons Options". """ def format_help(self, formatter): """ Format an option group's help text, outdenting the title so it's flush with the "SCons Options" title we print at the top. """ formatter.dedent() result = formatter.format_heading(self.title) formatter.indent() result = result + optparse.OptionContainer.format_help(self, formatter) return result class SConsOptionParser(optparse.OptionParser): preserve_unknown_options = False def error(self, msg): # overridden OptionValueError exception handler self.print_usage(sys.stderr) sys.stderr.write("SCons Error: %s\n" % msg) sys.exit(2) def _process_long_opt(self, rargs, values): """ SCons-specific processing of long options. This is copied directly from the normal optparse._process_long_opt() method, except that, if configured to do so, we catch the exception thrown when an unknown option is encountered and just stick it back on the "leftover" arguments for later (re-)processing. """ arg = rargs.pop(0) # Value explicitly attached to arg? Pretend it's the next # argument. if "=" in arg: (opt, next_arg) = arg.split("=", 1) rargs.insert(0, next_arg) had_explicit_value = True else: opt = arg had_explicit_value = False try: opt = self._match_long_opt(opt) except optparse.BadOptionError: if self.preserve_unknown_options: # SCons-specific: if requested, add unknown options to # the "leftover arguments" list for later processing. self.largs.append(arg) if had_explicit_value: # The unknown option will be re-processed later, # so undo the insertion of the explicit value. rargs.pop(0) return raise option = self._long_opt[opt] if option.takes_value(): nargs = option.nargs if nargs == '?': if had_explicit_value: value = rargs.pop(0) else: value = option.const elif len(rargs) < nargs: if nargs == 1: if not option.choices: self.error(_("%s option requires an argument") % opt) else: msg = _("%s option requires an argument " % opt) msg += _("(choose from %s)" % ', '.join(option.choices)) self.error(msg) else: self.error(_("%s option requires %d arguments") % (opt, nargs)) elif nargs == 1: value = rargs.pop(0) else: value = tuple(rargs[0:nargs]) del rargs[0:nargs] elif had_explicit_value: self.error(_("%s option does not take a value") % opt) else: value = None option.process(opt, value, values, self) def reparse_local_options(self): """ Re-parse the leftover command-line options stored in self.largs, so that any value overridden on the command line is immediately available if the user turns around and does a GetOption() right away. We mimic the processing of the single args in the original OptionParser._process_args(), but here we allow exact matches for long-opts only (no partial argument names!). Else, this would lead to problems in add_local_option() below. When called from there, we try to reparse the command-line arguments that 1. haven't been processed so far (self.largs), but 2. are possibly not added to the list of options yet. So, when we only have a value for "--myargument" yet, a command-line argument of "--myarg=test" would set it. Responsible for this behaviour is the method _match_long_opt(), which allows for partial matches of the option name, as long as the common prefix appears to be unique. This would lead to further confusion, because we might want to add another option "--myarg" later on (see issue #2929). """ rargs = [] largs_restore = [] # Loop over all remaining arguments skip = False for l in self.largs: if skip: # Accept all remaining arguments as they are largs_restore.append(l) else: if len(l) > 2 and l[0:2] == "--": # Check long option lopt = (l,) if "=" in l: # Split into option and value lopt = l.split("=", 1) if lopt[0] in self._long_opt: # Argument is already known rargs.append('='.join(lopt)) else: # Not known yet, so reject for now largs_restore.append('='.join(lopt)) else: if l == "--" or l == "-": # Stop normal processing and don't # process the rest of the command-line opts largs_restore.append(l) skip = True else: rargs.append(l) # Parse the filtered list self.parse_args(rargs, self.values) # Restore the list of remaining arguments for the # next call of AddOption/add_local_option... self.largs = self.largs + largs_restore def add_local_option(self, *args, **kw): """ Adds a local option to the parser. This is initiated by a SetOption() call to add a user-defined command-line option. We add the option to a separate option group for the local options, creating the group if necessary. """ try: group = self.local_option_group except AttributeError: group = SConsOptionGroup(self, 'Local Options') group = self.add_option_group(group) self.local_option_group = group result = group.add_option(*args, **kw) if result: # The option was added successfully. We now have to add the # default value to our object that holds the default values # (so that an attempt to fetch the option's attribute will # yield the default value when not overridden) and then # we re-parse the leftover command-line options, so that # any value overridden on the command line is immediately # available if the user turns around and does a GetOption() # right away. setattr(self.values.__defaults__, result.dest, result.default) self.reparse_local_options() return result class SConsIndentedHelpFormatter(optparse.IndentedHelpFormatter): def format_usage(self, usage): return "usage: %s\n" % usage def format_heading(self, heading): """ This translates any heading of "options" or "Options" into "SCons Options." Unfortunately, we have to do this here, because those titles are hard-coded in the optparse calls. """ if heading == 'Options': heading = "SCons Options" return optparse.IndentedHelpFormatter.format_heading(self, heading) def format_option(self, option): """ A copy of the normal optparse.IndentedHelpFormatter.format_option() method. This has been snarfed so we can modify text wrapping to out liking: -- add our own regular expression that doesn't break on hyphens (so things like --no-print-directory don't get broken); -- wrap the list of options themselves when it's too long (the wrapper.fill(opts) call below); -- set the subsequent_indent when wrapping the help_text. """ # The help for each option consists of two parts: # * the opt strings and metavars # eg. ("-x", or "-fFILENAME, --file=FILENAME") # * the user-supplied help string # eg. ("turn on expert mode", "read data from FILENAME") # # If possible, we write both of these on the same line: # -x turn on expert mode # # But if the opt string list is too long, we put the help # string on a second line, indented to the same column it would # start in if it fit on the first line. # -fFILENAME, --file=FILENAME # read data from FILENAME result = [] opts = self.option_strings[option] opt_width = self.help_position - self.current_indent - 2 if len(opts) > opt_width: wrapper = textwrap.TextWrapper(width=self.width, initial_indent = ' ', subsequent_indent = ' ') wrapper.wordsep_re = no_hyphen_re opts = wrapper.fill(opts) + '\n' indent_first = self.help_position else: # start help on same line as opts opts = "%*s%-*s " % (self.current_indent, "", opt_width, opts) indent_first = 0 result.append(opts) if option.help: help_text = self.expand_default(option) # SCons: indent every line of the help text but the first. wrapper = textwrap.TextWrapper(width=self.help_width, subsequent_indent = ' ') wrapper.wordsep_re = no_hyphen_re help_lines = wrapper.wrap(help_text) result.append("%*s%s\n" % (indent_first, "", help_lines[0])) for line in help_lines[1:]: result.append("%*s%s\n" % (self.help_position, "", line)) elif opts[-1] != "\n": result.append("\n") return "".join(result) def Parser(version): """ Returns an options parser object initialized with the standard SCons options. """ formatter = SConsIndentedHelpFormatter(max_help_position=30) op = SConsOptionParser(option_class=SConsOption, add_help_option=False, formatter=formatter, usage="usage: scons [OPTION] [TARGET] ...",) op.preserve_unknown_options = True op.version = version # Add the options to the parser we just created. # # These are in the order we want them to show up in the -H help # text, basically alphabetical. Each op.add_option() call below # should have a consistent format: # # op.add_option("-L", "--long-option-name", # nargs=1, type="string", # dest="long_option_name", default='foo', # action="callback", callback=opt_long_option, # help="help text goes here", # metavar="VAR") # # Even though the optparse module constructs reasonable default # destination names from the long option names, we're going to be # explicit about each one for easier readability and so this code # will at least show up when grepping the source for option attribute # names, or otherwise browsing the source code. # options ignored for compatibility def opt_ignore(option, opt, value, parser): sys.stderr.write("Warning: ignoring %s option\n" % opt) op.add_option("-b", "-d", "-e", "-m", "-S", "-t", "-w", "--environment-overrides", "--no-keep-going", "--no-print-directory", "--print-directory", "--stop", "--touch", action="callback", callback=opt_ignore, help="Ignored for compatibility.") op.add_option('-c', '--clean', '--remove', dest="clean", default=False, action="store_true", help="Remove specified targets and dependencies.") op.add_option('-C', '--directory', nargs=1, type="string", dest="directory", default=[], action="append", help="Change to DIR before doing anything.", metavar="DIR") op.add_option('--cache-debug', nargs=1, dest="cache_debug", default=None, action="store", help="Print CacheDir debug info to FILE.", metavar="FILE") op.add_option('--cache-disable', '--no-cache', dest='cache_disable', default=False, action="store_true", help="Do not retrieve built targets from CacheDir.") op.add_option('--cache-force', '--cache-populate', dest='cache_force', default=False, action="store_true", help="Copy already-built targets into the CacheDir.") op.add_option('--cache-readonly', dest='cache_readonly', default=False, action="store_true", help="Do not update CacheDir with built targets.") op.add_option('--cache-show', dest='cache_show', default=False, action="store_true", help="Print build actions for files from CacheDir.") def opt_invalid(group, value, options): errmsg = "`%s' is not a valid %s option type, try:\n" % (value, group) return errmsg + " %s" % ", ".join(options) config_options = ["auto", "force" ,"cache"] opt_config_help = "Controls Configure subsystem: %s." \ % ", ".join(config_options) op.add_option('--config', nargs=1, choices=config_options, dest="config", default="auto", help = opt_config_help, metavar="MODE") op.add_option('-D', dest="climb_up", default=None, action="store_const", const=2, help="Search up directory tree for SConstruct, " "build all Default() targets.") deprecated_debug_options = { "dtree" : '; please use --tree=derived instead', "nomemoizer" : ' and has no effect', "stree" : '; please use --tree=all,status instead', "tree" : '; please use --tree=all instead', } debug_options = ["count", "duplicate", "explain", "findlibs", "includes", "memoizer", "memory", "objects", "pdb", "prepare", "presub", "stacktrace", "time"] def opt_debug(option, opt, value__, parser, debug_options=debug_options, deprecated_debug_options=deprecated_debug_options): for value in value__.split(','): if value in debug_options: parser.values.debug.append(value) elif value in list(deprecated_debug_options.keys()): parser.values.debug.append(value) try: parser.values.delayed_warnings except AttributeError: parser.values.delayed_warnings = [] msg = deprecated_debug_options[value] w = "The --debug=%s option is deprecated%s." % (value, msg) t = (SCons.Warnings.DeprecatedDebugOptionsWarning, w) parser.values.delayed_warnings.append(t) else: raise OptionValueError(opt_invalid('debug', value, debug_options)) opt_debug_help = "Print various types of debugging information: %s." \ % ", ".join(debug_options) op.add_option('--debug', nargs=1, type="string", dest="debug", default=[], action="callback", callback=opt_debug, help=opt_debug_help, metavar="TYPE") def opt_diskcheck(option, opt, value, parser): try: diskcheck_value = diskcheck_convert(value) except ValueError as e: raise OptionValueError("`%s' is not a valid diskcheck type" % e) setattr(parser.values, option.dest, diskcheck_value) op.add_option('--diskcheck', nargs=1, type="string", dest='diskcheck', default=None, action="callback", callback=opt_diskcheck, help="Enable specific on-disk checks.", metavar="TYPE") def opt_duplicate(option, opt, value, parser): if not value in SCons.Node.FS.Valid_Duplicates: raise OptionValueError(opt_invalid('duplication', value, SCons.Node.FS.Valid_Duplicates)) setattr(parser.values, option.dest, value) # Set the duplicate style right away so it can affect linking # of SConscript files. SCons.Node.FS.set_duplicate(value) opt_duplicate_help = "Set the preferred duplication methods. Must be one of " \ + ", ".join(SCons.Node.FS.Valid_Duplicates) op.add_option('--duplicate', nargs=1, type="string", dest="duplicate", default='hard-soft-copy', action="callback", callback=opt_duplicate, help=opt_duplicate_help) op.add_option('-f', '--file', '--makefile', '--sconstruct', nargs=1, type="string", dest="file", default=[], action="append", help="Read FILE as the top-level SConstruct file.") op.add_option('-h', '--help', dest="help", default=False, action="store_true", help="Print defined help message, or this one.") op.add_option("-H", "--help-options", action="help", help="Print this message and exit.") op.add_option('-i', '--ignore-errors', dest='ignore_errors', default=False, action="store_true", help="Ignore errors from build actions.") op.add_option('-I', '--include-dir', nargs=1, dest='include_dir', default=[], action="append", help="Search DIR for imported Python modules.", metavar="DIR") op.add_option('--implicit-cache', dest='implicit_cache', default=False, action="store_true", help="Cache implicit dependencies") def opt_implicit_deps(option, opt, value, parser): setattr(parser.values, 'implicit_cache', True) setattr(parser.values, option.dest, True) op.add_option('--implicit-deps-changed', dest="implicit_deps_changed", default=False, action="callback", callback=opt_implicit_deps, help="Ignore cached implicit dependencies.") op.add_option('--implicit-deps-unchanged', dest="implicit_deps_unchanged", default=False, action="callback", callback=opt_implicit_deps, help="Ignore changes in implicit dependencies.") op.add_option('--interact', '--interactive', dest='interactive', default=False, action="store_true", help="Run in interactive mode.") op.add_option('-j', '--jobs', nargs=1, type="int", dest="num_jobs", default=1, action="store", help="Allow N jobs at once.", metavar="N") op.add_option('-k', '--keep-going', dest='keep_going', default=False, action="store_true", help="Keep going when a target can't be made.") op.add_option('--max-drift', nargs=1, type="int", dest='max_drift', default=SCons.Node.FS.default_max_drift, action="store", help="Set maximum system clock drift to N seconds.", metavar="N") op.add_option('--md5-chunksize', nargs=1, type="int", dest='md5_chunksize', default=SCons.Node.FS.File.md5_chunksize, action="store", help="Set chunk-size for MD5 signature computation to N kilobytes.", metavar="N") op.add_option('-n', '--no-exec', '--just-print', '--dry-run', '--recon', dest='no_exec', default=False, action="store_true", help="Don't build; just print commands.") op.add_option('--no-site-dir', dest='no_site_dir', default=False, action="store_true", help="Don't search or use the usual site_scons dir.") op.add_option('--profile', nargs=1, dest="profile_file", default=None, action="store", help="Profile SCons and put results in FILE.", metavar="FILE") op.add_option('-q', '--question', dest="question", default=False, action="store_true", help="Don't build; exit status says if up to date.") op.add_option('-Q', dest='no_progress', default=False, action="store_true", help="Suppress \"Reading/Building\" progress messages.") op.add_option('--random', dest="random", default=False, action="store_true", help="Build dependencies in random order.") op.add_option('-s', '--silent', '--quiet', dest="silent", default=False, action="store_true", help="Don't print commands.") op.add_option('--site-dir', nargs=1, dest='site_dir', default=None, action="store", help="Use DIR instead of the usual site_scons dir.", metavar="DIR") op.add_option('--stack-size', nargs=1, type="int", dest='stack_size', action="store", help="Set the stack size of the threads used to run jobs to N kilobytes.", metavar="N") op.add_option('--taskmastertrace', nargs=1, dest="taskmastertrace_file", default=None, action="store", help="Trace Node evaluation to FILE.", metavar="FILE") tree_options = ["all", "derived", "prune", "status"] def opt_tree(option, opt, value, parser, tree_options=tree_options): from . import Main tp = Main.TreePrinter() for o in value.split(','): if o == 'all': tp.derived = False elif o == 'derived': tp.derived = True elif o == 'prune': tp.prune = True elif o == 'status': tp.status = True else: raise OptionValueError(opt_invalid('--tree', o, tree_options)) parser.values.tree_printers.append(tp) opt_tree_help = "Print a dependency tree in various formats: %s." \ % ", ".join(tree_options) op.add_option('--tree', nargs=1, type="string", dest="tree_printers", default=[], action="callback", callback=opt_tree, help=opt_tree_help, metavar="OPTIONS") op.add_option('-u', '--up', '--search-up', dest="climb_up", default=0, action="store_const", const=1, help="Search up directory tree for SConstruct, " "build targets at or below current directory.") op.add_option('-U', dest="climb_up", default=0, action="store_const", const=3, help="Search up directory tree for SConstruct, " "build Default() targets from local SConscript.") def opt_version(option, opt, value, parser): sys.stdout.write(parser.version + '\n') sys.exit(0) op.add_option("-v", "--version", action="callback", callback=opt_version, help="Print the SCons version number and exit.") def opt_warn(option, opt, value, parser, tree_options=tree_options): if SCons.Util.is_String(value): value = value.split(',') parser.values.warn.extend(value) op.add_option('--warn', '--warning', nargs=1, type="string", dest="warn", default=[], action="callback", callback=opt_warn, help="Enable or disable warnings.", metavar="WARNING-SPEC") op.add_option('-Y', '--repository', '--srcdir', nargs=1, dest="repository", default=[], action="append", help="Search REPOSITORY for source and target files.") # Options from Make and Cons classic that we do not yet support, # but which we may support someday and whose (potential) meanings # we don't want to change. These all get a "the -X option is not # yet implemented" message and don't show up in the help output. def opt_not_yet(option, opt, value, parser): msg = "Warning: the %s option is not yet implemented\n" % opt sys.stderr.write(msg) op.add_option('-l', '--load-average', '--max-load', nargs=1, type="float", dest="load_average", default=0, action="callback", callback=opt_not_yet, # action="store", # help="Don't start multiple jobs unless load is below " # "LOAD-AVERAGE." help=SUPPRESS_HELP) op.add_option('--list-actions', dest="list_actions", action="callback", callback=opt_not_yet, # help="Don't build; list files and build actions." help=SUPPRESS_HELP) op.add_option('--list-derived', dest="list_derived", action="callback", callback=opt_not_yet, # help="Don't build; list files that would be built." help=SUPPRESS_HELP) op.add_option('--list-where', dest="list_where", action="callback", callback=opt_not_yet, # help="Don't build; list files and where defined." help=SUPPRESS_HELP) op.add_option('-o', '--old-file', '--assume-old', nargs=1, type="string", dest="old_file", default=[], action="callback", callback=opt_not_yet, # action="append", # help = "Consider FILE to be old; don't rebuild it." help=SUPPRESS_HELP) op.add_option('--override', nargs=1, type="string", action="callback", callback=opt_not_yet, dest="override", # help="Override variables as specified in FILE." help=SUPPRESS_HELP) op.add_option('-p', action="callback", callback=opt_not_yet, dest="p", # help="Print internal environments/objects." help=SUPPRESS_HELP) op.add_option('-r', '-R', '--no-builtin-rules', '--no-builtin-variables', action="callback", callback=opt_not_yet, dest="no_builtin_rules", # help="Clear default environments and variables." help=SUPPRESS_HELP) op.add_option('--write-filenames', nargs=1, type="string", dest="write_filenames", action="callback", callback=opt_not_yet, # help="Write all filenames examined into FILE." help=SUPPRESS_HELP) op.add_option('-W', '--new-file', '--assume-new', '--what-if', nargs=1, type="string", dest="new_file", action="callback", callback=opt_not_yet, # help="Consider FILE to be changed." help=SUPPRESS_HELP) op.add_option('--warn-undefined-variables', dest="warn_undefined_variables", action="callback", callback=opt_not_yet, # help="Warn when an undefined variable is referenced." help=SUPPRESS_HELP) return op # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Script/SConscript.py0000664000175000017500000006002413202656511022342 0ustar bdbaddogbdbaddog00000000000000"""SCons.Script.SConscript This module defines the Python API provided to SConscript and SConstruct files. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Script/SConscript.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons import SCons.Action import SCons.Builder import SCons.Defaults import SCons.Environment import SCons.Errors import SCons.Node import SCons.Node.Alias import SCons.Node.FS import SCons.Platform import SCons.SConf import SCons.Script.Main import SCons.Tool import SCons.Util from . import Main import collections import os import os.path import re import sys import traceback import time class SConscriptReturn(Exception): pass launch_dir = os.path.abspath(os.curdir) GlobalDict = None # global exports set by Export(): global_exports = {} # chdir flag sconscript_chdir = 1 def get_calling_namespaces(): """Return the locals and globals for the function that called into this module in the current call stack.""" try: 1//0 except ZeroDivisionError: # Don't start iterating with the current stack-frame to # prevent creating reference cycles (f_back is safe). frame = sys.exc_info()[2].tb_frame.f_back # Find the first frame that *isn't* from this file. This means # that we expect all of the SCons frames that implement an Export() # or SConscript() call to be in this file, so that we can identify # the first non-Script.SConscript frame as the user's local calling # environment, and the locals and globals dictionaries from that # frame as the calling namespaces. See the comment below preceding # the DefaultEnvironmentCall block for even more explanation. while frame.f_globals.get("__name__") == __name__: frame = frame.f_back return frame.f_locals, frame.f_globals def compute_exports(exports): """Compute a dictionary of exports given one of the parameters to the Export() function or the exports argument to SConscript().""" loc, glob = get_calling_namespaces() retval = {} try: for export in exports: if SCons.Util.is_Dict(export): retval.update(export) else: try: retval[export] = loc[export] except KeyError: retval[export] = glob[export] except KeyError as x: raise SCons.Errors.UserError("Export of non-existent variable '%s'"%x) return retval class Frame(object): """A frame on the SConstruct/SConscript call stack""" def __init__(self, fs, exports, sconscript): self.globals = BuildDefaultGlobals() self.retval = None self.prev_dir = fs.getcwd() self.exports = compute_exports(exports) # exports from the calling SConscript # make sure the sconscript attr is a Node. if isinstance(sconscript, SCons.Node.Node): self.sconscript = sconscript elif sconscript == '-': self.sconscript = None else: self.sconscript = fs.File(str(sconscript)) # the SConstruct/SConscript call stack: call_stack = [] # For documentation on the methods in this file, see the scons man-page def Return(*vars, **kw): retval = [] try: fvars = SCons.Util.flatten(vars) for var in fvars: for v in var.split(): retval.append(call_stack[-1].globals[v]) except KeyError as x: raise SCons.Errors.UserError("Return of non-existent variable '%s'"%x) if len(retval) == 1: call_stack[-1].retval = retval[0] else: call_stack[-1].retval = tuple(retval) stop = kw.get('stop', True) if stop: raise SConscriptReturn stack_bottom = '% Stack boTTom %' # hard to define a variable w/this name :) def _SConscript(fs, *files, **kw): top = fs.Top sd = fs.SConstruct_dir.rdir() exports = kw.get('exports', []) # evaluate each SConscript file results = [] for fn in files: call_stack.append(Frame(fs, exports, fn)) old_sys_path = sys.path try: SCons.Script.sconscript_reading = SCons.Script.sconscript_reading + 1 if fn == "-": exec(sys.stdin.read(), call_stack[-1].globals) else: if isinstance(fn, SCons.Node.Node): f = fn else: f = fs.File(str(fn)) _file_ = None # Change directory to the top of the source # tree to make sure the os's cwd and the cwd of # fs match so we can open the SConscript. fs.chdir(top, change_os_dir=1) if f.rexists(): actual = f.rfile() _file_ = open(actual.get_abspath(), "rb") elif f.srcnode().rexists(): actual = f.srcnode().rfile() _file_ = open(actual.get_abspath(), "rb") elif f.has_src_builder(): # The SConscript file apparently exists in a source # code management system. Build it, but then clear # the builder so that it doesn't get built *again* # during the actual build phase. f.build() f.built() f.builder_set(None) if f.exists(): _file_ = open(f.get_abspath(), "rb") if _file_: # Chdir to the SConscript directory. Use a path # name relative to the SConstruct file so that if # we're using the -f option, we're essentially # creating a parallel SConscript directory structure # in our local directory tree. # # XXX This is broken for multiple-repository cases # where the SConstruct and SConscript files might be # in different Repositories. For now, cross that # bridge when someone comes to it. try: src_dir = kw['src_dir'] except KeyError: ldir = fs.Dir(f.dir.get_path(sd)) else: ldir = fs.Dir(src_dir) if not ldir.is_under(f.dir): # They specified a source directory, but # it's above the SConscript directory. # Do the sensible thing and just use the # SConcript directory. ldir = fs.Dir(f.dir.get_path(sd)) try: fs.chdir(ldir, change_os_dir=sconscript_chdir) except OSError: # There was no local directory, so we should be # able to chdir to the Repository directory. # Note that we do this directly, not through # fs.chdir(), because we still need to # interpret the stuff within the SConscript file # relative to where we are logically. fs.chdir(ldir, change_os_dir=0) os.chdir(actual.dir.get_abspath()) # Append the SConscript directory to the beginning # of sys.path so Python modules in the SConscript # directory can be easily imported. sys.path = [ f.dir.get_abspath() ] + sys.path # This is the magic line that actually reads up # and executes the stuff in the SConscript file. # The locals for this frame contain the special # bottom-of-the-stack marker so that any # exceptions that occur when processing this # SConscript can base the printed frames at this # level and not show SCons internals as well. call_stack[-1].globals.update({stack_bottom:1}) old_file = call_stack[-1].globals.get('__file__') try: del call_stack[-1].globals['__file__'] except KeyError: pass try: try: # _file_ = SCons.Util.to_str(_file_) if Main.print_time: time1 = time.time() exec(compile(_file_.read(), _file_.name, 'exec'), call_stack[-1].globals) except SConscriptReturn: pass finally: if Main.print_time: time2 = time.time() print('SConscript:%s took %0.3f ms' % (f.get_abspath(), (time2 - time1) * 1000.0)) if old_file is not None: call_stack[-1].globals.update({__file__:old_file}) else: SCons.Warnings.warn(SCons.Warnings.MissingSConscriptWarning, "Ignoring missing SConscript '%s'" % f.get_internal_path()) finally: SCons.Script.sconscript_reading = SCons.Script.sconscript_reading - 1 sys.path = old_sys_path frame = call_stack.pop() try: fs.chdir(frame.prev_dir, change_os_dir=sconscript_chdir) except OSError: # There was no local directory, so chdir to the # Repository directory. Like above, we do this # directly. fs.chdir(frame.prev_dir, change_os_dir=0) rdir = frame.prev_dir.rdir() rdir._create() # Make sure there's a directory there. try: os.chdir(rdir.get_abspath()) except OSError as e: # We still couldn't chdir there, so raise the error, # but only if actions are being executed. # # If the -n option was used, the directory would *not* # have been created and we should just carry on and # let things muddle through. This isn't guaranteed # to work if the SConscript files are reading things # from disk (for example), but it should work well # enough for most configurations. if SCons.Action.execute_actions: raise e results.append(frame.retval) # if we only have one script, don't return a tuple if len(results) == 1: return results[0] else: return tuple(results) def SConscript_exception(file=sys.stderr): """Print an exception stack trace just for the SConscript file(s). This will show users who have Python errors where the problem is, without cluttering the output with all of the internal calls leading up to where we exec the SConscript.""" exc_type, exc_value, exc_tb = sys.exc_info() tb = exc_tb while tb and stack_bottom not in tb.tb_frame.f_locals: tb = tb.tb_next if not tb: # We did not find our exec statement, so this was actually a bug # in SCons itself. Show the whole stack. tb = exc_tb stack = traceback.extract_tb(tb) try: type = exc_type.__name__ except AttributeError: type = str(exc_type) if type[:11] == "exceptions.": type = type[11:] file.write('%s: %s:\n' % (type, exc_value)) for fname, line, func, text in stack: file.write(' File "%s", line %d:\n' % (fname, line)) file.write(' %s\n' % text) def annotate(node): """Annotate a node with the stack frame describing the SConscript file and line number that created it.""" tb = sys.exc_info()[2] while tb and stack_bottom not in tb.tb_frame.f_locals: tb = tb.tb_next if not tb: # We did not find any exec of an SConscript file: what?! raise SCons.Errors.InternalError("could not find SConscript stack frame") node.creator = traceback.extract_stack(tb)[0] # The following line would cause each Node to be annotated using the # above function. Unfortunately, this is a *huge* performance hit, so # leave this disabled until we find a more efficient mechanism. #SCons.Node.Annotate = annotate class SConsEnvironment(SCons.Environment.Base): """An Environment subclass that contains all of the methods that are particular to the wrapper SCons interface and which aren't (or shouldn't be) part of the build engine itself. Note that not all of the methods of this class have corresponding global functions, there are some private methods. """ # # Private methods of an SConsEnvironment. # def _exceeds_version(self, major, minor, v_major, v_minor): """Return 1 if 'major' and 'minor' are greater than the version in 'v_major' and 'v_minor', and 0 otherwise.""" return (major > v_major or (major == v_major and minor > v_minor)) def _get_major_minor_revision(self, version_string): """Split a version string into major, minor and (optionally) revision parts. This is complicated by the fact that a version string can be something like 3.2b1.""" version = version_string.split(' ')[0].split('.') v_major = int(version[0]) v_minor = int(re.match('\d+', version[1]).group()) if len(version) >= 3: v_revision = int(re.match('\d+', version[2]).group()) else: v_revision = 0 return v_major, v_minor, v_revision def _get_SConscript_filenames(self, ls, kw): """ Convert the parameters passed to SConscript() calls into a list of files and export variables. If the parameters are invalid, throws SCons.Errors.UserError. Returns a tuple (l, e) where l is a list of SConscript filenames and e is a list of exports. """ exports = [] if len(ls) == 0: try: dirs = kw["dirs"] except KeyError: raise SCons.Errors.UserError("Invalid SConscript usage - no parameters") if not SCons.Util.is_List(dirs): dirs = [ dirs ] dirs = list(map(str, dirs)) name = kw.get('name', 'SConscript') files = [os.path.join(n, name) for n in dirs] elif len(ls) == 1: files = ls[0] elif len(ls) == 2: files = ls[0] exports = self.Split(ls[1]) else: raise SCons.Errors.UserError("Invalid SConscript() usage - too many arguments") if not SCons.Util.is_List(files): files = [ files ] if kw.get('exports'): exports.extend(self.Split(kw['exports'])) variant_dir = kw.get('variant_dir') or kw.get('build_dir') if variant_dir: if len(files) != 1: raise SCons.Errors.UserError("Invalid SConscript() usage - can only specify one SConscript with a variant_dir") duplicate = kw.get('duplicate', 1) src_dir = kw.get('src_dir') if not src_dir: src_dir, fname = os.path.split(str(files[0])) files = [os.path.join(str(variant_dir), fname)] else: if not isinstance(src_dir, SCons.Node.Node): src_dir = self.fs.Dir(src_dir) fn = files[0] if not isinstance(fn, SCons.Node.Node): fn = self.fs.File(fn) if fn.is_under(src_dir): # Get path relative to the source directory. fname = fn.get_path(src_dir) files = [os.path.join(str(variant_dir), fname)] else: files = [fn.get_abspath()] kw['src_dir'] = variant_dir self.fs.VariantDir(variant_dir, src_dir, duplicate) return (files, exports) # # Public methods of an SConsEnvironment. These get # entry points in the global namespace so they can be called # as global functions. # def Configure(self, *args, **kw): if not SCons.Script.sconscript_reading: raise SCons.Errors.UserError("Calling Configure from Builders is not supported.") kw['_depth'] = kw.get('_depth', 0) + 1 return SCons.Environment.Base.Configure(self, *args, **kw) def Default(self, *targets): SCons.Script._Set_Default_Targets(self, targets) def EnsureSConsVersion(self, major, minor, revision=0): """Exit abnormally if the SCons version is not late enough.""" # split string to avoid replacement during build process if SCons.__version__ == '__' + 'VERSION__': SCons.Warnings.warn(SCons.Warnings.DevelopmentVersionWarning, "EnsureSConsVersion is ignored for development version") return scons_ver = self._get_major_minor_revision(SCons.__version__) if scons_ver < (major, minor, revision): if revision: scons_ver_string = '%d.%d.%d' % (major, minor, revision) else: scons_ver_string = '%d.%d' % (major, minor) print("SCons %s or greater required, but you have SCons %s" % \ (scons_ver_string, SCons.__version__)) sys.exit(2) def EnsurePythonVersion(self, major, minor): """Exit abnormally if the Python version is not late enough.""" if sys.version_info < (major, minor): v = sys.version.split()[0] print("Python %d.%d or greater required, but you have Python %s" %(major,minor,v)) sys.exit(2) def Exit(self, value=0): sys.exit(value) def Export(self, *vars, **kw): for var in vars: global_exports.update(compute_exports(self.Split(var))) global_exports.update(kw) def GetLaunchDir(self): global launch_dir return launch_dir def GetOption(self, name): name = self.subst(name) return SCons.Script.Main.GetOption(name) def Help(self, text, append=False): text = self.subst(text, raw=1) SCons.Script.HelpFunction(text, append=append) def Import(self, *vars): try: frame = call_stack[-1] globals = frame.globals exports = frame.exports for var in vars: var = self.Split(var) for v in var: if v == '*': globals.update(global_exports) globals.update(exports) else: if v in exports: globals[v] = exports[v] else: globals[v] = global_exports[v] except KeyError as x: raise SCons.Errors.UserError("Import of non-existent variable '%s'"%x) def SConscript(self, *ls, **kw): if 'build_dir' in kw: msg = """The build_dir keyword has been deprecated; use the variant_dir keyword instead.""" SCons.Warnings.warn(SCons.Warnings.DeprecatedBuildDirWarning, msg) def subst_element(x, subst=self.subst): if SCons.Util.is_List(x): x = list(map(subst, x)) else: x = subst(x) return x ls = list(map(subst_element, ls)) subst_kw = {} for key, val in kw.items(): if SCons.Util.is_String(val): val = self.subst(val) elif SCons.Util.is_List(val): result = [] for v in val: if SCons.Util.is_String(v): v = self.subst(v) result.append(v) val = result subst_kw[key] = val files, exports = self._get_SConscript_filenames(ls, subst_kw) subst_kw['exports'] = exports return _SConscript(self.fs, *files, **subst_kw) def SConscriptChdir(self, flag): global sconscript_chdir sconscript_chdir = flag def SetOption(self, name, value): name = self.subst(name) SCons.Script.Main.SetOption(name, value) # # # SCons.Environment.Environment = SConsEnvironment def Configure(*args, **kw): if not SCons.Script.sconscript_reading: raise SCons.Errors.UserError("Calling Configure from Builders is not supported.") kw['_depth'] = 1 return SCons.SConf.SConf(*args, **kw) # It's very important that the DefaultEnvironmentCall() class stay in this # file, with the get_calling_namespaces() function, the compute_exports() # function, the Frame class and the SConsEnvironment.Export() method. # These things make up the calling stack leading up to the actual global # Export() or SConscript() call that the user issued. We want to allow # users to export local variables that they define, like so: # # def func(): # x = 1 # Export('x') # # To support this, the get_calling_namespaces() function assumes that # the *first* stack frame that's not from this file is the local frame # for the Export() or SConscript() call. _DefaultEnvironmentProxy = None def get_DefaultEnvironmentProxy(): global _DefaultEnvironmentProxy if not _DefaultEnvironmentProxy: default_env = SCons.Defaults.DefaultEnvironment() _DefaultEnvironmentProxy = SCons.Environment.NoSubstitutionProxy(default_env) return _DefaultEnvironmentProxy class DefaultEnvironmentCall(object): """A class that implements "global function" calls of Environment methods by fetching the specified method from the DefaultEnvironment's class. Note that this uses an intermediate proxy class instead of calling the DefaultEnvironment method directly so that the proxy can override the subst() method and thereby prevent expansion of construction variables (since from the user's point of view this was called as a global function, with no associated construction environment).""" def __init__(self, method_name, subst=0): self.method_name = method_name if subst: self.factory = SCons.Defaults.DefaultEnvironment else: self.factory = get_DefaultEnvironmentProxy def __call__(self, *args, **kw): env = self.factory() method = getattr(env, self.method_name) return method(*args, **kw) def BuildDefaultGlobals(): """ Create a dictionary containing all the default globals for SConstruct and SConscript files. """ global GlobalDict if GlobalDict is None: GlobalDict = {} import SCons.Script d = SCons.Script.__dict__ def not_a_module(m, d=d, mtype=type(SCons.Script)): return not isinstance(d[m], mtype) for m in filter(not_a_module, dir(SCons.Script)): GlobalDict[m] = d[m] return GlobalDict.copy() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Script/__init__.py0000664000175000017500000003422713202656511022020 0ustar bdbaddogbdbaddog00000000000000"""SCons.Script This file implements the main() function used by the scons script. Architecturally, this *is* the scons script, and will likely only be called from the external "scons" wrapper. Consequently, anything here should not be, or be considered, part of the build engine. If it's something that we expect other software to want to use, it should go in some other module. If it's specific to the "scons" script invocation, it goes here. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Script/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import time start_time = time.time() import collections import os try: from StringIO import StringIO except ImportError: from io import StringIO import sys # Special chicken-and-egg handling of the "--debug=memoizer" flag: # # SCons.Memoize contains a metaclass implementation that affects how # the other classes are instantiated. The Memoizer may add shim methods # to classes that have methods that cache computed values in order to # count and report the hits and misses. # # If we wait to enable the Memoization until after we've parsed the # command line options normally, it will be too late, because the Memoizer # will have already analyzed the classes that it's Memoizing and decided # to not add the shims. So we use a special-case, up-front check for # the "--debug=memoizer" flag and enable Memoizer before we import any # of the other modules that use it. _args = sys.argv + os.environ.get('SCONSFLAGS', '').split() if "--debug=memoizer" in _args: import SCons.Memoize import SCons.Warnings try: SCons.Memoize.EnableMemoization() except SCons.Warnings.Warning: # Some warning was thrown. Arrange for it to be displayed # or not after warnings are configured. from . import Main exc_type, exc_value, tb = sys.exc_info() Main.delayed_warnings.append((exc_type, exc_value)) del _args import SCons.Action import SCons.Builder import SCons.Environment import SCons.Node.FS import SCons.Options import SCons.Platform import SCons.Scanner import SCons.SConf import SCons.Subst import SCons.Tool import SCons.Util import SCons.Variables import SCons.Defaults from . import Main main = Main.main # The following are global class definitions and variables that used to # live directly in this module back before 0.96.90, when it contained # a lot of code. Some SConscript files in widely-distributed packages # (Blender is the specific example) actually reached into SCons.Script # directly to use some of these. Rather than break those SConscript # files, we're going to propagate these names into the SCons.Script # namespace here. # # Some of these are commented out because it's *really* unlikely anyone # used them, but we're going to leave the comment here to try to make # it obvious what to do if the situation arises. BuildTask = Main.BuildTask CleanTask = Main.CleanTask QuestionTask = Main.QuestionTask #PrintHelp = Main.PrintHelp #SConscriptSettableOptions = Main.SConscriptSettableOptions AddOption = Main.AddOption PrintHelp = Main.PrintHelp GetOption = Main.GetOption SetOption = Main.SetOption Progress = Main.Progress GetBuildFailures = Main.GetBuildFailures #keep_going_on_error = Main.keep_going_on_error #print_dtree = Main.print_dtree #print_explanations = Main.print_explanations #print_includes = Main.print_includes #print_objects = Main.print_objects #print_time = Main.print_time #print_tree = Main.print_tree #memory_stats = Main.memory_stats #ignore_errors = Main.ignore_errors #sconscript_time = Main.sconscript_time #command_time = Main.command_time #exit_status = Main.exit_status #profiling = Main.profiling #repositories = Main.repositories # from . import SConscript _SConscript = SConscript call_stack = _SConscript.call_stack # Action = SCons.Action.Action AddMethod = SCons.Util.AddMethod AllowSubstExceptions = SCons.Subst.SetAllowableExceptions Builder = SCons.Builder.Builder Configure = _SConscript.Configure Environment = SCons.Environment.Environment #OptParser = SCons.SConsOptions.OptParser FindPathDirs = SCons.Scanner.FindPathDirs Platform = SCons.Platform.Platform Return = _SConscript.Return Scanner = SCons.Scanner.Base Tool = SCons.Tool.Tool WhereIs = SCons.Util.WhereIs # BoolVariable = SCons.Variables.BoolVariable EnumVariable = SCons.Variables.EnumVariable ListVariable = SCons.Variables.ListVariable PackageVariable = SCons.Variables.PackageVariable PathVariable = SCons.Variables.PathVariable # Deprecated names that will go away some day. BoolOption = SCons.Options.BoolOption EnumOption = SCons.Options.EnumOption ListOption = SCons.Options.ListOption PackageOption = SCons.Options.PackageOption PathOption = SCons.Options.PathOption # Action factories. Chmod = SCons.Defaults.Chmod Copy = SCons.Defaults.Copy Delete = SCons.Defaults.Delete Mkdir = SCons.Defaults.Mkdir Move = SCons.Defaults.Move Touch = SCons.Defaults.Touch # Pre-made, public scanners. CScanner = SCons.Tool.CScanner DScanner = SCons.Tool.DScanner DirScanner = SCons.Defaults.DirScanner ProgramScanner = SCons.Tool.ProgramScanner SourceFileScanner = SCons.Tool.SourceFileScanner # Functions we might still convert to Environment methods. CScan = SCons.Defaults.CScan DefaultEnvironment = SCons.Defaults.DefaultEnvironment # Other variables we provide. class TargetList(collections.UserList): def _do_nothing(self, *args, **kw): pass def _add_Default(self, list): self.extend(list) def _clear(self): del self[:] ARGUMENTS = {} ARGLIST = [] BUILD_TARGETS = TargetList() COMMAND_LINE_TARGETS = [] DEFAULT_TARGETS = [] # BUILD_TARGETS can be modified in the SConscript files. If so, we # want to treat the modified BUILD_TARGETS list as if they specified # targets on the command line. To do that, though, we need to know if # BUILD_TARGETS was modified through "official" APIs or by hand. We do # this by updating two lists in parallel, the documented BUILD_TARGETS # list, above, and this internal _build_plus_default targets list which # should only have "official" API changes. Then Script/Main.py can # compare these two afterwards to figure out if the user added their # own targets to BUILD_TARGETS. _build_plus_default = TargetList() def _Add_Arguments(alist): for arg in alist: a, b = arg.split('=', 1) ARGUMENTS[a] = b ARGLIST.append((a, b)) def _Add_Targets(tlist): if tlist: COMMAND_LINE_TARGETS.extend(tlist) BUILD_TARGETS.extend(tlist) BUILD_TARGETS._add_Default = BUILD_TARGETS._do_nothing BUILD_TARGETS._clear = BUILD_TARGETS._do_nothing _build_plus_default.extend(tlist) _build_plus_default._add_Default = _build_plus_default._do_nothing _build_plus_default._clear = _build_plus_default._do_nothing def _Set_Default_Targets_Has_Been_Called(d, fs): return DEFAULT_TARGETS def _Set_Default_Targets_Has_Not_Been_Called(d, fs): if d is None: d = [fs.Dir('.')] return d _Get_Default_Targets = _Set_Default_Targets_Has_Not_Been_Called def _Set_Default_Targets(env, tlist): global DEFAULT_TARGETS global _Get_Default_Targets _Get_Default_Targets = _Set_Default_Targets_Has_Been_Called for t in tlist: if t is None: # Delete the elements from the list in-place, don't # reassign an empty list to DEFAULT_TARGETS, so that the # variables will still point to the same object we point to. del DEFAULT_TARGETS[:] BUILD_TARGETS._clear() _build_plus_default._clear() elif isinstance(t, SCons.Node.Node): DEFAULT_TARGETS.append(t) BUILD_TARGETS._add_Default([t]) _build_plus_default._add_Default([t]) else: nodes = env.arg2nodes(t, env.fs.Entry) DEFAULT_TARGETS.extend(nodes) BUILD_TARGETS._add_Default(nodes) _build_plus_default._add_Default(nodes) # help_text = None def HelpFunction(text, append=False): global help_text if help_text is None: if append: s = StringIO() PrintHelp(s) help_text = s.getvalue() s.close() else: help_text = "" help_text= help_text + text # # Will be non-zero if we are reading an SConscript file. sconscript_reading = 0 # def Variables(files=[], args=ARGUMENTS): return SCons.Variables.Variables(files, args) def Options(files=[], args=ARGUMENTS): return SCons.Options.Options(files, args) # The list of global functions to add to the SConscript name space # that end up calling corresponding methods or Builders in the # DefaultEnvironment(). GlobalDefaultEnvironmentFunctions = [ # Methods from the SConsEnvironment class, above. 'Default', 'EnsurePythonVersion', 'EnsureSConsVersion', 'Exit', 'Export', 'GetLaunchDir', 'Help', 'Import', #'SConscript', is handled separately, below. 'SConscriptChdir', # Methods from the Environment.Base class. 'AddPostAction', 'AddPreAction', 'Alias', 'AlwaysBuild', 'BuildDir', 'CacheDir', 'Clean', #The Command() method is handled separately, below. 'Decider', 'Depends', 'Dir', 'NoClean', 'NoCache', 'Entry', 'Execute', 'File', 'FindFile', 'FindInstalledFiles', 'FindSourceFiles', 'Flatten', 'GetBuildPath', 'Glob', 'Ignore', 'Install', 'InstallAs', 'InstallVersionedLib', 'Literal', 'Local', 'ParseDepends', 'Precious', 'PyPackageDir', 'Repository', 'Requires', 'SConsignFile', 'SideEffect', 'SourceCode', 'SourceSignatures', 'Split', 'Tag', 'TargetSignatures', 'Value', 'VariantDir', ] GlobalDefaultBuilders = [ # Supported builders. 'CFile', 'CXXFile', 'DVI', 'Jar', 'Java', 'JavaH', 'Library', 'LoadableModule', 'M4', 'MSVSProject', 'Object', 'PCH', 'PDF', 'PostScript', 'Program', 'RES', 'RMIC', 'SharedLibrary', 'SharedObject', 'StaticLibrary', 'StaticObject', 'Tar', 'TypeLibrary', 'Zip', 'Package', ] for name in GlobalDefaultEnvironmentFunctions + GlobalDefaultBuilders: exec ("%s = _SConscript.DefaultEnvironmentCall(%s)" % (name, repr(name))) del name # There are a handful of variables that used to live in the # Script/SConscript.py module that some SConscript files out there were # accessing directly as SCons.Script.SConscript.*. The problem is that # "SConscript" in this namespace is no longer a module, it's a global # function call--or more precisely, an object that implements a global # function call through the default Environment. Nevertheless, we can # maintain backwards compatibility for SConscripts that were reaching in # this way by hanging some attributes off the "SConscript" object here. SConscript = _SConscript.DefaultEnvironmentCall('SConscript') # Make SConscript look enough like the module it used to be so # that pychecker doesn't barf. SConscript.__name__ = 'SConscript' SConscript.Arguments = ARGUMENTS SConscript.ArgList = ARGLIST SConscript.BuildTargets = BUILD_TARGETS SConscript.CommandLineTargets = COMMAND_LINE_TARGETS SConscript.DefaultTargets = DEFAULT_TARGETS # The global Command() function must be handled differently than the # global functions for other construction environment methods because # we want people to be able to use Actions that must expand $TARGET # and $SOURCE later, when (and if) the Action is invoked to build # the target(s). We do this with the subst=1 argument, which creates # a DefaultEnvironmentCall instance that wraps up a normal default # construction environment that performs variable substitution, not a # proxy that doesn't. # # There's a flaw here, though, because any other $-variables on a command # line will *also* be expanded, each to a null string, but that should # only be a problem in the unusual case where someone was passing a '$' # on a command line and *expected* the $ to get through to the shell # because they were calling Command() and not env.Command()... This is # unlikely enough that we're going to leave this as is and cross that # bridge if someone actually comes to it. Command = _SConscript.DefaultEnvironmentCall('Command', subst=1) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/exitfuncs.py0000664000175000017500000000414613202656511021022 0ustar bdbaddogbdbaddog00000000000000"""SCons.exitfuncs Register functions which are executed when SCons exits for any reason. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/exitfuncs.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import atexit _exithandlers = [] def _run_exitfuncs(): """run any registered exit functions _exithandlers is traversed in reverse order so functions are executed last in, first out. """ while _exithandlers: func, targs, kargs = _exithandlers.pop() func(*targs, **kargs) def register(func, *targs, **kargs): """register a function to be executed upon normal program termination func - function to be called at exit targs - optional arguments to pass to func kargs - optional keyword arguments to pass to func """ _exithandlers.append((func, targs, kargs)) # make our exit function get run by python when it exits atexit.register(_run_exitfuncs) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Options/0000775000175000017500000000000013202656646020077 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Options/ListOption.py0000664000175000017500000000371113202656511022546 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Options/ListOption.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Place-holder for the old SCons.Options module hierarchy This is for backwards compatibility. The new equivalent is the Variables/ class hierarchy. These will have deprecation warnings added (some day), and will then be removed entirely (some day). """ import SCons.Variables import SCons.Warnings warned = False def ListOption(*args, **kw): global warned if not warned: msg = "The ListOption() function is deprecated; use the ListVariable() function instead." SCons.Warnings.warn(SCons.Warnings.DeprecatedOptionsWarning, msg) warned = True return SCons.Variables.ListVariable(*args, **kw) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Options/BoolOption.py0000664000175000017500000000371113202656511022526 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Options/BoolOption.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Place-holder for the old SCons.Options module hierarchy This is for backwards compatibility. The new equivalent is the Variables/ class hierarchy. These will have deprecation warnings added (some day), and will then be removed entirely (some day). """ import SCons.Variables import SCons.Warnings warned = False def BoolOption(*args, **kw): global warned if not warned: msg = "The BoolOption() function is deprecated; use the BoolVariable() function instead." SCons.Warnings.warn(SCons.Warnings.DeprecatedOptionsWarning, msg) warned = True return SCons.Variables.BoolVariable(*args, **kw) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Options/PackageOption.py0000664000175000017500000000373013202656511023167 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Options/PackageOption.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Place-holder for the old SCons.Options module hierarchy This is for backwards compatibility. The new equivalent is the Variables/ class hierarchy. These will have deprecation warnings added (some day), and will then be removed entirely (some day). """ import SCons.Variables import SCons.Warnings warned = False def PackageOption(*args, **kw): global warned if not warned: msg = "The PackageOption() function is deprecated; use the PackageVariable() function instead." SCons.Warnings.warn(SCons.Warnings.DeprecatedOptionsWarning, msg) warned = True return SCons.Variables.PackageVariable(*args, **kw) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Options/PathOption.py0000664000175000017500000000533313202656511022531 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Options/PathOption.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Place-holder for the old SCons.Options module hierarchy This is for backwards compatibility. The new equivalent is the Variables/ class hierarchy. These will have deprecation warnings added (some day), and will then be removed entirely (some day). """ import SCons.Variables import SCons.Warnings warned = False class _PathOptionClass(object): def warn(self): global warned if not warned: msg = "The PathOption() function is deprecated; use the PathVariable() function instead." SCons.Warnings.warn(SCons.Warnings.DeprecatedOptionsWarning, msg) warned = True def __call__(self, *args, **kw): self.warn() return SCons.Variables.PathVariable(*args, **kw) def PathAccept(self, *args, **kw): self.warn() return SCons.Variables.PathVariable.PathAccept(*args, **kw) def PathIsDir(self, *args, **kw): self.warn() return SCons.Variables.PathVariable.PathIsDir(*args, **kw) def PathIsDirCreate(self, *args, **kw): self.warn() return SCons.Variables.PathVariable.PathIsDirCreate(*args, **kw) def PathIsFile(self, *args, **kw): self.warn() return SCons.Variables.PathVariable.PathIsFile(*args, **kw) def PathExists(self, *args, **kw): self.warn() return SCons.Variables.PathVariable.PathExists(*args, **kw) PathOption = _PathOptionClass() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Options/__init__.py0000664000175000017500000000514613202656511022205 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Options/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Place-holder for the old SCons.Options module hierarchy This is for backwards compatibility. The new equivalent is the Variables/ class hierarchy. These will have deprecation warnings added (some day), and will then be removed entirely (some day). """ import SCons.Variables import SCons.Warnings from .BoolOption import BoolOption # okay from .EnumOption import EnumOption # okay from .ListOption import ListOption # naja from .PackageOption import PackageOption # naja from .PathOption import PathOption # okay warned = False class Options(SCons.Variables.Variables): def __init__(self, *args, **kw): global warned if not warned: msg = "The Options class is deprecated; use the Variables class instead." SCons.Warnings.warn(SCons.Warnings.DeprecatedOptionsWarning, msg) warned = True SCons.Variables.Variables.__init__(self, *args, **kw) def AddOptions(self, *args, **kw): return SCons.Variables.Variables.AddVariables(self, *args, **kw) def UnknownOptions(self, *args, **kw): return SCons.Variables.Variables.UnknownVariables(self, *args, **kw) def FormatOptionHelpText(self, *args, **kw): return SCons.Variables.Variables.FormatVariableHelpText(self, *args, **kw) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Options/EnumOption.py0000664000175000017500000000371113202656511022537 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Options/EnumOption.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Place-holder for the old SCons.Options module hierarchy This is for backwards compatibility. The new equivalent is the Variables/ class hierarchy. These will have deprecation warnings added (some day), and will then be removed entirely (some day). """ import SCons.Variables import SCons.Warnings warned = False def EnumOption(*args, **kw): global warned if not warned: msg = "The EnumOption() function is deprecated; use the EnumVariable() function instead." SCons.Warnings.warn(SCons.Warnings.DeprecatedOptionsWarning, msg) warned = True return SCons.Variables.EnumVariable(*args, **kw) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/0000775000175000017500000000000013202656646020035 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Scanner/Prog.py0000664000175000017500000000707413202656511021315 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Scanner/Prog.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Node import SCons.Node.FS import SCons.Scanner import SCons.Util # global, set by --debug=findlibs print_find_libs = None def ProgramScanner(**kw): """Return a prototype Scanner instance for scanning executable files for static-lib dependencies""" kw['path_function'] = SCons.Scanner.FindPathDirs('LIBPATH') ps = SCons.Scanner.Base(scan, "ProgramScanner", **kw) return ps def _subst_libs(env, libs): """ Substitute environment variables and split into list. """ if SCons.Util.is_String(libs): libs = env.subst(libs) if SCons.Util.is_String(libs): libs = libs.split() elif SCons.Util.is_Sequence(libs): _libs = [] for l in libs: _libs += _subst_libs(env, l) libs = _libs else: # libs is an object (Node, for example) libs = [libs] return libs def scan(node, env, libpath = ()): """ This scanner scans program files for static-library dependencies. It will search the LIBPATH environment variable for libraries specified in the LIBS variable, returning any files it finds as dependencies. """ try: libs = env['LIBS'] except KeyError: # There are no LIBS in this environment, so just return a null list: return [] libs = _subst_libs(env, libs) try: prefix = env['LIBPREFIXES'] if not SCons.Util.is_List(prefix): prefix = [ prefix ] except KeyError: prefix = [ '' ] try: suffix = env['LIBSUFFIXES'] if not SCons.Util.is_List(suffix): suffix = [ suffix ] except KeyError: suffix = [ '' ] pairs = [] for suf in map(env.subst, suffix): for pref in map(env.subst, prefix): pairs.append((pref, suf)) result = [] if callable(libpath): libpath = libpath() find_file = SCons.Node.FS.find_file adjustixes = SCons.Util.adjustixes for lib in libs: if SCons.Util.is_String(lib): for pref, suf in pairs: l = adjustixes(lib, pref, suf) l = find_file(l, libpath, verbose=print_find_libs) if l: result.append(l) else: result.append(lib) return result # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/Dir.py0000664000175000017500000000734513202656511021125 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Scanner/Dir.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Node.FS import SCons.Scanner def only_dirs(nodes): is_Dir = lambda n: isinstance(n.disambiguate(), SCons.Node.FS.Dir) return [node for node in nodes if is_Dir(node)] def DirScanner(**kw): """Return a prototype Scanner instance for scanning directories for on-disk files""" kw['node_factory'] = SCons.Node.FS.Entry kw['recursive'] = only_dirs return SCons.Scanner.Base(scan_on_disk, "DirScanner", **kw) def DirEntryScanner(**kw): """Return a prototype Scanner instance for "scanning" directory Nodes for their in-memory entries""" kw['node_factory'] = SCons.Node.FS.Entry kw['recursive'] = None return SCons.Scanner.Base(scan_in_memory, "DirEntryScanner", **kw) skip_entry = {} skip_entry_list = [ '.', '..', '.sconsign', # Used by the native dblite.py module. '.sconsign.dblite', # Used by dbm and dumbdbm. '.sconsign.dir', # Used by dbm. '.sconsign.pag', # Used by dumbdbm. '.sconsign.dat', '.sconsign.bak', # Used by some dbm emulations using Berkeley DB. '.sconsign.db', ] for skip in skip_entry_list: skip_entry[skip] = 1 skip_entry[SCons.Node.FS._my_normcase(skip)] = 1 do_not_scan = lambda k: k not in skip_entry def scan_on_disk(node, env, path=()): """ Scans a directory for on-disk files and directories therein. Looking up the entries will add these to the in-memory Node tree representation of the file system, so all we have to do is just that and then call the in-memory scanning function. """ try: flist = node.fs.listdir(node.get_abspath()) except (IOError, OSError): return [] e = node.Entry for f in filter(do_not_scan, flist): # Add ./ to the beginning of the file name so if it begins with a # '#' we don't look it up relative to the top-level directory. e('./' + f) return scan_in_memory(node, env, path) def scan_in_memory(node, env, path=()): """ "Scans" a Node.FS.Dir for its in-memory entries. """ try: entries = node.entries except AttributeError: # It's not a Node.FS.Dir (or doesn't look enough like one for # our purposes), which can happen if a target list containing # mixed Node types (Dirs and Files, for example) has a Dir as # the first entry. return [] entry_list = sorted(filter(do_not_scan, list(entries.keys()))) return [entries[n] for n in entry_list] # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/C.py0000664000175000017500000001136613202656511020567 0ustar bdbaddogbdbaddog00000000000000"""SCons.Scanner.C This module implements the dependency scanner for C/C++ code. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Scanner/C.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Node.FS import SCons.Scanner import SCons.Util import SCons.cpp class SConsCPPScanner(SCons.cpp.PreProcessor): """ SCons-specific subclass of the cpp.py module's processing. We subclass this so that: 1) we can deal with files represented by Nodes, not strings; 2) we can keep track of the files that are missing. """ def __init__(self, *args, **kw): SCons.cpp.PreProcessor.__init__(self, *args, **kw) self.missing = [] def initialize_result(self, fname): self.result = SCons.Util.UniqueList([fname]) def finalize_result(self, fname): return self.result[1:] def find_include_file(self, t): keyword, quote, fname = t result = SCons.Node.FS.find_file(fname, self.searchpath[quote]) if not result: self.missing.append((fname, self.current_file)) return result def read_file(self, file): try: with open(str(file.rfile())) as fp: return fp.read() except EnvironmentError as e: self.missing.append((file, self.current_file)) return '' def dictify_CPPDEFINES(env): cppdefines = env.get('CPPDEFINES', {}) if cppdefines is None: return {} if SCons.Util.is_Sequence(cppdefines): result = {} for c in cppdefines: if SCons.Util.is_Sequence(c): result[c[0]] = c[1] else: result[c] = None return result if not SCons.Util.is_Dict(cppdefines): return {cppdefines : None} return cppdefines class SConsCPPScannerWrapper(object): """ The SCons wrapper around a cpp.py scanner. This is the actual glue between the calling conventions of generic SCons scanners, and the (subclass of) cpp.py class that knows how to look for #include lines with reasonably real C-preprocessor-like evaluation of #if/#ifdef/#else/#elif lines. """ def __init__(self, name, variable): self.name = name self.path = SCons.Scanner.FindPathDirs(variable) def __call__(self, node, env, path = ()): cpp = SConsCPPScanner(current = node.get_dir(), cpppath = path, dict = dictify_CPPDEFINES(env)) result = cpp(node) for included, includer in cpp.missing: fmt = "No dependency generated for file: %s (included from: %s) -- file not found" SCons.Warnings.warn(SCons.Warnings.DependencyWarning, fmt % (included, includer)) return result def recurse_nodes(self, nodes): return nodes def select(self, node): return self def CScanner(): """Return a prototype Scanner instance for scanning source files that use the C pre-processor""" # Here's how we would (or might) use the CPP scanner code above that # knows how to evaluate #if/#ifdef/#else/#elif lines when searching # for #includes. This is commented out for now until we add the # right configurability to let users pick between the scanners. #return SConsCPPScannerWrapper("CScanner", "CPPPATH") cs = SCons.Scanner.ClassicCPP("CScanner", "$CPPSUFFIXES", "CPPPATH", '^[ \t]*#[ \t]*(?:include|import)[ \t]*(<|")([^>"]+)(>|")') return cs # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/D.py0000664000175000017500000000473113202656511020566 0ustar bdbaddogbdbaddog00000000000000"""SCons.Scanner.D Scanner for the Digital Mars "D" programming language. Coded by Andy Friesen 17 Nov 2003 """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Scanner/D.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Scanner def DScanner(): """Return a prototype Scanner instance for scanning D source files""" ds = D() return ds class D(SCons.Scanner.Classic): def __init__ (self): SCons.Scanner.Classic.__init__ ( self, name = "DScanner", suffixes = '$DSUFFIXES', path_variable = 'DPATH', regex = '(?:import\s+)([\w\s=,.]+)(?:\s*:[\s\w,=]+)?(?:;)' ) def find_include(self, include, source_dir, path): # translate dots (package separators) to slashes inc = include.replace('.', '/') i = SCons.Node.FS.find_file(inc + '.d', (source_dir,) + path) if i is None: i = SCons.Node.FS.find_file (inc + '.di', (source_dir,) + path) return i, include def find_include_names(self, node): includes = [] for iii in self.cre.findall(node.get_text_contents()): for jjj in iii.split(','): kkk = jjj.split('=')[-1] includes.append(kkk.strip()) return includes # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/LaTeX.py0000664000175000017500000004232313202656511021357 0ustar bdbaddogbdbaddog00000000000000"""SCons.Scanner.LaTeX This module implements the dependency scanner for LaTeX code. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Scanner/LaTeX.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import re import SCons.Scanner import SCons.Util # list of graphics file extensions for TeX and LaTeX TexGraphics = ['.eps', '.ps'] #LatexGraphics = ['.pdf', '.png', '.jpg', '.gif', '.tif'] LatexGraphics = [ '.png', '.jpg', '.gif', '.tif'] # Used as a return value of modify_env_var if the variable is not set. class _Null(object): pass _null = _Null # The user specifies the paths in env[variable], similar to other builders. # They may be relative and must be converted to absolute, as expected # by LaTeX and Co. The environment may already have some paths in # env['ENV'][var]. These paths are honored, but the env[var] paths have # higher precedence. All changes are un-done on exit. def modify_env_var(env, var, abspath): try: save = env['ENV'][var] except KeyError: save = _null env.PrependENVPath(var, abspath) try: if SCons.Util.is_List(env[var]): env.PrependENVPath(var, [os.path.abspath(str(p)) for p in env[var]]) else: # Split at os.pathsep to convert into absolute path env.PrependENVPath(var, [os.path.abspath(p) for p in str(env[var]).split(os.pathsep)]) except KeyError: pass # Convert into a string explicitly to append ":" (without which it won't search system # paths as well). The problem is that env.AppendENVPath(var, ":") # does not work, refuses to append ":" (os.pathsep). if SCons.Util.is_List(env['ENV'][var]): env['ENV'][var] = os.pathsep.join(env['ENV'][var]) # Append the trailing os.pathsep character here to catch the case with no env[var] env['ENV'][var] = env['ENV'][var] + os.pathsep return save class FindENVPathDirs(object): """ A class to bind a specific E{*}PATH variable name to a function that will return all of the E{*}path directories. """ def __init__(self, variable): self.variable = variable def __call__(self, env, dir=None, target=None, source=None, argument=None): import SCons.PathList try: path = env['ENV'][self.variable] except KeyError: return () dir = dir or env.fs._cwd path = SCons.PathList.PathList(path).subst_path(env, target, source) return tuple(dir.Rfindalldirs(path)) def LaTeXScanner(): """ Return a prototype Scanner instance for scanning LaTeX source files when built with latex. """ ds = LaTeX(name = "LaTeXScanner", suffixes = '$LATEXSUFFIXES', # in the search order, see below in LaTeX class docstring graphics_extensions = TexGraphics, recursive = 0) return ds def PDFLaTeXScanner(): """ Return a prototype Scanner instance for scanning LaTeX source files when built with pdflatex. """ ds = LaTeX(name = "PDFLaTeXScanner", suffixes = '$LATEXSUFFIXES', # in the search order, see below in LaTeX class docstring graphics_extensions = LatexGraphics, recursive = 0) return ds class LaTeX(SCons.Scanner.Base): """ Class for scanning LaTeX files for included files. Unlike most scanners, which use regular expressions that just return the included file name, this returns a tuple consisting of the keyword for the inclusion ("include", "includegraphics", "input", or "bibliography"), and then the file name itself. Based on a quick look at LaTeX documentation, it seems that we should append .tex suffix for the "include" keywords, append .tex if there is no extension for the "input" keyword, and need to add .bib for the "bibliography" keyword that does not accept extensions by itself. Finally, if there is no extension for an "includegraphics" keyword latex will append .ps or .eps to find the file, while pdftex may use .pdf, .jpg, .tif, .mps, or .png. The actual subset and search order may be altered by DeclareGraphicsExtensions command. This complication is ignored. The default order corresponds to experimentation with teTeX:: $ latex --version pdfeTeX 3.141592-1.21a-2.2 (Web2C 7.5.4) kpathsea version 3.5.4 The order is: ['.eps', '.ps'] for latex ['.png', '.pdf', '.jpg', '.tif']. Another difference is that the search path is determined by the type of the file being searched: env['TEXINPUTS'] for "input" and "include" keywords env['TEXINPUTS'] for "includegraphics" keyword env['TEXINPUTS'] for "lstinputlisting" keyword env['BIBINPUTS'] for "bibliography" keyword env['BSTINPUTS'] for "bibliographystyle" keyword env['INDEXSTYLE'] for "makeindex" keyword, no scanning support needed just allows user to set it if needed. FIXME: also look for the class or style in document[class|style]{} FIXME: also look for the argument of bibliographystyle{} """ keyword_paths = {'include': 'TEXINPUTS', 'input': 'TEXINPUTS', 'includegraphics': 'TEXINPUTS', 'bibliography': 'BIBINPUTS', 'bibliographystyle': 'BSTINPUTS', 'addbibresource': 'BIBINPUTS', 'addglobalbib': 'BIBINPUTS', 'addsectionbib': 'BIBINPUTS', 'makeindex': 'INDEXSTYLE', 'usepackage': 'TEXINPUTS', 'lstinputlisting': 'TEXINPUTS'} env_variables = SCons.Util.unique(list(keyword_paths.values())) two_arg_commands = ['import', 'subimport', 'includefrom', 'subincludefrom', 'inputfrom', 'subinputfrom'] def __init__(self, name, suffixes, graphics_extensions, *args, **kw): # We have to include \n with the % we exclude from the first part # part of the regex because the expression is compiled with re.M. # Without the \n, the ^ could match the beginning of a *previous* # line followed by one or more newline characters (i.e. blank # lines), interfering with a match on the next line. # add option for whitespace before the '[options]' or the '{filename}' regex = r''' ^[^%\n]* \\( include | includegraphics(?:\s*\[[^\]]+\])? | lstinputlisting(?:\[[^\]]+\])? | input | import | subimport | includefrom | subincludefrom | inputfrom | subinputfrom | bibliography | addbibresource | addglobalbib | addsectionbib | usepackage ) \s*{([^}]*)} # first arg (?: \s*{([^}]*)} )? # maybe another arg ''' self.cre = re.compile(regex, re.M | re.X) self.comment_re = re.compile(r'^((?:(?:\\%)|[^%\n])*)(.*)$', re.M) self.graphics_extensions = graphics_extensions def _scan(node, env, path=(), self=self): node = node.rfile() if not node.exists(): return [] return self.scan_recurse(node, path) class FindMultiPathDirs(object): """The stock FindPathDirs function has the wrong granularity: it is called once per target, while we need the path that depends on what kind of included files is being searched. This wrapper hides multiple instances of FindPathDirs, one per the LaTeX path variable in the environment. When invoked, the function calculates and returns all the required paths as a dictionary (converted into a tuple to become hashable). Then the scan function converts it back and uses a dictionary of tuples rather than a single tuple of paths. """ def __init__(self, dictionary): self.dictionary = {} for k,n in dictionary.items(): self.dictionary[k] = ( SCons.Scanner.FindPathDirs(n), FindENVPathDirs(n) ) def __call__(self, env, dir=None, target=None, source=None, argument=None): di = {} for k,(c,cENV) in self.dictionary.items(): di[k] = ( c(env, dir=None, target=None, source=None, argument=None) , cENV(env, dir=None, target=None, source=None, argument=None) ) # To prevent "dict is not hashable error" return tuple(di.items()) class LaTeXScanCheck(object): """Skip all but LaTeX source files, i.e., do not scan *.eps, *.pdf, *.jpg, etc. """ def __init__(self, suffixes): self.suffixes = suffixes def __call__(self, node, env): current = not node.has_builder() or node.is_up_to_date() scannable = node.get_suffix() in env.subst_list(self.suffixes)[0] # Returning false means that the file is not scanned. return scannable and current kw['function'] = _scan kw['path_function'] = FindMultiPathDirs(LaTeX.keyword_paths) kw['recursive'] = 0 kw['skeys'] = suffixes kw['scan_check'] = LaTeXScanCheck(suffixes) kw['name'] = name SCons.Scanner.Base.__init__(self, *args, **kw) def _latex_names(self, include_type, filename): if include_type == 'input': base, ext = os.path.splitext( filename ) if ext == "": return [filename + '.tex'] if include_type in ('include', 'import', 'subimport', 'includefrom', 'subincludefrom', 'inputfrom', 'subinputfrom'): base, ext = os.path.splitext( filename ) if ext == "": return [filename + '.tex'] if include_type == 'bibliography': base, ext = os.path.splitext( filename ) if ext == "": return [filename + '.bib'] if include_type == 'usepackage': base, ext = os.path.splitext( filename ) if ext == "": return [filename + '.sty'] if include_type == 'includegraphics': base, ext = os.path.splitext( filename ) if ext == "": #return [filename+e for e in self.graphics_extensions + TexGraphics] # use the line above to find dependencies for the PDF builder # when only an .eps figure is present. Since it will be found # if the user tells scons how to make the pdf figure, leave # it out for now. return [filename+e for e in self.graphics_extensions] return [filename] def sort_key(self, include): return SCons.Node.FS._my_normcase(str(include)) def find_include(self, include, source_dir, path): inc_type, inc_subdir, inc_filename = include try: sub_paths = path[inc_type] except (IndexError, KeyError): sub_paths = ((), ()) try_names = self._latex_names(inc_type, inc_filename) # There are three search paths to try: # 1. current directory "source_dir" # 2. env[var] # 3. env['ENV'][var] search_paths = [(source_dir,)] + list(sub_paths) for n in try_names: for search_path in search_paths: paths = tuple([d.Dir(inc_subdir) for d in search_path]) i = SCons.Node.FS.find_file(n, paths) if i: return i, include return None, include def canonical_text(self, text): """Standardize an input TeX-file contents. Currently: * removes comments, unwrapping comment-wrapped lines. """ out = [] line_continues_a_comment = False for line in text.splitlines(): line,comment = self.comment_re.findall(line)[0] if line_continues_a_comment == True: out[-1] = out[-1] + line.lstrip() else: out.append(line) line_continues_a_comment = len(comment) > 0 return '\n'.join(out).rstrip()+'\n' def scan(self, node, subdir='.'): # Modify the default scan function to allow for the regular # expression to return a comma separated list of file names # as can be the case with the bibliography keyword. # Cache the includes list in node so we only scan it once: # path_dict = dict(list(path)) # add option for whitespace (\s) before the '[' noopt_cre = re.compile('\s*\[.*$') if node.includes != None: includes = node.includes else: text = self.canonical_text(node.get_text_contents()) includes = self.cre.findall(text) # 1. Split comma-separated lines, e.g. # ('bibliography', 'phys,comp') # should become two entries # ('bibliography', 'phys') # ('bibliography', 'comp') # 2. Remove the options, e.g., such as # ('includegraphics[clip,width=0.7\\linewidth]', 'picture.eps') # should become # ('includegraphics', 'picture.eps') split_includes = [] for include in includes: inc_type = noopt_cre.sub('', include[0]) inc_subdir = subdir if inc_type in self.two_arg_commands: inc_subdir = os.path.join(subdir, include[1]) inc_list = include[2].split(',') else: inc_list = include[1].split(',') for j in range(len(inc_list)): split_includes.append( (inc_type, inc_subdir, inc_list[j]) ) # includes = split_includes node.includes = includes return includes def scan_recurse(self, node, path=()): """ do a recursive scan of the top level target file This lets us search for included files based on the directory of the main file just as latex does""" path_dict = dict(list(path)) queue = [] queue.extend( self.scan(node) ) seen = {} # This is a hand-coded DSU (decorate-sort-undecorate, or # Schwartzian transform) pattern. The sort key is the raw name # of the file as specifed on the \include, \input, etc. line. # TODO: what about the comment in the original Classic scanner: # """which lets # us keep the sort order constant regardless of whether the file # is actually found in a Repository or locally.""" nodes = [] source_dir = node.get_dir() #for include in includes: while queue: include = queue.pop() inc_type, inc_subdir, inc_filename = include try: if seen[inc_filename] == 1: continue except KeyError: seen[inc_filename] = 1 # # Handle multiple filenames in include[1] # n, i = self.find_include(include, source_dir, path_dict) if n is None: # Do not bother with 'usepackage' warnings, as they most # likely refer to system-level files if inc_type != 'usepackage': SCons.Warnings.warn(SCons.Warnings.DependencyWarning, "No dependency generated for file: %s (included from: %s) -- file not found" % (i, node)) else: sortkey = self.sort_key(n) nodes.append((sortkey, n)) # recurse down queue.extend( self.scan(n, inc_subdir) ) return [pair[1] for pair in sorted(nodes)] # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/RC.py0000664000175000017500000000442613202656511020710 0ustar bdbaddogbdbaddog00000000000000"""SCons.Scanner.RC This module implements the dependency scanner for RC (Interface Definition Language) files. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Scanner/RC.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import re import SCons.Node.FS import SCons.Scanner def no_tlb(nodes): """ Filter out .tlb files as they are binary and shouldn't be scanned """ # print("Nodes:%s"%[str(n) for n in nodes]) return [n for n in nodes if str(n)[-4:] != '.tlb'] def RCScan(): """Return a prototype Scanner instance for scanning RC source files""" res_re= r'^(?:\s*#\s*(?:include)|' \ '.*?\s+(?:ICON|BITMAP|CURSOR|HTML|FONT|MESSAGETABLE|TYPELIB|REGISTRY|D3DFX)' \ '\s*.*?)' \ '\s*(<|"| )([^>"\s]+)(?:[>"\s])*$' resScanner = SCons.Scanner.ClassicCPP("ResourceScanner", "$RCSUFFIXES", "CPPPATH", res_re, recursive=no_tlb) return resScanner # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/Fortran.py0000664000175000017500000003400113202656511022007 0ustar bdbaddogbdbaddog00000000000000"""SCons.Scanner.Fortran This module implements the dependency scanner for Fortran code. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Scanner/Fortran.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import re import SCons.Node import SCons.Node.FS import SCons.Scanner import SCons.Util import SCons.Warnings class F90Scanner(SCons.Scanner.Classic): """ A Classic Scanner subclass for Fortran source files which takes into account both USE and INCLUDE statements. This scanner will work for both F77 and F90 (and beyond) compilers. Currently, this scanner assumes that the include files do not contain USE statements. To enable the ability to deal with USE statements in include files, add logic right after the module names are found to loop over each include file, search for and locate each USE statement, and append each module name to the list of dependencies. Caching the search results in a common dictionary somewhere so that the same include file is not searched multiple times would be a smart thing to do. """ def __init__(self, name, suffixes, path_variable, use_regex, incl_regex, def_regex, *args, **kw): self.cre_use = re.compile(use_regex, re.M) self.cre_incl = re.compile(incl_regex, re.M) self.cre_def = re.compile(def_regex, re.M) def _scan(node, env, path, self=self): node = node.rfile() if not node.exists(): return [] return self.scan(node, env, path) kw['function'] = _scan kw['path_function'] = SCons.Scanner.FindPathDirs(path_variable) kw['recursive'] = 1 kw['skeys'] = suffixes kw['name'] = name SCons.Scanner.Current.__init__(self, *args, **kw) def scan(self, node, env, path=()): # cache the includes list in node so we only scan it once: if node.includes != None: mods_and_includes = node.includes else: # retrieve all included filenames includes = self.cre_incl.findall(node.get_text_contents()) # retrieve all USE'd module names modules = self.cre_use.findall(node.get_text_contents()) # retrieve all defined module names defmodules = self.cre_def.findall(node.get_text_contents()) # Remove all USE'd module names that are defined in the same file # (case-insensitively) d = {} for m in defmodules: d[m.lower()] = 1 modules = [m for m in modules if m.lower() not in d] # Convert module name to a .mod filename suffix = env.subst('$FORTRANMODSUFFIX') modules = [x.lower() + suffix for x in modules] # Remove unique items from the list mods_and_includes = SCons.Util.unique(includes+modules) node.includes = mods_and_includes # This is a hand-coded DSU (decorate-sort-undecorate, or # Schwartzian transform) pattern. The sort key is the raw name # of the file as specifed on the USE or INCLUDE line, which lets # us keep the sort order constant regardless of whether the file # is actually found in a Repository or locally. nodes = [] source_dir = node.get_dir() if callable(path): path = path() for dep in mods_and_includes: n, i = self.find_include(dep, source_dir, path) if n is None: SCons.Warnings.warn(SCons.Warnings.DependencyWarning, "No dependency generated for file: %s (referenced by: %s) -- file not found" % (i, node)) else: sortkey = self.sort_key(dep) nodes.append((sortkey, n)) return [pair[1] for pair in sorted(nodes)] def FortranScan(path_variable="FORTRANPATH"): """Return a prototype Scanner instance for scanning source files for Fortran USE & INCLUDE statements""" # The USE statement regex matches the following: # # USE module_name # USE :: module_name # USE, INTRINSIC :: module_name # USE, NON_INTRINSIC :: module_name # # Limitations # # -- While the regex can handle multiple USE statements on one line, # it cannot properly handle them if they are commented out. # In either of the following cases: # # ! USE mod_a ; USE mod_b [entire line is commented out] # USE mod_a ! ; USE mod_b [in-line comment of second USE statement] # # the second module name (mod_b) will be picked up as a dependency # even though it should be ignored. The only way I can see # to rectify this would be to modify the scanner to eliminate # the call to re.findall, read in the contents of the file, # treating the comment character as an end-of-line character # in addition to the normal linefeed, loop over each line, # weeding out the comments, and looking for the USE statements. # One advantage to this is that the regex passed to the scanner # would no longer need to match a semicolon. # # -- I question whether or not we need to detect dependencies to # INTRINSIC modules because these are built-in to the compiler. # If we consider them a dependency, will SCons look for them, not # find them, and kill the build? Or will we there be standard # compiler-specific directories we will need to point to so the # compiler and SCons can locate the proper object and mod files? # Here is a breakdown of the regex: # # (?i) : regex is case insensitive # ^ : start of line # (?: : group a collection of regex symbols without saving the match as a "group" # ^|; : matches either the start of the line or a semicolon - semicolon # ) : end the unsaved grouping # \s* : any amount of white space # USE : match the string USE, case insensitive # (?: : group a collection of regex symbols without saving the match as a "group" # \s+| : match one or more whitespace OR .... (the next entire grouped set of regex symbols) # (?: : group a collection of regex symbols without saving the match as a "group" # (?: : establish another unsaved grouping of regex symbols # \s* : any amount of white space # , : match a comma # \s* : any amount of white space # (?:NON_)? : optionally match the prefix NON_, case insensitive # INTRINSIC : match the string INTRINSIC, case insensitive # )? : optionally match the ", INTRINSIC/NON_INTRINSIC" grouped expression # \s* : any amount of white space # :: : match a double colon that must appear after the INTRINSIC/NON_INTRINSIC attribute # ) : end the unsaved grouping # ) : end the unsaved grouping # \s* : match any amount of white space # (\w+) : match the module name that is being USE'd # # use_regex = "(?i)(?:^|;)\s*USE(?:\s+|(?:(?:\s*,\s*(?:NON_)?INTRINSIC)?\s*::))\s*(\w+)" # The INCLUDE statement regex matches the following: # # INCLUDE 'some_Text' # INCLUDE "some_Text" # INCLUDE "some_Text" ; INCLUDE "some_Text" # INCLUDE kind_"some_Text" # INCLUDE kind_'some_Text" # # where some_Text can include any alphanumeric and/or special character # as defined by the Fortran 2003 standard. # # Limitations: # # -- The Fortran standard dictates that a " or ' in the INCLUDE'd # string must be represented as a "" or '', if the quotes that wrap # the entire string are either a ' or ", respectively. While the # regular expression below can detect the ' or " characters just fine, # the scanning logic, presently is unable to detect them and reduce # them to a single instance. This probably isn't an issue since, # in practice, ' or " are not generally used in filenames. # # -- This regex will not properly deal with multiple INCLUDE statements # when the entire line has been commented out, ala # # ! INCLUDE 'some_file' ; INCLUDE 'some_file' # # In such cases, it will properly ignore the first INCLUDE file, # but will actually still pick up the second. Interestingly enough, # the regex will properly deal with these cases: # # INCLUDE 'some_file' # INCLUDE 'some_file' !; INCLUDE 'some_file' # # To get around the above limitation, the FORTRAN programmer could # simply comment each INCLUDE statement separately, like this # # ! INCLUDE 'some_file' !; INCLUDE 'some_file' # # The way I see it, the only way to get around this limitation would # be to modify the scanning logic to replace the calls to re.findall # with a custom loop that processes each line separately, throwing # away fully commented out lines before attempting to match against # the INCLUDE syntax. # # Here is a breakdown of the regex: # # (?i) : regex is case insensitive # (?: : begin a non-saving group that matches the following: # ^ : either the start of the line # | : or # ['">]\s*; : a semicolon that follows a single quote, # double quote or greater than symbol (with any # amount of whitespace in between). This will # allow the regex to match multiple INCLUDE # statements per line (although it also requires # the positive lookahead assertion that is # used below). It will even properly deal with # (i.e. ignore) cases in which the additional # INCLUDES are part of an in-line comment, ala # " INCLUDE 'someFile' ! ; INCLUDE 'someFile2' " # ) : end of non-saving group # \s* : any amount of white space # INCLUDE : match the string INCLUDE, case insensitive # \s+ : match one or more white space characters # (?\w+_)? : match the optional "kind-param _" prefix allowed by the standard # [<"'] : match the include delimiter - an apostrophe, double quote, or less than symbol # (.+?) : match one or more characters that make up # the included path and file name and save it # in a group. The Fortran standard allows for # any non-control character to be used. The dot # operator will pick up any character, including # control codes, but I can't conceive of anyone # putting control codes in their file names. # The question mark indicates it is non-greedy so # that regex will match only up to the next quote, # double quote, or greater than symbol # (?=["'>]) : positive lookahead assertion to match the include # delimiter - an apostrophe, double quote, or # greater than symbol. This level of complexity # is required so that the include delimiter is # not consumed by the match, thus allowing the # sub-regex discussed above to uniquely match a # set of semicolon-separated INCLUDE statements # (as allowed by the F2003 standard) include_regex = """(?i)(?:^|['">]\s*;)\s*INCLUDE\s+(?:\w+_)?[<"'](.+?)(?=["'>])""" # The MODULE statement regex finds module definitions by matching # the following: # # MODULE module_name # # but *not* the following: # # MODULE PROCEDURE procedure_name # # Here is a breakdown of the regex: # # (?i) : regex is case insensitive # ^\s* : any amount of white space # MODULE : match the string MODULE, case insensitive # \s+ : match one or more white space characters # (?!PROCEDURE) : but *don't* match if the next word matches # PROCEDURE (negative lookahead assertion), # case insensitive # (\w+) : match one or more alphanumeric characters # that make up the defined module name and # save it in a group def_regex = """(?i)^\s*MODULE\s+(?!PROCEDURE)(\w+)""" scanner = F90Scanner("FortranScan", "$FORTRANSUFFIXES", path_variable, use_regex, include_regex, def_regex) return scanner # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/SWIG.py0000664000175000017500000000322013202656511021144 0ustar bdbaddogbdbaddog00000000000000"""SCons.Scanner.SWIG This module implements the dependency scanner for SWIG code. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Scanner/SWIG.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Scanner SWIGSuffixes = [ '.i' ] def SWIGScanner(): expr = '^[ \t]*%[ \t]*(?:include|import|extern)[ \t]*(<|"?)([^>\s"]+)(?:>|"?)' scanner = SCons.Scanner.ClassicCPP("SWIGScanner", ".i", "SWIGPATH", expr) return scanner # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/IDL.py0000664000175000017500000000347313202656511021015 0ustar bdbaddogbdbaddog00000000000000"""SCons.Scanner.IDL This module implements the dependency scanner for IDL (Interface Definition Language) files. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Scanner/IDL.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Node.FS import SCons.Scanner def IDLScan(): """Return a prototype Scanner instance for scanning IDL source files""" cs = SCons.Scanner.ClassicCPP("IDLScan", "$IDLSUFFIXES", "CPPPATH", '^[ \t]*(?:#[ \t]*include|[ \t]*import)[ \t]+(<|")([^>"]+)(>|")') return cs # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Scanner/__init__.py0000664000175000017500000003531613202656511022145 0ustar bdbaddogbdbaddog00000000000000"""SCons.Scanner The Scanner package for the SCons software construction utility. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Scanner/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import re import SCons.Node.FS import SCons.Util class _Null(object): pass # This is used instead of None as a default argument value so None can be # used as an actual argument value. _null = _Null def Scanner(function, *args, **kw): """ Public interface factory function for creating different types of Scanners based on the different types of "functions" that may be supplied. TODO: Deprecate this some day. We've moved the functionality inside the Base class and really don't need this factory function any more. It was, however, used by some of our Tool modules, so the call probably ended up in various people's custom modules patterned on SCons code. """ if SCons.Util.is_Dict(function): return Selector(function, *args, **kw) else: return Base(function, *args, **kw) class FindPathDirs(object): """ A class to bind a specific E{*}PATH variable name to a function that will return all of the E{*}path directories. """ def __init__(self, variable): self.variable = variable def __call__(self, env, dir=None, target=None, source=None, argument=None): import SCons.PathList try: path = env[self.variable] except KeyError: return () dir = dir or env.fs._cwd path = SCons.PathList.PathList(path).subst_path(env, target, source) return tuple(dir.Rfindalldirs(path)) class Base(object): """ The base class for dependency scanners. This implements straightforward, single-pass scanning of a single file. """ def __init__(self, function, name = "NONE", argument = _null, skeys = _null, path_function = None, # Node.FS.Base so that, by default, it's okay for a # scanner to return a Dir, File or Entry. node_class = SCons.Node.FS.Base, node_factory = None, scan_check = None, recursive = None): """ Construct a new scanner object given a scanner function. 'function' - a scanner function taking two or three arguments and returning a list of strings. 'name' - a name for identifying this scanner object. 'argument' - an optional argument that, if specified, will be passed to both the scanner function and the path_function. 'skeys' - an optional list argument that can be used to determine which scanner should be used for a given Node. In the case of File nodes, for example, the 'skeys' would be file suffixes. 'path_function' - a function that takes four or five arguments (a construction environment, Node for the directory containing the SConscript file that defined the primary target, list of target nodes, list of source nodes, and optional argument for this instance) and returns a tuple of the directories that can be searched for implicit dependency files. May also return a callable() which is called with no args and returns the tuple (supporting Bindable class). 'node_class' - the class of Nodes which this scan will return. If node_class is None, then this scanner will not enforce any Node conversion and will return the raw results from the underlying scanner function. 'node_factory' - the factory function to be called to translate the raw results returned by the scanner function into the expected node_class objects. 'scan_check' - a function to be called to first check whether this node really needs to be scanned. 'recursive' - specifies that this scanner should be invoked recursively on all of the implicit dependencies it returns (the canonical example being #include lines in C source files). May be a callable, which will be called to filter the list of nodes found to select a subset for recursive scanning (the canonical example being only recursively scanning subdirectories within a directory). The scanner function's first argument will be a Node that should be scanned for dependencies, the second argument will be an Environment object, the third argument will be the tuple of paths returned by the path_function, and the fourth argument will be the value passed into 'argument', and the returned list should contain the Nodes for all the direct dependencies of the file. Examples: s = Scanner(my_scanner_function) s = Scanner(function = my_scanner_function) s = Scanner(function = my_scanner_function, argument = 'foo') """ # Note: this class could easily work with scanner functions that take # something other than a filename as an argument (e.g. a database # node) and a dependencies list that aren't file names. All that # would need to be changed is the documentation. self.function = function self.path_function = path_function self.name = name self.argument = argument if skeys is _null: if SCons.Util.is_Dict(function): skeys = list(function.keys()) else: skeys = [] self.skeys = skeys self.node_class = node_class self.node_factory = node_factory self.scan_check = scan_check if callable(recursive): self.recurse_nodes = recursive elif recursive: self.recurse_nodes = self._recurse_all_nodes else: self.recurse_nodes = self._recurse_no_nodes def path(self, env, dir=None, target=None, source=None): if not self.path_function: return () if self.argument is not _null: return self.path_function(env, dir, target, source, self.argument) else: return self.path_function(env, dir, target, source) def __call__(self, node, env, path=()): """ This method scans a single object. 'node' is the node that will be passed to the scanner function, and 'env' is the environment that will be passed to the scanner function. A list of direct dependency nodes for the specified node will be returned. """ if self.scan_check and not self.scan_check(node, env): return [] self = self.select(node) if not self.argument is _null: node_list = self.function(node, env, path, self.argument) else: node_list = self.function(node, env, path) kw = {} if hasattr(node, 'dir'): kw['directory'] = node.dir node_factory = env.get_factory(self.node_factory) nodes = [] for l in node_list: if self.node_class and not isinstance(l, self.node_class): l = node_factory(l, **kw) nodes.append(l) return nodes def __eq__(self, other): try: return self.__dict__ == other.__dict__ except AttributeError: # other probably doesn't have a __dict__ return self.__dict__ == other def __hash__(self): return id(self) def __str__(self): return self.name def add_skey(self, skey): """Add a skey to the list of skeys""" self.skeys.append(skey) def get_skeys(self, env=None): if env and SCons.Util.is_String(self.skeys): return env.subst_list(self.skeys)[0] return self.skeys def select(self, node): if SCons.Util.is_Dict(self.function): key = node.scanner_key() try: return self.function[key] except KeyError: return None else: return self def _recurse_all_nodes(self, nodes): return nodes def _recurse_no_nodes(self, nodes): return [] # recurse_nodes = _recurse_no_nodes def add_scanner(self, skey, scanner): self.function[skey] = scanner self.add_skey(skey) class Selector(Base): """ A class for selecting a more specific scanner based on the scanner_key() (suffix) for a specific Node. TODO: This functionality has been moved into the inner workings of the Base class, and this class will be deprecated at some point. (It was never exposed directly as part of the public interface, although it is used by the Scanner() factory function that was used by various Tool modules and therefore was likely a template for custom modules that may be out there.) """ def __init__(self, dict, *args, **kw): Base.__init__(self, None, *args, **kw) self.dict = dict self.skeys = list(dict.keys()) def __call__(self, node, env, path=()): return self.select(node)(node, env, path) def select(self, node): try: return self.dict[node.scanner_key()] except KeyError: return None def add_scanner(self, skey, scanner): self.dict[skey] = scanner self.add_skey(skey) class Current(Base): """ A class for scanning files that are source files (have no builder) or are derived files and are current (which implies that they exist, either locally or in a repository). """ def __init__(self, *args, **kw): def current_check(node, env): return not node.has_builder() or node.is_up_to_date() kw['scan_check'] = current_check Base.__init__(self, *args, **kw) class Classic(Current): """ A Scanner subclass to contain the common logic for classic CPP-style include scanning, but which can be customized to use different regular expressions to find the includes. Note that in order for this to work "out of the box" (without overriding the find_include() and sort_key() methods), the regular expression passed to the constructor must return the name of the include file in group 0. """ def __init__(self, name, suffixes, path_variable, regex, *args, **kw): self.cre = re.compile(regex, re.M) def _scan(node, _, path=(), self=self): node = node.rfile() if not node.exists(): return [] return self.scan(node, path) kw['function'] = _scan kw['path_function'] = FindPathDirs(path_variable) # Allow recursive to propagate if child class specifies. # In this case resource scanner needs to specify a filter on which files # get recursively processed. Previously was hardcoded to 1 instead of # defaulted to 1. kw['recursive'] = kw.get('recursive', 1) kw['skeys'] = suffixes kw['name'] = name Current.__init__(self, *args, **kw) def find_include(self, include, source_dir, path): n = SCons.Node.FS.find_file(include, (source_dir,) + tuple(path)) return n, include def sort_key(self, include): return SCons.Node.FS._my_normcase(include) def find_include_names(self, node): return self.cre.findall(node.get_text_contents()) def scan(self, node, path=()): # cache the includes list in node so we only scan it once: if node.includes is not None: includes = node.includes else: includes = self.find_include_names(node) # Intern the names of the include files. Saves some memory # if the same header is included many times. node.includes = list(map(SCons.Util.silent_intern, includes)) # This is a hand-coded DSU (decorate-sort-undecorate, or # Schwartzian transform) pattern. The sort key is the raw name # of the file as specifed on the #include line (including the # " or <, since that may affect what file is found), which lets # us keep the sort order constant regardless of whether the file # is actually found in a Repository or locally. nodes = [] source_dir = node.get_dir() if callable(path): path = path() for include in includes: n, i = self.find_include(include, source_dir, path) if n is None: SCons.Warnings.warn(SCons.Warnings.DependencyWarning, "No dependency generated for file: %s (included from: %s) -- file not found" % (i, node)) else: nodes.append((self.sort_key(include), n)) return [pair[1] for pair in sorted(nodes)] class ClassicCPP(Classic): """ A Classic Scanner subclass which takes into account the type of bracketing used to include the file, and uses classic CPP rules for searching for the files based on the bracketing. Note that in order for this to work, the regular expression passed to the constructor must return the leading bracket in group 0, and the contained filename in group 1. """ def find_include(self, include, source_dir, path): include = list(map(SCons.Util.to_str, include)) if include[0] == '"': paths = (source_dir,) + tuple(path) else: paths = tuple(path) + (source_dir,) n = SCons.Node.FS.find_file(include[1], paths) i = SCons.Util.silent_intern(include[1]) return n, i def sort_key(self, include): return SCons.Node.FS._my_normcase(' '.join(include)) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Taskmaster.py0000664000175000017500000012114113202656511021123 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import print_function import sys __doc__ = """ Generic Taskmaster module for the SCons build engine. ===================================================== This module contains the primary interface(s) between a wrapping user interface and the SCons build engine. There are two key classes here: Taskmaster ---------- This is the main engine for walking the dependency graph and calling things to decide what does or doesn't need to be built. Task ---- This is the base class for allowing a wrapping interface to decide what does or doesn't actually need to be done. The intention is for a wrapping interface to subclass this as appropriate for different types of behavior it may need. The canonical example is the SCons native Python interface, which has Task subclasses that handle its specific behavior, like printing "'foo' is up to date" when a top-level target doesn't need to be built, and handling the -c option by removing targets as its "build" action. There is also a separate subclass for suppressing this output when the -q option is used. The Taskmaster instantiates a Task object for each (set of) target(s) that it decides need to be evaluated and/or built. """ __revision__ = "src/engine/SCons/Taskmaster.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from itertools import chain import operator import sys import traceback import SCons.Errors import SCons.Node import SCons.Warnings StateString = SCons.Node.StateString NODE_NO_STATE = SCons.Node.no_state NODE_PENDING = SCons.Node.pending NODE_EXECUTING = SCons.Node.executing NODE_UP_TO_DATE = SCons.Node.up_to_date NODE_EXECUTED = SCons.Node.executed NODE_FAILED = SCons.Node.failed print_prepare = 0 # set by option --debug=prepare # A subsystem for recording stats about how different Nodes are handled by # the main Taskmaster loop. There's no external control here (no need for # a --debug= option); enable it by changing the value of CollectStats. CollectStats = None class Stats(object): """ A simple class for holding statistics about the disposition of a Node by the Taskmaster. If we're collecting statistics, each Node processed by the Taskmaster gets one of these attached, in which case the Taskmaster records its decision each time it processes the Node. (Ideally, that's just once per Node.) """ def __init__(self): """ Instantiates a Taskmaster.Stats object, initializing all appropriate counters to zero. """ self.considered = 0 self.already_handled = 0 self.problem = 0 self.child_failed = 0 self.not_built = 0 self.side_effects = 0 self.build = 0 StatsNodes = [] fmt = "%(considered)3d "\ "%(already_handled)3d " \ "%(problem)3d " \ "%(child_failed)3d " \ "%(not_built)3d " \ "%(side_effects)3d " \ "%(build)3d " def dump_stats(): for n in sorted(StatsNodes, key=lambda a: str(a)): print((fmt % n.attributes.stats.__dict__) + str(n)) class Task(object): """ Default SCons build engine task. This controls the interaction of the actual building of node and the rest of the engine. This is expected to handle all of the normally-customizable aspects of controlling a build, so any given application *should* be able to do what it wants by sub-classing this class and overriding methods as appropriate. If an application needs to customize something by sub-classing Taskmaster (or some other build engine class), we should first try to migrate that functionality into this class. Note that it's generally a good idea for sub-classes to call these methods explicitly to update state, etc., rather than roll their own interaction with Taskmaster from scratch. """ def __init__(self, tm, targets, top, node): self.tm = tm self.targets = targets self.top = top self.node = node self.exc_clear() def trace_message(self, method, node, description='node'): fmt = '%-20s %s %s\n' return fmt % (method + ':', description, self.tm.trace_node(node)) def display(self, message): """ Hook to allow the calling interface to display a message. This hook gets called as part of preparing a task for execution (that is, a Node to be built). As part of figuring out what Node should be built next, the actual target list may be altered, along with a message describing the alteration. The calling interface can subclass Task and provide a concrete implementation of this method to see those messages. """ pass def prepare(self): """ Called just before the task is executed. This is mainly intended to give the target Nodes a chance to unlink underlying files and make all necessary directories before the Action is actually called to build the targets. """ global print_prepare T = self.tm.trace if T: T.write(self.trace_message(u'Task.prepare()', self.node)) # Now that it's the appropriate time, give the TaskMaster a # chance to raise any exceptions it encountered while preparing # this task. self.exception_raise() if self.tm.message: self.display(self.tm.message) self.tm.message = None # Let the targets take care of any necessary preparations. # This includes verifying that all of the necessary sources # and dependencies exist, removing the target file(s), etc. # # As of April 2008, the get_executor().prepare() method makes # sure that all of the aggregate sources necessary to build this # Task's target(s) exist in one up-front check. The individual # target t.prepare() methods check that each target's explicit # or implicit dependencies exists, and also initialize the # .sconsign info. executor = self.targets[0].get_executor() if executor is None: return executor.prepare() for t in executor.get_action_targets(): if print_prepare: print("Preparing target %s..."%t) for s in t.side_effects: print("...with side-effect %s..."%s) t.prepare() for s in t.side_effects: if print_prepare: print("...Preparing side-effect %s..."%s) s.prepare() def get_target(self): """Fetch the target being built or updated by this task. """ return self.node def needs_execute(self): # TODO(deprecate): "return True" is the old default behavior; # change it to NotImplementedError (after running through the # Deprecation Cycle) so the desired behavior is explicitly # determined by which concrete subclass is used. #raise NotImplementedError msg = ('Taskmaster.Task is an abstract base class; instead of\n' '\tusing it directly, ' 'derive from it and override the abstract methods.') SCons.Warnings.warn(SCons.Warnings.TaskmasterNeedsExecuteWarning, msg) return True def execute(self): """ Called to execute the task. This method is called from multiple threads in a parallel build, so only do thread safe stuff here. Do thread unsafe stuff in prepare(), executed() or failed(). """ T = self.tm.trace if T: T.write(self.trace_message(u'Task.execute()', self.node)) try: cached_targets = [] for t in self.targets: if not t.retrieve_from_cache(): break cached_targets.append(t) if len(cached_targets) < len(self.targets): # Remove targets before building. It's possible that we # partially retrieved targets from the cache, leaving # them in read-only mode. That might cause the command # to fail. # for t in cached_targets: try: t.fs.unlink(t.get_internal_path()) except (IOError, OSError): pass self.targets[0].build() else: for t in cached_targets: t.cached = 1 except SystemExit: exc_value = sys.exc_info()[1] raise SCons.Errors.ExplicitExit(self.targets[0], exc_value.code) except SCons.Errors.UserError: raise except SCons.Errors.BuildError: raise except Exception as e: buildError = SCons.Errors.convert_to_BuildError(e) buildError.node = self.targets[0] buildError.exc_info = sys.exc_info() raise buildError def executed_without_callbacks(self): """ Called when the task has been successfully executed and the Taskmaster instance doesn't want to call the Node's callback methods. """ T = self.tm.trace if T: T.write(self.trace_message('Task.executed_without_callbacks()', self.node)) for t in self.targets: if t.get_state() == NODE_EXECUTING: for side_effect in t.side_effects: side_effect.set_state(NODE_NO_STATE) t.set_state(NODE_EXECUTED) def executed_with_callbacks(self): """ Called when the task has been successfully executed and the Taskmaster instance wants to call the Node's callback methods. This may have been a do-nothing operation (to preserve build order), so we must check the node's state before deciding whether it was "built", in which case we call the appropriate Node method. In any event, we always call "visited()", which will handle any post-visit actions that must take place regardless of whether or not the target was an actual built target or a source Node. """ global print_prepare T = self.tm.trace if T: T.write(self.trace_message('Task.executed_with_callbacks()', self.node)) for t in self.targets: if t.get_state() == NODE_EXECUTING: for side_effect in t.side_effects: side_effect.set_state(NODE_NO_STATE) t.set_state(NODE_EXECUTED) if not t.cached: t.push_to_cache() t.built() t.visited() if (not print_prepare and (not hasattr(self, 'options') or not self.options.debug_includes)): t.release_target_info() else: t.visited() executed = executed_with_callbacks def failed(self): """ Default action when a task fails: stop the build. Note: Although this function is normally invoked on nodes in the executing state, it might also be invoked on up-to-date nodes when using Configure(). """ self.fail_stop() def fail_stop(self): """ Explicit stop-the-build failure. This sets failure status on the target nodes and all of their dependent parent nodes. Note: Although this function is normally invoked on nodes in the executing state, it might also be invoked on up-to-date nodes when using Configure(). """ T = self.tm.trace if T: T.write(self.trace_message('Task.failed_stop()', self.node)) # Invoke will_not_build() to clean-up the pending children # list. self.tm.will_not_build(self.targets, lambda n: n.set_state(NODE_FAILED)) # Tell the taskmaster to not start any new tasks self.tm.stop() # We're stopping because of a build failure, but give the # calling Task class a chance to postprocess() the top-level # target under which the build failure occurred. self.targets = [self.tm.current_top] self.top = 1 def fail_continue(self): """ Explicit continue-the-build failure. This sets failure status on the target nodes and all of their dependent parent nodes. Note: Although this function is normally invoked on nodes in the executing state, it might also be invoked on up-to-date nodes when using Configure(). """ T = self.tm.trace if T: T.write(self.trace_message('Task.failed_continue()', self.node)) self.tm.will_not_build(self.targets, lambda n: n.set_state(NODE_FAILED)) def make_ready_all(self): """ Marks all targets in a task ready for execution. This is used when the interface needs every target Node to be visited--the canonical example being the "scons -c" option. """ T = self.tm.trace if T: T.write(self.trace_message('Task.make_ready_all()', self.node)) self.out_of_date = self.targets[:] for t in self.targets: t.disambiguate().set_state(NODE_EXECUTING) for s in t.side_effects: # add disambiguate here to mirror the call on targets above s.disambiguate().set_state(NODE_EXECUTING) def make_ready_current(self): """ Marks all targets in a task ready for execution if any target is not current. This is the default behavior for building only what's necessary. """ global print_prepare T = self.tm.trace if T: T.write(self.trace_message(u'Task.make_ready_current()', self.node)) self.out_of_date = [] needs_executing = False for t in self.targets: try: t.disambiguate().make_ready() is_up_to_date = not t.has_builder() or \ (not t.always_build and t.is_up_to_date()) except EnvironmentError as e: raise SCons.Errors.BuildError(node=t, errstr=e.strerror, filename=e.filename) if not is_up_to_date: self.out_of_date.append(t) needs_executing = True if needs_executing: for t in self.targets: t.set_state(NODE_EXECUTING) for s in t.side_effects: # add disambiguate here to mirror the call on targets in first loop above s.disambiguate().set_state(NODE_EXECUTING) else: for t in self.targets: # We must invoke visited() to ensure that the node # information has been computed before allowing the # parent nodes to execute. (That could occur in a # parallel build...) t.visited() t.set_state(NODE_UP_TO_DATE) if (not print_prepare and (not hasattr(self, 'options') or not self.options.debug_includes)): t.release_target_info() make_ready = make_ready_current def postprocess(self): """ Post-processes a task after it's been executed. This examines all the targets just built (or not, we don't care if the build was successful, or even if there was no build because everything was up-to-date) to see if they have any waiting parent Nodes, or Nodes waiting on a common side effect, that can be put back on the candidates list. """ T = self.tm.trace if T: T.write(self.trace_message(u'Task.postprocess()', self.node)) # We may have built multiple targets, some of which may have # common parents waiting for this build. Count up how many # targets each parent was waiting for so we can subtract the # values later, and so we *don't* put waiting side-effect Nodes # back on the candidates list if the Node is also a waiting # parent. targets = set(self.targets) pending_children = self.tm.pending_children parents = {} for t in targets: # A node can only be in the pending_children set if it has # some waiting_parents. if t.waiting_parents: if T: T.write(self.trace_message(u'Task.postprocess()', t, 'removing')) pending_children.discard(t) for p in t.waiting_parents: parents[p] = parents.get(p, 0) + 1 for t in targets: if t.side_effects is not None: for s in t.side_effects: if s.get_state() == NODE_EXECUTING: s.set_state(NODE_NO_STATE) for p in s.waiting_parents: parents[p] = parents.get(p, 0) + 1 for p in s.waiting_s_e: if p.ref_count == 0: self.tm.candidates.append(p) for p, subtract in parents.items(): p.ref_count = p.ref_count - subtract if T: T.write(self.trace_message(u'Task.postprocess()', p, 'adjusted parent ref count')) if p.ref_count == 0: self.tm.candidates.append(p) for t in targets: t.postprocess() # Exception handling subsystem. # # Exceptions that occur while walking the DAG or examining Nodes # must be raised, but must be raised at an appropriate time and in # a controlled manner so we can, if necessary, recover gracefully, # possibly write out signature information for Nodes we've updated, # etc. This is done by having the Taskmaster tell us about the # exception, and letting def exc_info(self): """ Returns info about a recorded exception. """ return self.exception def exc_clear(self): """ Clears any recorded exception. This also changes the "exception_raise" attribute to point to the appropriate do-nothing method. """ self.exception = (None, None, None) self.exception_raise = self._no_exception_to_raise def exception_set(self, exception=None): """ Records an exception to be raised at the appropriate time. This also changes the "exception_raise" attribute to point to the method that will, in fact """ if not exception: exception = sys.exc_info() self.exception = exception self.exception_raise = self._exception_raise def _no_exception_to_raise(self): pass def _exception_raise(self): """ Raises a pending exception that was recorded while getting a Task ready for execution. """ exc = self.exc_info()[:] try: exc_type, exc_value, exc_traceback = exc except ValueError: exc_type, exc_value = exc exc_traceback = None # raise exc_type(exc_value).with_traceback(exc_traceback) if sys.version_info[0] == 2: exec("raise exc_type, exc_value, exc_traceback") else: # sys.version_info[0] == 3: if isinstance(exc_value, Exception): #hasattr(exc_value, 'with_traceback'): # If exc_value is an exception, then just reraise exec("raise exc_value.with_traceback(exc_traceback)") else: # else we'll create an exception using the value and raise that exec("raise exc_type(exc_value).with_traceback(exc_traceback)") # raise e.__class__, e.__class__(e), sys.exc_info()[2] # exec("raise exc_type(exc_value).with_traceback(exc_traceback)") class AlwaysTask(Task): def needs_execute(self): """ Always returns True (indicating this Task should always be executed). Subclasses that need this behavior (as opposed to the default of only executing Nodes that are out of date w.r.t. their dependencies) can use this as follows: class MyTaskSubclass(SCons.Taskmaster.Task): needs_execute = SCons.Taskmaster.Task.execute_always """ return True class OutOfDateTask(Task): def needs_execute(self): """ Returns True (indicating this Task should be executed) if this Task's target state indicates it needs executing, which has already been determined by an earlier up-to-date check. """ return self.targets[0].get_state() == SCons.Node.executing def find_cycle(stack, visited): if stack[-1] in visited: return None visited.add(stack[-1]) for n in stack[-1].waiting_parents: stack.append(n) if stack[0] == stack[-1]: return stack if find_cycle(stack, visited): return stack stack.pop() return None class Taskmaster(object): """ The Taskmaster for walking the dependency DAG. """ def __init__(self, targets=[], tasker=None, order=None, trace=None): self.original_top = targets self.top_targets_left = targets[:] self.top_targets_left.reverse() self.candidates = [] if tasker is None: tasker = OutOfDateTask self.tasker = tasker if not order: order = lambda l: l self.order = order self.message = None self.trace = trace self.next_candidate = self.find_next_candidate self.pending_children = set() def find_next_candidate(self): """ Returns the next candidate Node for (potential) evaluation. The candidate list (really a stack) initially consists of all of the top-level (command line) targets provided when the Taskmaster was initialized. While we walk the DAG, visiting Nodes, all the children that haven't finished processing get pushed on to the candidate list. Each child can then be popped and examined in turn for whether *their* children are all up-to-date, in which case a Task will be created for their actual evaluation and potential building. Here is where we also allow candidate Nodes to alter the list of Nodes that should be examined. This is used, for example, when invoking SCons in a source directory. A source directory Node can return its corresponding build directory Node, essentially saying, "Hey, you really need to build this thing over here instead." """ try: return self.candidates.pop() except IndexError: pass try: node = self.top_targets_left.pop() except IndexError: return None self.current_top = node alt, message = node.alter_targets() if alt: self.message = message self.candidates.append(node) self.candidates.extend(self.order(alt)) node = self.candidates.pop() return node def no_next_candidate(self): """ Stops Taskmaster processing by not returning a next candidate. Note that we have to clean-up the Taskmaster candidate list because the cycle detection depends on the fact all nodes have been processed somehow. """ while self.candidates: candidates = self.candidates self.candidates = [] self.will_not_build(candidates) return None def _validate_pending_children(self): """ Validate the content of the pending_children set. Assert if an internal error is found. This function is used strictly for debugging the taskmaster by checking that no invariants are violated. It is not used in normal operation. The pending_children set is used to detect cycles in the dependency graph. We call a "pending child" a child that is found in the "pending" state when checking the dependencies of its parent node. A pending child can occur when the Taskmaster completes a loop through a cycle. For example, let's imagine a graph made of three nodes (A, B and C) making a cycle. The evaluation starts at node A. The Taskmaster first considers whether node A's child B is up-to-date. Then, recursively, node B needs to check whether node C is up-to-date. This leaves us with a dependency graph looking like:: Next candidate \ \ Node A (Pending) --> Node B(Pending) --> Node C (NoState) ^ | | | +-------------------------------------+ Now, when the Taskmaster examines the Node C's child Node A, it finds that Node A is in the "pending" state. Therefore, Node A is a pending child of node C. Pending children indicate that the Taskmaster has potentially loop back through a cycle. We say potentially because it could also occur when a DAG is evaluated in parallel. For example, consider the following graph:: Node A (Pending) --> Node B(Pending) --> Node C (Pending) --> ... | ^ | | +----------> Node D (NoState) --------+ / Next candidate / The Taskmaster first evaluates the nodes A, B, and C and starts building some children of node C. Assuming, that the maximum parallel level has not been reached, the Taskmaster will examine Node D. It will find that Node C is a pending child of Node D. In summary, evaluating a graph with a cycle will always involve a pending child at one point. A pending child might indicate either a cycle or a diamond-shaped DAG. Only a fraction of the nodes ends-up being a "pending child" of another node. This keeps the pending_children set small in practice. We can differentiate between the two cases if we wait until the end of the build. At this point, all the pending children nodes due to a diamond-shaped DAG will have been properly built (or will have failed to build). But, the pending children involved in a cycle will still be in the pending state. The taskmaster removes nodes from the pending_children set as soon as a pending_children node moves out of the pending state. This also helps to keep the pending_children set small. """ for n in self.pending_children: assert n.state in (NODE_PENDING, NODE_EXECUTING), \ (str(n), StateString[n.state]) assert len(n.waiting_parents) != 0, (str(n), len(n.waiting_parents)) for p in n.waiting_parents: assert p.ref_count > 0, (str(n), str(p), p.ref_count) def trace_message(self, message): return 'Taskmaster: %s\n' % message def trace_node(self, node): return '<%-10s %-3s %s>' % (StateString[node.get_state()], node.ref_count, repr(str(node))) def _find_next_ready_node(self): """ Finds the next node that is ready to be built. This is *the* main guts of the DAG walk. We loop through the list of candidates, looking for something that has no un-built children (i.e., that is a leaf Node or has dependencies that are all leaf Nodes or up-to-date). Candidate Nodes are re-scanned (both the target Node itself and its sources, which are always scanned in the context of a given target) to discover implicit dependencies. A Node that must wait for some children to be built will be put back on the candidates list after the children have finished building. A Node that has been put back on the candidates list in this way may have itself (or its sources) re-scanned, in order to handle generated header files (e.g.) and the implicit dependencies therein. Note that this method does not do any signature calculation or up-to-date check itself. All of that is handled by the Task class. This is purely concerned with the dependency graph walk. """ self.ready_exc = None T = self.trace if T: T.write(SCons.Util.UnicodeType('\n') + self.trace_message('Looking for a node to evaluate')) while True: node = self.next_candidate() if node is None: if T: T.write(self.trace_message('No candidate anymore.') + u'\n') return None node = node.disambiguate() state = node.get_state() # For debugging only: # # try: # self._validate_pending_children() # except: # self.ready_exc = sys.exc_info() # return node if CollectStats: if not hasattr(node.attributes, 'stats'): node.attributes.stats = Stats() StatsNodes.append(node) S = node.attributes.stats S.considered = S.considered + 1 else: S = None if T: T.write(self.trace_message(u' Considering node %s and its children:' % self.trace_node(node))) if state == NODE_NO_STATE: # Mark this node as being on the execution stack: node.set_state(NODE_PENDING) elif state > NODE_PENDING: # Skip this node if it has already been evaluated: if S: S.already_handled = S.already_handled + 1 if T: T.write(self.trace_message(u' already handled (executed)')) continue executor = node.get_executor() try: children = executor.get_all_children() except SystemExit: exc_value = sys.exc_info()[1] e = SCons.Errors.ExplicitExit(node, exc_value.code) self.ready_exc = (SCons.Errors.ExplicitExit, e) if T: T.write(self.trace_message(' SystemExit')) return node except Exception as e: # We had a problem just trying to figure out the # children (like a child couldn't be linked in to a # VariantDir, or a Scanner threw something). Arrange to # raise the exception when the Task is "executed." self.ready_exc = sys.exc_info() if S: S.problem = S.problem + 1 if T: T.write(self.trace_message(' exception %s while scanning children.\n' % e)) return node children_not_visited = [] children_pending = set() children_not_ready = [] children_failed = False for child in chain(executor.get_all_prerequisites(), children): childstate = child.get_state() if T: T.write(self.trace_message(u' ' + self.trace_node(child))) if childstate == NODE_NO_STATE: children_not_visited.append(child) elif childstate == NODE_PENDING: children_pending.add(child) elif childstate == NODE_FAILED: children_failed = True if childstate <= NODE_EXECUTING: children_not_ready.append(child) # These nodes have not even been visited yet. Add # them to the list so that on some next pass we can # take a stab at evaluating them (or their children). children_not_visited.reverse() self.candidates.extend(self.order(children_not_visited)) # if T and children_not_visited: # T.write(self.trace_message(' adding to candidates: %s' % map(str, children_not_visited))) # T.write(self.trace_message(' candidates now: %s\n' % map(str, self.candidates))) # Skip this node if any of its children have failed. # # This catches the case where we're descending a top-level # target and one of our children failed while trying to be # built by a *previous* descent of an earlier top-level # target. # # It can also occur if a node is reused in multiple # targets. One first descends though the one of the # target, the next time occurs through the other target. # # Note that we can only have failed_children if the # --keep-going flag was used, because without it the build # will stop before diving in the other branch. # # Note that even if one of the children fails, we still # added the other children to the list of candidate nodes # to keep on building (--keep-going). if children_failed: for n in executor.get_action_targets(): n.set_state(NODE_FAILED) if S: S.child_failed = S.child_failed + 1 if T: T.write(self.trace_message('****** %s\n' % self.trace_node(node))) continue if children_not_ready: for child in children_not_ready: # We're waiting on one or more derived targets # that have not yet finished building. if S: S.not_built = S.not_built + 1 # Add this node to the waiting parents lists of # anything we're waiting on, with a reference # count so we can be put back on the list for # re-evaluation when they've all finished. node.ref_count = node.ref_count + child.add_to_waiting_parents(node) if T: T.write(self.trace_message(u' adjusted ref count: %s, child %s' % (self.trace_node(node), repr(str(child))))) if T: for pc in children_pending: T.write(self.trace_message(' adding %s to the pending children set\n' % self.trace_node(pc))) self.pending_children = self.pending_children | children_pending continue # Skip this node if it has side-effects that are # currently being built: wait_side_effects = False for se in executor.get_action_side_effects(): if se.get_state() == NODE_EXECUTING: se.add_to_waiting_s_e(node) wait_side_effects = True if wait_side_effects: if S: S.side_effects = S.side_effects + 1 continue # The default when we've gotten through all of the checks above: # this node is ready to be built. if S: S.build = S.build + 1 if T: T.write(self.trace_message(u'Evaluating %s\n' % self.trace_node(node))) # For debugging only: # # try: # self._validate_pending_children() # except: # self.ready_exc = sys.exc_info() # return node return node return None def next_task(self): """ Returns the next task to be executed. This simply asks for the next Node to be evaluated, and then wraps it in the specific Task subclass with which we were initialized. """ node = self._find_next_ready_node() if node is None: return None executor = node.get_executor() if executor is None: return None tlist = executor.get_all_targets() task = self.tasker(self, tlist, node in self.original_top, node) try: task.make_ready() except Exception as e : # We had a problem just trying to get this task ready (like # a child couldn't be linked to a VariantDir when deciding # whether this node is current). Arrange to raise the # exception when the Task is "executed." self.ready_exc = sys.exc_info() if self.ready_exc: task.exception_set(self.ready_exc) self.ready_exc = None return task def will_not_build(self, nodes, node_func=lambda n: None): """ Perform clean-up about nodes that will never be built. Invokes a user defined function on all of these nodes (including all of their parents). """ T = self.trace pending_children = self.pending_children to_visit = set(nodes) pending_children = pending_children - to_visit if T: for n in nodes: T.write(self.trace_message(' removing node %s from the pending children set\n' % self.trace_node(n))) try: while len(to_visit): node = to_visit.pop() node_func(node) # Prune recursion by flushing the waiting children # list immediately. parents = node.waiting_parents node.waiting_parents = set() to_visit = to_visit | parents pending_children = pending_children - parents for p in parents: p.ref_count = p.ref_count - 1 if T: T.write(self.trace_message(' removing parent %s from the pending children set\n' % self.trace_node(p))) except KeyError: # The container to_visit has been emptied. pass # We have the stick back the pending_children list into the # taskmaster because the python 1.5.2 compatibility does not # allow us to use in-place updates self.pending_children = pending_children def stop(self): """ Stops the current build completely. """ self.next_candidate = self.no_next_candidate def cleanup(self): """ Check for dependency cycles. """ if not self.pending_children: return nclist = [(n, find_cycle([n], set())) for n in self.pending_children] genuine_cycles = [ node for node,cycle in nclist if cycle or node.get_state() != NODE_EXECUTED ] if not genuine_cycles: # All of the "cycles" found were single nodes in EXECUTED state, # which is to say, they really weren't cycles. Just return. return desc = 'Found dependency cycle(s):\n' for node, cycle in nclist: if cycle: desc = desc + " " + " -> ".join(map(str, cycle)) + "\n" else: desc = desc + \ " Internal Error: no cycle found for node %s (%s) in state %s\n" % \ (node, repr(node), StateString[node.get_state()]) raise SCons.Errors.UserError(desc) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/compat/0000775000175000017500000000000013202656646017727 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/compat/_scons_dbm.py0000664000175000017500000000337113202656511022402 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __doc__ = """ dbm compatibility module for Python versions that don't have dbm. This does not not NOT (repeat, *NOT*) provide complete dbm functionality. It's just a stub on which to hang just enough pieces of dbm functionality that the whichdb.whichdb() implementstation in the various 2.X versions of Python won't blow up even if dbm wasn't compiled in. """ __revision__ = "src/engine/SCons/compat/_scons_dbm.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" class error(Exception): pass def open(*args, **kw): raise error() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/compat/__init__.py0000664000175000017500000001602713202656511022035 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __doc__ = """ SCons compatibility package for old Python versions This subpackage holds modules that provide backwards-compatible implementations of various things that we'd like to use in SCons but which only show up in later versions of Python than the early, old version(s) we still support. Other code will not generally reference things in this package through the SCons.compat namespace. The modules included here add things to the builtins namespace or the global module list so that the rest of our code can use the objects and names imported here regardless of Python version. The rest of the things here will be in individual compatibility modules that are either: 1) suitably modified copies of the future modules that we want to use; or 2) backwards compatible re-implementations of the specific portions of a future module's API that we want to use. GENERAL WARNINGS: Implementations of functions in the SCons.compat modules are *NOT* guaranteed to be fully compliant with these functions in later versions of Python. We are only concerned with adding functionality that we actually use in SCons, so be wary if you lift this code for other uses. (That said, making these more nearly the same as later, official versions is still a desirable goal, we just don't need to be obsessive about it.) We name the compatibility modules with an initial '_scons_' (for example, _scons_subprocess.py is our compatibility module for subprocess) so that we can still try to import the real module name and fall back to our compatibility module if we get an ImportError. The import_as() function defined below loads the module as the "real" name (without the '_scons'), after which all of the "import {module}" statements in the rest of our code will find our pre-loaded compatibility module. """ __revision__ = "src/engine/SCons/compat/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import sys import imp # Use the "imp" module to protect imports from fixers. PYPY = hasattr(sys, 'pypy_translation_info') def import_as(module, name): """ Imports the specified module (from our local directory) as the specified name, returning the loaded module object. """ dir = os.path.split(__file__)[0] return imp.load_module(name, *imp.find_module(module, [dir])) def rename_module(new, old): """ Attempts to import the old module and load it under the new name. Used for purely cosmetic name changes in Python 3.x. """ try: sys.modules[new] = imp.load_module(old, *imp.find_module(old)) return True except ImportError: return False # TODO: FIXME # In 3.x, 'pickle' automatically loads the fast version if available. rename_module('pickle', 'cPickle') # Default pickle protocol. Higher protocols are more efficient/featureful # but incompatible with older Python versions. On Python 2.7 this is 2. # Negative numbers choose the highest available protocol. import pickle # Was pickle.HIGHEST_PROTOCOL # Changed to 2 so py3.5+'s pickle will be compatible with py2.7. PICKLE_PROTOCOL = 2 # TODO: FIXME # In 3.x, 'profile' automatically loads the fast version if available. rename_module('profile', 'cProfile') # TODO: FIXME # Before Python 3.0, the 'queue' module was named 'Queue'. rename_module('queue', 'Queue') # TODO: FIXME # Before Python 3.0, the 'winreg' module was named '_winreg' rename_module('winreg', '_winreg') # Python 3 moved builtin intern() to sys package # To make porting easier, make intern always live # in sys package (for python 2.7.x) try: sys.intern except AttributeError: # We must be using python 2.7.x so monkey patch # intern into the sys package sys.intern = intern # Preparing for 3.x. UserDict, UserList, UserString are in # collections for 3.x, but standalone in 2.7.x import collections try: collections.UserDict except AttributeError: exec ('from UserDict import UserDict as _UserDict') collections.UserDict = _UserDict del _UserDict try: collections.UserList except AttributeError: exec ('from UserList import UserList as _UserList') collections.UserList = _UserList del _UserList try: collections.UserString except AttributeError: exec ('from UserString import UserString as _UserString') collections.UserString = _UserString del _UserString import shutil try: shutil.SameFileError except AttributeError: class SameFileError(Exception): pass shutil.SameFileError = SameFileError def with_metaclass(meta, *bases): """ Function from jinja2/_compat.py. License: BSD. Use it like this:: class BaseForm(object): pass class FormType(type): pass class Form(with_metaclass(FormType, BaseForm)): pass This requires a bit of explanation: the basic idea is to make a dummy metaclass for one level of class instantiation that replaces itself with the actual metaclass. Because of internal type checks we also need to make sure that we downgrade the custom metaclass for one level to something closer to type (that's why __call__ and __init__ comes back from type etc.). This has the advantage over six.with_metaclass of not introducing dummy classes into the final MRO. """ class metaclass(meta): __call__ = type.__call__ __init__ = type.__init__ def __new__(cls, name, this_bases, d): if this_bases is None: return type.__new__(cls, name, (), d) return meta(name, bases, d) return metaclass('temporary_class', None, {}) class NoSlotsPyPy(type): """ Workaround for PyPy not working well with __slots__ and __class__ assignment. """ def __new__(meta, name, bases, dct): if PYPY and '__slots__' in dct: dct.pop('__slots__') return super(NoSlotsPyPy, meta).__new__(meta, name, bases, dct) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/PathList.py0000664000175000017500000002024313202656511020536 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/PathList.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """SCons.PathList A module for handling lists of directory paths (the sort of things that get set as CPPPATH, LIBPATH, etc.) with as much caching of data and efficiency as we can, while still keeping the evaluation delayed so that we Do the Right Thing (almost) regardless of how the variable is specified. """ import os import SCons.Memoize import SCons.Node import SCons.Util # # Variables to specify the different types of entries in a PathList object: # TYPE_STRING_NO_SUBST = 0 # string with no '$' TYPE_STRING_SUBST = 1 # string containing '$' TYPE_OBJECT = 2 # other object def node_conv(obj): """ This is the "string conversion" routine that we have our substitutions use to return Nodes, not strings. This relies on the fact that an EntryProxy object has a get() method that returns the underlying Node that it wraps, which is a bit of architectural dependence that we might need to break or modify in the future in response to additional requirements. """ try: get = obj.get except AttributeError: if isinstance(obj, SCons.Node.Node) or SCons.Util.is_Sequence( obj ): result = obj else: result = str(obj) else: result = get() return result class _PathList(object): """ An actual PathList object. """ def __init__(self, pathlist): """ Initializes a PathList object, canonicalizing the input and pre-processing it for quicker substitution later. The stored representation of the PathList is a list of tuples containing (type, value), where the "type" is one of the TYPE_* variables defined above. We distinguish between: strings that contain no '$' and therefore need no delayed-evaluation string substitution (we expect that there will be many of these and that we therefore get a pretty big win from avoiding string substitution) strings that contain '$' and therefore need substitution (the hard case is things like '${TARGET.dir}/include', which require re-evaluation for every target + source) other objects (which may be something like an EntryProxy that needs a method called to return a Node) Pre-identifying the type of each element in the PathList up-front and storing the type in the list of tuples is intended to reduce the amount of calculation when we actually do the substitution over and over for each target. """ if SCons.Util.is_String(pathlist): pathlist = pathlist.split(os.pathsep) elif not SCons.Util.is_Sequence(pathlist): pathlist = [pathlist] pl = [] for p in pathlist: try: found = '$' in p except (AttributeError, TypeError): type = TYPE_OBJECT else: if not found: type = TYPE_STRING_NO_SUBST else: type = TYPE_STRING_SUBST pl.append((type, p)) self.pathlist = tuple(pl) def __len__(self): return len(self.pathlist) def __getitem__(self, i): return self.pathlist[i] def subst_path(self, env, target, source): """ Performs construction variable substitution on a pre-digested PathList for a specific target and source. """ result = [] for type, value in self.pathlist: if type == TYPE_STRING_SUBST: value = env.subst(value, target=target, source=source, conv=node_conv) if SCons.Util.is_Sequence(value): result.extend(SCons.Util.flatten(value)) elif value: result.append(value) elif type == TYPE_OBJECT: value = node_conv(value) if value: result.append(value) elif value: result.append(value) return tuple(result) class PathListCache(object): """ A class to handle caching of PathList lookups. This class gets instantiated once and then deleted from the namespace, so it's used as a Singleton (although we don't enforce that in the usual Pythonic ways). We could have just made the cache a dictionary in the module namespace, but putting it in this class allows us to use the same Memoizer pattern that we use elsewhere to count cache hits and misses, which is very valuable. Lookup keys in the cache are computed by the _PathList_key() method. Cache lookup should be quick, so we don't spend cycles canonicalizing all forms of the same lookup key. For example, 'x:y' and ['x', 'y'] logically represent the same list, but we don't bother to split string representations and treat those two equivalently. (Note, however, that we do, treat lists and tuples the same.) The main type of duplication we're trying to catch will come from looking up the same path list from two different clones of the same construction environment. That is, given env2 = env1.Clone() both env1 and env2 will have the same CPPPATH value, and we can cheaply avoid re-parsing both values of CPPPATH by using the common value from this cache. """ def __init__(self): self._memo = {} def _PathList_key(self, pathlist): """ Returns the key for memoization of PathLists. Note that we want this to be pretty quick, so we don't completely canonicalize all forms of the same list. For example, 'dir1:$ROOT/dir2' and ['$ROOT/dir1', 'dir'] may logically represent the same list if you're executing from $ROOT, but we're not going to bother splitting strings into path elements, or massaging strings into Nodes, to identify that equivalence. We just want to eliminate obvious redundancy from the normal case of re-using exactly the same cloned value for a path. """ if SCons.Util.is_Sequence(pathlist): pathlist = tuple(SCons.Util.flatten(pathlist)) return pathlist @SCons.Memoize.CountDictCall(_PathList_key) def PathList(self, pathlist): """ Returns the cached _PathList object for the specified pathlist, creating and caching a new object as necessary. """ pathlist = self._PathList_key(pathlist) try: memo_dict = self._memo['PathList'] except KeyError: memo_dict = {} self._memo['PathList'] = memo_dict else: try: return memo_dict[pathlist] except KeyError: pass result = _PathList(pathlist) memo_dict[pathlist] = result return result PathList = PathListCache().PathList del PathListCache # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Builder.py0000664000175000017500000010410613202656511020375 0ustar bdbaddogbdbaddog00000000000000""" SCons.Builder Builder object subsystem. A Builder object is a callable that encapsulates information about how to execute actions to create a target Node (file) from source Nodes (files), and how to create those dependencies for tracking. The main entry point here is the Builder() factory method. This provides a procedural interface that creates the right underlying Builder object based on the keyword arguments supplied and the types of the arguments. The goal is for this external interface to be simple enough that the vast majority of users can create new Builders as necessary to support building new types of files in their configurations, without having to dive any deeper into this subsystem. The base class here is BuilderBase. This is a concrete base class which does, in fact, represent the Builder objects that we (or users) create. There is also a proxy that looks like a Builder: CompositeBuilder This proxies for a Builder with an action that is actually a dictionary that knows how to map file suffixes to a specific action. This is so that we can invoke different actions (compilers, compile options) for different flavors of source files. Builders and their proxies have the following public interface methods used by other modules: - __call__() THE public interface. Calling a Builder object (with the use of internal helper methods) sets up the target and source dependencies, appropriate mapping to a specific action, and the environment manipulation necessary for overridden construction variable. This also takes care of warning about possible mistakes in keyword arguments. - add_emitter() Adds an emitter for a specific file suffix, used by some Tool modules to specify that (for example) a yacc invocation on a .y can create a .h *and* a .c file. - add_action() Adds an action for a specific file suffix, heavily used by Tool modules to add their specific action(s) for turning a source file into an object file to the global static and shared object file Builders. There are the following methods for internal use within this module: - _execute() The internal method that handles the heavily lifting when a Builder is called. This is used so that the __call__() methods can set up warning about possible mistakes in keyword-argument overrides, and *then* execute all of the steps necessary so that the warnings only occur once. - get_name() Returns the Builder's name within a specific Environment, primarily used to try to return helpful information in error messages. - adjust_suffix() - get_prefix() - get_suffix() - get_src_suffix() - set_src_suffix() Miscellaneous stuff for handling the prefix and suffix manipulation we use in turning source file names into target file names. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Builder.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import collections import SCons.Action import SCons.Debug from SCons.Debug import logInstanceCreation from SCons.Errors import InternalError, UserError import SCons.Executor import SCons.Memoize import SCons.Util import SCons.Warnings class _Null(object): pass _null = _Null def match_splitext(path, suffixes = []): if suffixes: matchsuf = [S for S in suffixes if path[-len(S):] == S] if matchsuf: suf = max([(len(_f),_f) for _f in matchsuf])[1] return [path[:-len(suf)], path[-len(suf):]] return SCons.Util.splitext(path) class DictCmdGenerator(SCons.Util.Selector): """This is a callable class that can be used as a command generator function. It holds on to a dictionary mapping file suffixes to Actions. It uses that dictionary to return the proper action based on the file suffix of the source file.""" def __init__(self, dict=None, source_ext_match=1): SCons.Util.Selector.__init__(self, dict) self.source_ext_match = source_ext_match def src_suffixes(self): return list(self.keys()) def add_action(self, suffix, action): """Add a suffix-action pair to the mapping. """ self[suffix] = action def __call__(self, target, source, env, for_signature): if not source: return [] if self.source_ext_match: suffixes = self.src_suffixes() ext = None for src in map(str, source): my_ext = match_splitext(src, suffixes)[1] if ext and my_ext != ext: raise UserError("While building `%s' from `%s': Cannot build multiple sources with different extensions: %s, %s" % (repr(list(map(str, target))), src, ext, my_ext)) ext = my_ext else: ext = match_splitext(str(source[0]), self.src_suffixes())[1] if not ext: #return ext raise UserError("While building `%s': " "Cannot deduce file extension from source files: %s" % (repr(list(map(str, target))), repr(list(map(str, source))))) try: ret = SCons.Util.Selector.__call__(self, env, source, ext) except KeyError as e: raise UserError("Ambiguous suffixes after environment substitution: %s == %s == %s" % (e.args[0], e.args[1], e.args[2])) if ret is None: raise UserError("While building `%s' from `%s': Don't know how to build from a source file with suffix `%s'. Expected a suffix in this list: %s." % \ (repr(list(map(str, target))), repr(list(map(str, source))), ext, repr(list(self.keys())))) return ret class CallableSelector(SCons.Util.Selector): """A callable dictionary that will, in turn, call the value it finds if it can.""" def __call__(self, env, source): value = SCons.Util.Selector.__call__(self, env, source) if callable(value): value = value(env, source) return value class DictEmitter(SCons.Util.Selector): """A callable dictionary that maps file suffixes to emitters. When called, it finds the right emitter in its dictionary for the suffix of the first source file, and calls that emitter to get the right lists of targets and sources to return. If there's no emitter for the suffix in its dictionary, the original target and source are returned. """ def __call__(self, target, source, env): emitter = SCons.Util.Selector.__call__(self, env, source) if emitter: target, source = emitter(target, source, env) return (target, source) class ListEmitter(collections.UserList): """A callable list of emitters that calls each in sequence, returning the result. """ def __call__(self, target, source, env): for e in self.data: target, source = e(target, source, env) return (target, source) # These are a common errors when calling a Builder; # they are similar to the 'target' and 'source' keyword args to builders, # so we issue warnings when we see them. The warnings can, of course, # be disabled. misleading_keywords = { 'targets' : 'target', 'sources' : 'source', } class OverrideWarner(collections.UserDict): """A class for warning about keyword arguments that we use as overrides in a Builder call. This class exists to handle the fact that a single Builder call can actually invoke multiple builders. This class only emits the warnings once, no matter how many Builders are invoked. """ def __init__(self, dict): collections.UserDict.__init__(self, dict) if SCons.Debug.track_instances: logInstanceCreation(self, 'Builder.OverrideWarner') self.already_warned = None def warn(self): if self.already_warned: return for k in list(self.keys()): if k in misleading_keywords: alt = misleading_keywords[k] msg = "Did you mean to use `%s' instead of `%s'?" % (alt, k) SCons.Warnings.warn(SCons.Warnings.MisleadingKeywordsWarning, msg) self.already_warned = 1 def Builder(**kw): """A factory for builder objects.""" composite = None if 'generator' in kw: if 'action' in kw: raise UserError("You must not specify both an action and a generator.") kw['action'] = SCons.Action.CommandGeneratorAction(kw['generator'], {}) del kw['generator'] elif 'action' in kw: source_ext_match = kw.get('source_ext_match', 1) if 'source_ext_match' in kw: del kw['source_ext_match'] if SCons.Util.is_Dict(kw['action']): composite = DictCmdGenerator(kw['action'], source_ext_match) kw['action'] = SCons.Action.CommandGeneratorAction(composite, {}) kw['src_suffix'] = composite.src_suffixes() else: kw['action'] = SCons.Action.Action(kw['action']) if 'emitter' in kw: emitter = kw['emitter'] if SCons.Util.is_String(emitter): # This allows users to pass in an Environment # variable reference (like "$FOO") as an emitter. # We will look in that Environment variable for # a callable to use as the actual emitter. var = SCons.Util.get_environment_var(emitter) if not var: raise UserError("Supplied emitter '%s' does not appear to refer to an Environment variable" % emitter) kw['emitter'] = EmitterProxy(var) elif SCons.Util.is_Dict(emitter): kw['emitter'] = DictEmitter(emitter) elif SCons.Util.is_List(emitter): kw['emitter'] = ListEmitter(emitter) result = BuilderBase(**kw) if not composite is None: result = CompositeBuilder(result, composite) return result def _node_errors(builder, env, tlist, slist): """Validate that the lists of target and source nodes are legal for this builder and environment. Raise errors or issue warnings as appropriate. """ # First, figure out if there are any errors in the way the targets # were specified. for t in tlist: if t.side_effect: raise UserError("Multiple ways to build the same target were specified for: %s" % t) if t.has_explicit_builder(): # Check for errors when the environments are different # No error if environments are the same Environment instance if (not t.env is None and not t.env is env and # Check OverrideEnvironment case - no error if wrapped Environments # are the same instance, and overrides lists match not (getattr(t.env, '__subject', 0) is getattr(env, '__subject', 1) and getattr(t.env, 'overrides', 0) == getattr(env, 'overrides', 1) and not builder.multi)): action = t.builder.action t_contents = t.builder.action.get_contents(tlist, slist, t.env) contents = builder.action.get_contents(tlist, slist, env) if t_contents == contents: msg = "Two different environments were specified for target %s,\n\tbut they appear to have the same action: %s" % (t, action.genstring(tlist, slist, t.env)) SCons.Warnings.warn(SCons.Warnings.DuplicateEnvironmentWarning, msg) else: try: msg = "Two environments with different actions were specified for the same target: %s\n(action 1: %s)\n(action 2: %s)" % (t,t_contents.decode('utf-8'),contents.decode('utf-8')) except UnicodeDecodeError as e: msg = "Two environments with different actions were specified for the same target: %s"%t raise UserError(msg) if builder.multi: if t.builder != builder: msg = "Two different builders (%s and %s) were specified for the same target: %s" % (t.builder.get_name(env), builder.get_name(env), t) raise UserError(msg) # TODO(batch): list constructed each time! if t.get_executor().get_all_targets() != tlist: msg = "Two different target lists have a target in common: %s (from %s and from %s)" % (t, list(map(str, t.get_executor().get_all_targets())), list(map(str, tlist))) raise UserError(msg) elif t.sources != slist: msg = "Multiple ways to build the same target were specified for: %s (from %s and from %s)" % (t, list(map(str, t.sources)), list(map(str, slist))) raise UserError(msg) if builder.single_source: if len(slist) > 1: raise UserError("More than one source given for single-source builder: targets=%s sources=%s" % (list(map(str,tlist)), list(map(str,slist)))) class EmitterProxy(object): """This is a callable class that can act as a Builder emitter. It holds on to a string that is a key into an Environment dictionary, and will look there at actual build time to see if it holds a callable. If so, we will call that as the actual emitter.""" def __init__(self, var): self.var = SCons.Util.to_String(var) def __call__(self, target, source, env): emitter = self.var # Recursively substitute the variable. # We can't use env.subst() because it deals only # in strings. Maybe we should change that? while SCons.Util.is_String(emitter) and emitter in env: emitter = env[emitter] if callable(emitter): target, source = emitter(target, source, env) elif SCons.Util.is_List(emitter): for e in emitter: target, source = e(target, source, env) return (target, source) def __eq__(self, other): return self.var == other.var def __lt__(self, other): return self.var < other.var class BuilderBase(object): """Base class for Builders, objects that create output nodes (files) from input nodes (files). """ def __init__(self, action = None, prefix = '', suffix = '', src_suffix = '', target_factory = None, source_factory = None, target_scanner = None, source_scanner = None, emitter = None, multi = 0, env = None, single_source = 0, name = None, chdir = _null, is_explicit = 1, src_builder = None, ensure_suffix = False, **overrides): if SCons.Debug.track_instances: logInstanceCreation(self, 'Builder.BuilderBase') self._memo = {} self.action = action self.multi = multi if SCons.Util.is_Dict(prefix): prefix = CallableSelector(prefix) self.prefix = prefix if SCons.Util.is_Dict(suffix): suffix = CallableSelector(suffix) self.env = env self.single_source = single_source if 'overrides' in overrides: SCons.Warnings.warn(SCons.Warnings.DeprecatedBuilderKeywordsWarning, "The \"overrides\" keyword to Builder() creation has been deprecated;\n" +\ "\tspecify the items as keyword arguments to the Builder() call instead.") overrides.update(overrides['overrides']) del overrides['overrides'] if 'scanner' in overrides: SCons.Warnings.warn(SCons.Warnings.DeprecatedBuilderKeywordsWarning, "The \"scanner\" keyword to Builder() creation has been deprecated;\n" "\tuse: source_scanner or target_scanner as appropriate.") del overrides['scanner'] self.overrides = overrides self.set_suffix(suffix) self.set_src_suffix(src_suffix) self.ensure_suffix = ensure_suffix self.target_factory = target_factory self.source_factory = source_factory self.target_scanner = target_scanner self.source_scanner = source_scanner self.emitter = emitter # Optional Builder name should only be used for Builders # that don't get attached to construction environments. if name: self.name = name self.executor_kw = {} if not chdir is _null: self.executor_kw['chdir'] = chdir self.is_explicit = is_explicit if src_builder is None: src_builder = [] elif not SCons.Util.is_List(src_builder): src_builder = [ src_builder ] self.src_builder = src_builder def __nonzero__(self): raise InternalError("Do not test for the Node.builder attribute directly; use Node.has_builder() instead") def __bool__(self): return self.__nonzero__() def get_name(self, env): """Attempts to get the name of the Builder. Look at the BUILDERS variable of env, expecting it to be a dictionary containing this Builder, and return the key of the dictionary. If there's no key, then return a directly-configured name (if there is one) or the name of the class (by default).""" try: index = list(env['BUILDERS'].values()).index(self) return list(env['BUILDERS'].keys())[index] except (AttributeError, KeyError, TypeError, ValueError): try: return self.name except AttributeError: return str(self.__class__) def __eq__(self, other): return self.__dict__ == other.__dict__ def splitext(self, path, env=None): if not env: env = self.env if env: suffixes = self.src_suffixes(env) else: suffixes = [] return match_splitext(path, suffixes) def _adjustixes(self, files, pre, suf, ensure_suffix=False): if not files: return [] result = [] if not SCons.Util.is_List(files): files = [files] for f in files: if SCons.Util.is_String(f): f = SCons.Util.adjustixes(f, pre, suf, ensure_suffix) result.append(f) return result def _create_nodes(self, env, target = None, source = None): """Create and return lists of target and source nodes. """ src_suf = self.get_src_suffix(env) target_factory = env.get_factory(self.target_factory) source_factory = env.get_factory(self.source_factory) source = self._adjustixes(source, None, src_suf) slist = env.arg2nodes(source, source_factory) pre = self.get_prefix(env, slist) suf = self.get_suffix(env, slist) if target is None: try: t_from_s = slist[0].target_from_source except AttributeError: raise UserError("Do not know how to create a target from source `%s'" % slist[0]) except IndexError: tlist = [] else: splitext = lambda S: self.splitext(S,env) tlist = [ t_from_s(pre, suf, splitext) ] else: target = self._adjustixes(target, pre, suf, self.ensure_suffix) tlist = env.arg2nodes(target, target_factory, target=target, source=source) if self.emitter: # The emitter is going to do str(node), but because we're # being called *from* a builder invocation, the new targets # don't yet have a builder set on them and will look like # source files. Fool the emitter's str() calls by setting # up a temporary builder on the new targets. new_targets = [] for t in tlist: if not t.is_derived(): t.builder_set(self) new_targets.append(t) orig_tlist = tlist[:] orig_slist = slist[:] target, source = self.emitter(target=tlist, source=slist, env=env) # Now delete the temporary builders that we attached to any # new targets, so that _node_errors() doesn't do weird stuff # to them because it thinks they already have builders. for t in new_targets: if t.builder is self: # Only delete the temporary builder if the emitter # didn't change it on us. t.builder_set(None) # Have to call arg2nodes yet again, since it is legal for # emitters to spit out strings as well as Node instances. tlist = env.arg2nodes(target, target_factory, target=orig_tlist, source=orig_slist) slist = env.arg2nodes(source, source_factory, target=orig_tlist, source=orig_slist) return tlist, slist def _execute(self, env, target, source, overwarn={}, executor_kw={}): # We now assume that target and source are lists or None. if self.src_builder: source = self.src_builder_sources(env, source, overwarn) if self.single_source and len(source) > 1 and target is None: result = [] if target is None: target = [None]*len(source) for tgt, src in zip(target, source): if not tgt is None: tgt = [tgt] if not src is None: src = [src] result.extend(self._execute(env, tgt, src, overwarn)) return SCons.Node.NodeList(result) overwarn.warn() tlist, slist = self._create_nodes(env, target, source) # Check for errors with the specified target/source lists. _node_errors(self, env, tlist, slist) # The targets are fine, so find or make the appropriate Executor to # build this particular list of targets from this particular list of # sources. executor = None key = None if self.multi: try: executor = tlist[0].get_executor(create = 0) except (AttributeError, IndexError): pass else: executor.add_sources(slist) if executor is None: if not self.action: fmt = "Builder %s must have an action to build %s." raise UserError(fmt % (self.get_name(env or self.env), list(map(str,tlist)))) key = self.action.batch_key(env or self.env, tlist, slist) if key: try: executor = SCons.Executor.GetBatchExecutor(key) except KeyError: pass else: executor.add_batch(tlist, slist) if executor is None: executor = SCons.Executor.Executor(self.action, env, [], tlist, slist, executor_kw) if key: SCons.Executor.AddBatchExecutor(key, executor) # Now set up the relevant information in the target Nodes themselves. for t in tlist: t.cwd = env.fs.getcwd() t.builder_set(self) t.env_set(env) t.add_source(slist) t.set_executor(executor) t.set_explicit(self.is_explicit) return SCons.Node.NodeList(tlist) def __call__(self, env, target=None, source=None, chdir=_null, **kw): # We now assume that target and source are lists or None. # The caller (typically Environment.BuilderWrapper) is # responsible for converting any scalar values to lists. if chdir is _null: ekw = self.executor_kw else: ekw = self.executor_kw.copy() ekw['chdir'] = chdir if 'chdir' in ekw and SCons.Util.is_String(ekw['chdir']): ekw['chdir'] = env.subst(ekw['chdir']) if kw: if 'srcdir' in kw: def prependDirIfRelative(f, srcdir=kw['srcdir']): import os.path if SCons.Util.is_String(f) and not os.path.isabs(f): f = os.path.join(srcdir, f) return f if not SCons.Util.is_List(source): source = [source] source = list(map(prependDirIfRelative, source)) del kw['srcdir'] if self.overrides: env_kw = self.overrides.copy() env_kw.update(kw) else: env_kw = kw else: env_kw = self.overrides env = env.Override(env_kw) return self._execute(env, target, source, OverrideWarner(kw), ekw) def adjust_suffix(self, suff): if suff and not suff[0] in [ '.', '_', '$' ]: return '.' + suff return suff def get_prefix(self, env, sources=[]): prefix = self.prefix if callable(prefix): prefix = prefix(env, sources) return env.subst(prefix) def set_suffix(self, suffix): if not callable(suffix): suffix = self.adjust_suffix(suffix) self.suffix = suffix def get_suffix(self, env, sources=[]): suffix = self.suffix if callable(suffix): suffix = suffix(env, sources) return env.subst(suffix) def set_src_suffix(self, src_suffix): if not src_suffix: src_suffix = [] elif not SCons.Util.is_List(src_suffix): src_suffix = [ src_suffix ] self.src_suffix = [callable(suf) and suf or self.adjust_suffix(suf) for suf in src_suffix] def get_src_suffix(self, env): """Get the first src_suffix in the list of src_suffixes.""" ret = self.src_suffixes(env) if not ret: return '' return ret[0] def add_emitter(self, suffix, emitter): """Add a suffix-emitter mapping to this Builder. This assumes that emitter has been initialized with an appropriate dictionary type, and will throw a TypeError if not, so the caller is responsible for knowing that this is an appropriate method to call for the Builder in question. """ self.emitter[suffix] = emitter def add_src_builder(self, builder): """ Add a new Builder to the list of src_builders. This requires wiping out cached values so that the computed lists of source suffixes get re-calculated. """ self._memo = {} self.src_builder.append(builder) def _get_sdict(self, env): """ Returns a dictionary mapping all of the source suffixes of all src_builders of this Builder to the underlying Builder that should be called first. This dictionary is used for each target specified, so we save a lot of extra computation by memoizing it for each construction environment. Note that this is re-computed each time, not cached, because there might be changes to one of our source Builders (or one of their source Builders, and so on, and so on...) that we can't "see." The underlying methods we call cache their computed values, though, so we hope repeatedly aggregating them into a dictionary like this won't be too big a hit. We may need to look for a better way to do this if performance data show this has turned into a significant bottleneck. """ sdict = {} for bld in self.get_src_builders(env): for suf in bld.src_suffixes(env): sdict[suf] = bld return sdict def src_builder_sources(self, env, source, overwarn={}): sdict = self._get_sdict(env) src_suffixes = self.src_suffixes(env) lengths = list(set(map(len, src_suffixes))) def match_src_suffix(name, src_suffixes=src_suffixes, lengths=lengths): node_suffixes = [name[-l:] for l in lengths] for suf in src_suffixes: if suf in node_suffixes: return suf return None result = [] for s in SCons.Util.flatten(source): if SCons.Util.is_String(s): match_suffix = match_src_suffix(env.subst(s)) if not match_suffix and not '.' in s: src_suf = self.get_src_suffix(env) s = self._adjustixes(s, None, src_suf)[0] else: match_suffix = match_src_suffix(s.name) if match_suffix: try: bld = sdict[match_suffix] except KeyError: result.append(s) else: tlist = bld._execute(env, None, [s], overwarn) # If the subsidiary Builder returned more than one # target, then filter out any sources that this # Builder isn't capable of building. if len(tlist) > 1: tlist = [t for t in tlist if match_src_suffix(t.name)] result.extend(tlist) else: result.append(s) source_factory = env.get_factory(self.source_factory) return env.arg2nodes(result, source_factory) def _get_src_builders_key(self, env): return id(env) @SCons.Memoize.CountDictCall(_get_src_builders_key) def get_src_builders(self, env): """ Returns the list of source Builders for this Builder. This exists mainly to look up Builders referenced as strings in the 'BUILDER' variable of the construction environment and cache the result. """ memo_key = id(env) try: memo_dict = self._memo['get_src_builders'] except KeyError: memo_dict = {} self._memo['get_src_builders'] = memo_dict else: try: return memo_dict[memo_key] except KeyError: pass builders = [] for bld in self.src_builder: if SCons.Util.is_String(bld): try: bld = env['BUILDERS'][bld] except KeyError: continue builders.append(bld) memo_dict[memo_key] = builders return builders def _subst_src_suffixes_key(self, env): return id(env) @SCons.Memoize.CountDictCall(_subst_src_suffixes_key) def subst_src_suffixes(self, env): """ The suffix list may contain construction variable expansions, so we have to evaluate the individual strings. To avoid doing this over and over, we memoize the results for each construction environment. """ memo_key = id(env) try: memo_dict = self._memo['subst_src_suffixes'] except KeyError: memo_dict = {} self._memo['subst_src_suffixes'] = memo_dict else: try: return memo_dict[memo_key] except KeyError: pass suffixes = [env.subst(x) for x in self.src_suffix] memo_dict[memo_key] = suffixes return suffixes def src_suffixes(self, env): """ Returns the list of source suffixes for all src_builders of this Builder. This is essentially a recursive descent of the src_builder "tree." (This value isn't cached because there may be changes in a src_builder many levels deep that we can't see.) """ sdict = {} suffixes = self.subst_src_suffixes(env) for s in suffixes: sdict[s] = 1 for builder in self.get_src_builders(env): for s in builder.src_suffixes(env): if s not in sdict: sdict[s] = 1 suffixes.append(s) return suffixes class CompositeBuilder(SCons.Util.Proxy): """A Builder Proxy whose main purpose is to always have a DictCmdGenerator as its action, and to provide access to the DictCmdGenerator's add_action() method. """ def __init__(self, builder, cmdgen): if SCons.Debug.track_instances: logInstanceCreation(self, 'Builder.CompositeBuilder') SCons.Util.Proxy.__init__(self, builder) # cmdgen should always be an instance of DictCmdGenerator. self.cmdgen = cmdgen self.builder = builder __call__ = SCons.Util.Delegate('__call__') def add_action(self, suffix, action): self.cmdgen.add_action(suffix, action) self.set_src_suffix(self.cmdgen.src_suffixes()) def is_a_Builder(obj): """"Returns True if the specified obj is one of our Builder classes. The test is complicated a bit by the fact that CompositeBuilder is a proxy, not a subclass of BuilderBase. """ return (isinstance(obj, BuilderBase) or isinstance(obj, CompositeBuilder) or callable(obj)) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/dblite.py0000664000175000017500000002123213202656511020250 0ustar bdbaddogbdbaddog00000000000000# dblite.py module contributed by Ralf W. Grosse-Kunstleve. # Extended for Unicode by Steven Knight. from __future__ import print_function import os import pickle import shutil import time from SCons.compat import PICKLE_PROTOCOL keep_all_files = 00000 ignore_corrupt_dbfiles = 0 def corruption_warning(filename): print("Warning: Discarding corrupt database:", filename) try: unicode except NameError: def is_string(s): return isinstance(s, str) else: def is_string(s): return type(s) in (str, unicode) def is_bytes(s): return isinstance(s, bytes) try: unicode('a') except NameError: def unicode(s): return s dblite_suffix = '.dblite' # TODO: Does commenting this out break switching from py2/3? # if bytes is not str: # dblite_suffix += '.p3' tmp_suffix = '.tmp' class dblite(object): """ Squirrel away references to the functions in various modules that we'll use when our __del__() method calls our sync() method during shutdown. We might get destroyed when Python is in the midst of tearing down the different modules we import in an essentially arbitrary order, and some of the various modules's global attributes may already be wiped out from under us. See the discussion at: http://mail.python.org/pipermail/python-bugs-list/2003-March/016877.html """ _open = open _pickle_dump = staticmethod(pickle.dump) _pickle_protocol = PICKLE_PROTOCOL _os_chmod = os.chmod try: _os_chown = os.chown except AttributeError: _os_chown = None _os_rename = os.rename _os_unlink = os.unlink _shutil_copyfile = shutil.copyfile _time_time = time.time def __init__(self, file_base_name, flag, mode): assert flag in (None, "r", "w", "c", "n") if (flag is None): flag = "r" base, ext = os.path.splitext(file_base_name) if ext == dblite_suffix: # There's already a suffix on the file name, don't add one. self._file_name = file_base_name self._tmp_name = base + tmp_suffix else: self._file_name = file_base_name + dblite_suffix self._tmp_name = file_base_name + tmp_suffix self._flag = flag self._mode = mode self._dict = {} self._needs_sync = 00000 if self._os_chown is not None and (os.geteuid() == 0 or os.getuid() == 0): # running as root; chown back to current owner/group when done try: statinfo = os.stat(self._file_name) self._chown_to = statinfo.st_uid self._chgrp_to = statinfo.st_gid except OSError as e: # db file doesn't exist yet. # Check os.environ for SUDO_UID, use if set self._chown_to = int(os.environ.get('SUDO_UID', -1)) self._chgrp_to = int(os.environ.get('SUDO_GID', -1)) else: self._chown_to = -1 # don't chown self._chgrp_to = -1 # don't chgrp if (self._flag == "n"): self._open(self._file_name, "wb", self._mode) else: try: f = self._open(self._file_name, "rb") except IOError as e: if (self._flag != "c"): raise e self._open(self._file_name, "wb", self._mode) else: p = f.read() if len(p) > 0: try: if bytes is not str: self._dict = pickle.loads(p, encoding='bytes') else: self._dict = pickle.loads(p) except (pickle.UnpicklingError, EOFError, KeyError): # Note how we catch KeyErrors too here, which might happen # when we don't have cPickle available (default pickle # throws it). if (ignore_corrupt_dbfiles == 0): raise if (ignore_corrupt_dbfiles == 1): corruption_warning(self._file_name) def close(self): if (self._needs_sync): self.sync() def __del__(self): self.close() def sync(self): self._check_writable() f = self._open(self._tmp_name, "wb", self._mode) self._pickle_dump(self._dict, f, self._pickle_protocol) f.close() # Windows doesn't allow renaming if the file exists, so unlink # it first, chmod'ing it to make sure we can do so. On UNIX, we # may not be able to chmod the file if it's owned by someone else # (e.g. from a previous run as root). We should still be able to # unlink() the file if the directory's writable, though, so ignore # any OSError exception thrown by the chmod() call. try: self._os_chmod(self._file_name, 0o777) except OSError: pass self._os_unlink(self._file_name) self._os_rename(self._tmp_name, self._file_name) if self._os_chown is not None and self._chown_to > 0: # don't chown to root or -1 try: self._os_chown(self._file_name, self._chown_to, self._chgrp_to) except OSError: pass self._needs_sync = 00000 if (keep_all_files): self._shutil_copyfile( self._file_name, self._file_name + "_" + str(int(self._time_time()))) def _check_writable(self): if (self._flag == "r"): raise IOError("Read-only database: %s" % self._file_name) def __getitem__(self, key): return self._dict[key] def __setitem__(self, key, value): self._check_writable() if (not is_string(key)): raise TypeError("key `%s' must be a string but is %s" % (key, type(key))) if (not is_bytes(value)): raise TypeError("value `%s' must be a bytes but is %s" % (value, type(value))) self._dict[key] = value self._needs_sync = 0o001 def keys(self): return list(self._dict.keys()) def has_key(self, key): return key in self._dict def __contains__(self, key): return key in self._dict def iterkeys(self): # Wrapping name in () prevents fixer from "fixing" this return (self._dict.iterkeys)() __iter__ = iterkeys def __len__(self): return len(self._dict) def open(file, flag=None, mode=0o666): return dblite(file, flag, mode) def _exercise(): db = open("tmp", "n") assert len(db) == 0 db["foo"] = "bar" assert db["foo"] == "bar" db[unicode("ufoo")] = unicode("ubar") assert db[unicode("ufoo")] == unicode("ubar") db.sync() db = open("tmp", "c") assert len(db) == 2, len(db) assert db["foo"] == "bar" db["bar"] = "foo" assert db["bar"] == "foo" db[unicode("ubar")] = unicode("ufoo") assert db[unicode("ubar")] == unicode("ufoo") db.sync() db = open("tmp", "r") assert len(db) == 4, len(db) assert db["foo"] == "bar" assert db["bar"] == "foo" assert db[unicode("ufoo")] == unicode("ubar") assert db[unicode("ubar")] == unicode("ufoo") try: db.sync() except IOError as e: assert str(e) == "Read-only database: tmp.dblite" else: raise RuntimeError("IOError expected.") db = open("tmp", "w") assert len(db) == 4 db["ping"] = "pong" db.sync() try: db[(1, 2)] = "tuple" except TypeError as e: assert str(e) == "key `(1, 2)' must be a string but is ", str(e) else: raise RuntimeError("TypeError exception expected") try: db["list"] = [1, 2] except TypeError as e: assert str(e) == "value `[1, 2]' must be a string but is ", str(e) else: raise RuntimeError("TypeError exception expected") db = open("tmp", "r") assert len(db) == 5 db = open("tmp", "n") assert len(db) == 0 dblite._open("tmp.dblite", "w") db = open("tmp", "r") dblite._open("tmp.dblite", "w").write("x") try: db = open("tmp", "r") except pickle.UnpicklingError: pass else: raise RuntimeError("pickle exception expected.") global ignore_corrupt_dbfiles ignore_corrupt_dbfiles = 2 db = open("tmp", "r") assert len(db) == 0 os.unlink("tmp.dblite") try: db = open("tmp", "w") except IOError as e: assert str(e) == "[Errno 2] No such file or directory: 'tmp.dblite'", str(e) else: raise RuntimeError("IOError expected.") if (__name__ == "__main__"): _exercise() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Defaults.py0000664000175000017500000005102213202656511020554 0ustar bdbaddogbdbaddog00000000000000"""SCons.Defaults Builders and other things for the local site. Here's where we'll duplicate the functionality of autoconf until we move it into the installation procedure or use something like qmconf. The code that reads the registry to find MSVC components was borrowed from distutils.msvccompiler. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import division __revision__ = "src/engine/SCons/Defaults.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import errno import shutil import stat import time import sys import SCons.Action import SCons.Builder import SCons.CacheDir import SCons.Environment import SCons.PathList import SCons.Subst import SCons.Tool # A placeholder for a default Environment (for fetching source files # from source code management systems and the like). This must be # initialized later, after the top-level directory is set by the calling # interface. _default_env = None # Lazily instantiate the default environment so the overhead of creating # it doesn't apply when it's not needed. def _fetch_DefaultEnvironment(*args, **kw): """ Returns the already-created default construction environment. """ global _default_env return _default_env def DefaultEnvironment(*args, **kw): """ Initial public entry point for creating the default construction Environment. After creating the environment, we overwrite our name (DefaultEnvironment) with the _fetch_DefaultEnvironment() function, which more efficiently returns the initialized default construction environment without checking for its existence. (This function still exists with its _default_check because someone else (*cough* Script/__init__.py *cough*) may keep a reference to this function. So we can't use the fully functional idiom of having the name originally be a something that *only* creates the construction environment and then overwrites the name.) """ global _default_env if not _default_env: import SCons.Util _default_env = SCons.Environment.Environment(*args, **kw) if SCons.Util.md5: _default_env.Decider('MD5') else: _default_env.Decider('timestamp-match') global DefaultEnvironment DefaultEnvironment = _fetch_DefaultEnvironment _default_env._CacheDir_path = None return _default_env # Emitters for setting the shared attribute on object files, # and an action for checking that all of the source files # going into a shared library are, in fact, shared. def StaticObjectEmitter(target, source, env): for tgt in target: tgt.attributes.shared = None return (target, source) def SharedObjectEmitter(target, source, env): for tgt in target: tgt.attributes.shared = 1 return (target, source) def SharedFlagChecker(source, target, env): same = env.subst('$STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME') if same == '0' or same == '' or same == 'False': for src in source: try: shared = src.attributes.shared except AttributeError: shared = None if not shared: raise SCons.Errors.UserError("Source file: %s is static and is not compatible with shared target: %s" % (src, target[0])) SharedCheck = SCons.Action.Action(SharedFlagChecker, None) # Some people were using these variable name before we made # SourceFileScanner part of the public interface. Don't break their # SConscript files until we've given them some fair warning and a # transition period. CScan = SCons.Tool.CScanner DScan = SCons.Tool.DScanner LaTeXScan = SCons.Tool.LaTeXScanner ObjSourceScan = SCons.Tool.SourceFileScanner ProgScan = SCons.Tool.ProgramScanner # These aren't really tool scanners, so they don't quite belong with # the rest of those in Tool/__init__.py, but I'm not sure where else # they should go. Leave them here for now. import SCons.Scanner.Dir DirScanner = SCons.Scanner.Dir.DirScanner() DirEntryScanner = SCons.Scanner.Dir.DirEntryScanner() # Actions for common languages. CAction = SCons.Action.Action("$CCCOM", "$CCCOMSTR") ShCAction = SCons.Action.Action("$SHCCCOM", "$SHCCCOMSTR") CXXAction = SCons.Action.Action("$CXXCOM", "$CXXCOMSTR") ShCXXAction = SCons.Action.Action("$SHCXXCOM", "$SHCXXCOMSTR") DAction = SCons.Action.Action("$DCOM", "$DCOMSTR") ShDAction = SCons.Action.Action("$SHDCOM", "$SHDCOMSTR") ASAction = SCons.Action.Action("$ASCOM", "$ASCOMSTR") ASPPAction = SCons.Action.Action("$ASPPCOM", "$ASPPCOMSTR") LinkAction = SCons.Action.Action("$LINKCOM", "$LINKCOMSTR") ShLinkAction = SCons.Action.Action("$SHLINKCOM", "$SHLINKCOMSTR") LdModuleLinkAction = SCons.Action.Action("$LDMODULECOM", "$LDMODULECOMSTR") # Common tasks that we allow users to perform in platform-independent # ways by creating ActionFactory instances. ActionFactory = SCons.Action.ActionFactory def get_paths_str(dest): # If dest is a list, we need to manually call str() on each element if SCons.Util.is_List(dest): elem_strs = [] for element in dest: elem_strs.append('"' + str(element) + '"') return '[' + ', '.join(elem_strs) + ']' else: return '"' + str(dest) + '"' permission_dic = { 'u':{ 'r':stat.S_IRUSR, 'w':stat.S_IWUSR, 'x':stat.S_IXUSR }, 'g':{ 'r':stat.S_IRGRP, 'w':stat.S_IWGRP, 'x':stat.S_IXGRP }, 'o':{ 'r':stat.S_IROTH, 'w':stat.S_IWOTH, 'x':stat.S_IXOTH } } def chmod_func(dest, mode): import SCons.Util from string import digits SCons.Node.FS.invalidate_node_memos(dest) if not SCons.Util.is_List(dest): dest = [dest] if SCons.Util.is_String(mode) and not 0 in [i in digits for i in mode]: mode = int(mode, 8) if not SCons.Util.is_String(mode): for element in dest: os.chmod(str(element), mode) else: mode = str(mode) for operation in mode.split(","): if "=" in operation: operator = "=" elif "+" in operation: operator = "+" elif "-" in operation: operator = "-" else: raise SyntaxError("Could not find +, - or =") operation_list = operation.split(operator) if len(operation_list) is not 2: raise SyntaxError("More than one operator found") user = operation_list[0].strip().replace("a", "ugo") permission = operation_list[1].strip() new_perm = 0 for u in user: for p in permission: try: new_perm = new_perm | permission_dic[u][p] except KeyError: raise SyntaxError("Unrecognized user or permission format") for element in dest: curr_perm = os.stat(str(element)).st_mode if operator == "=": os.chmod(str(element), new_perm) elif operator == "+": os.chmod(str(element), curr_perm | new_perm) elif operator == "-": os.chmod(str(element), curr_perm & ~new_perm) def chmod_strfunc(dest, mode): import SCons.Util if not SCons.Util.is_String(mode): return 'Chmod(%s, 0%o)' % (get_paths_str(dest), mode) else: return 'Chmod(%s, "%s")' % (get_paths_str(dest), str(mode)) Chmod = ActionFactory(chmod_func, chmod_strfunc) def copy_func(dest, src, symlinks=True): """ If symlinks (is true), then a symbolic link will be shallow copied and recreated as a symbolic link; otherwise, copying a symbolic link will be equivalent to copying the symbolic link's final target regardless of symbolic link depth. """ dest = str(dest) src = str(src) SCons.Node.FS.invalidate_node_memos(dest) if SCons.Util.is_List(src) and os.path.isdir(dest): for file in src: shutil.copy2(file, dest) return 0 elif os.path.islink(src): if symlinks: return os.symlink(os.readlink(src), dest) else: return copy_func(dest, os.path.realpath(src)) elif os.path.isfile(src): shutil.copy2(src, dest) return 0 else: shutil.copytree(src, dest, symlinks) # copytree returns None in python2 and destination string in python3 # A error is raised in both cases, so we can just return 0 for success return 0 Copy = ActionFactory( copy_func, lambda dest, src, symlinks=True: 'Copy("%s", "%s")' % (dest, src) ) def delete_func(dest, must_exist=0): SCons.Node.FS.invalidate_node_memos(dest) if not SCons.Util.is_List(dest): dest = [dest] for entry in dest: entry = str(entry) # os.path.exists returns False with broken links that exist entry_exists = os.path.exists(entry) or os.path.islink(entry) if not entry_exists and not must_exist: continue # os.path.isdir returns True when entry is a link to a dir if os.path.isdir(entry) and not os.path.islink(entry): shutil.rmtree(entry, 1) continue os.unlink(entry) def delete_strfunc(dest, must_exist=0): return 'Delete(%s)' % get_paths_str(dest) Delete = ActionFactory(delete_func, delete_strfunc) def mkdir_func(dest): SCons.Node.FS.invalidate_node_memos(dest) if not SCons.Util.is_List(dest): dest = [dest] for entry in dest: try: os.makedirs(str(entry)) except os.error as e: p = str(entry) if (e.args[0] == errno.EEXIST or (sys.platform=='win32' and e.args[0]==183)) \ and os.path.isdir(str(entry)): pass # not an error if already exists else: raise Mkdir = ActionFactory(mkdir_func, lambda dir: 'Mkdir(%s)' % get_paths_str(dir)) def move_func(dest, src): SCons.Node.FS.invalidate_node_memos(dest) SCons.Node.FS.invalidate_node_memos(src) shutil.move(src, dest) Move = ActionFactory(move_func, lambda dest, src: 'Move("%s", "%s")' % (dest, src), convert=str) def touch_func(dest): SCons.Node.FS.invalidate_node_memos(dest) if not SCons.Util.is_List(dest): dest = [dest] for file in dest: file = str(file) mtime = int(time.time()) if os.path.exists(file): atime = os.path.getatime(file) else: open(file, 'w') atime = mtime os.utime(file, (atime, mtime)) Touch = ActionFactory(touch_func, lambda file: 'Touch(%s)' % get_paths_str(file)) # Internal utility functions def _concat(prefix, list, suffix, env, f=lambda x: x, target=None, source=None): """ Creates a new list from 'list' by first interpolating each element in the list using the 'env' dictionary and then calling f on the list, and finally calling _concat_ixes to concatenate 'prefix' and 'suffix' onto each element of the list. """ if not list: return list l = f(SCons.PathList.PathList(list).subst_path(env, target, source)) if l is not None: list = l return _concat_ixes(prefix, list, suffix, env) def _concat_ixes(prefix, list, suffix, env): """ Creates a new list from 'list' by concatenating the 'prefix' and 'suffix' arguments onto each element of the list. A trailing space on 'prefix' or leading space on 'suffix' will cause them to be put into separate list elements rather than being concatenated. """ result = [] # ensure that prefix and suffix are strings prefix = str(env.subst(prefix, SCons.Subst.SUBST_RAW)) suffix = str(env.subst(suffix, SCons.Subst.SUBST_RAW)) for x in list: if isinstance(x, SCons.Node.FS.File): result.append(x) continue x = str(x) if x: if prefix: if prefix[-1] == ' ': result.append(prefix[:-1]) elif x[:len(prefix)] != prefix: x = prefix + x result.append(x) if suffix: if suffix[0] == ' ': result.append(suffix[1:]) elif x[-len(suffix):] != suffix: result[-1] = result[-1]+suffix return result def _stripixes(prefix, itms, suffix, stripprefixes, stripsuffixes, env, c=None): """ This is a wrapper around _concat()/_concat_ixes() that checks for the existence of prefixes or suffixes on list items and strips them where it finds them. This is used by tools (like the GNU linker) that need to turn something like 'libfoo.a' into '-lfoo'. """ if not itms: return itms if not callable(c): env_c = env['_concat'] if env_c != _concat and callable(env_c): # There's a custom _concat() method in the construction # environment, and we've allowed people to set that in # the past (see test/custom-concat.py), so preserve the # backwards compatibility. c = env_c else: c = _concat_ixes stripprefixes = list(map(env.subst, SCons.Util.flatten(stripprefixes))) stripsuffixes = list(map(env.subst, SCons.Util.flatten(stripsuffixes))) stripped = [] for l in SCons.PathList.PathList(itms).subst_path(env, None, None): if isinstance(l, SCons.Node.FS.File): stripped.append(l) continue if not SCons.Util.is_String(l): l = str(l) for stripprefix in stripprefixes: lsp = len(stripprefix) if l[:lsp] == stripprefix: l = l[lsp:] # Do not strip more than one prefix break for stripsuffix in stripsuffixes: lss = len(stripsuffix) if l[-lss:] == stripsuffix: l = l[:-lss] # Do not strip more than one suffix break stripped.append(l) return c(prefix, stripped, suffix, env) def processDefines(defs): """process defines, resolving strings, lists, dictionaries, into a list of strings """ if SCons.Util.is_List(defs): l = [] for d in defs: if d is None: continue elif SCons.Util.is_List(d) or isinstance(d, tuple): if len(d) >= 2: l.append(str(d[0]) + '=' + str(d[1])) else: l.append(str(d[0])) elif SCons.Util.is_Dict(d): for macro,value in d.items(): if value is not None: l.append(str(macro) + '=' + str(value)) else: l.append(str(macro)) elif SCons.Util.is_String(d): l.append(str(d)) else: raise SCons.Errors.UserError("DEFINE %s is not a list, dict, string or None."%repr(d)) elif SCons.Util.is_Dict(defs): # The items in a dictionary are stored in random order, but # if the order of the command-line options changes from # invocation to invocation, then the signature of the command # line will change and we'll get random unnecessary rebuilds. # Consequently, we have to sort the keys to ensure a # consistent order... l = [] for k,v in sorted(defs.items()): if v is None: l.append(str(k)) else: l.append(str(k) + '=' + str(v)) else: l = [str(defs)] return l def _defines(prefix, defs, suffix, env, c=_concat_ixes): """A wrapper around _concat_ixes that turns a list or string into a list of C preprocessor command-line definitions. """ return c(prefix, env.subst_path(processDefines(defs)), suffix, env) class NullCmdGenerator(object): """This is a callable class that can be used in place of other command generators if you don't want them to do anything. The __call__ method for this class simply returns the thing you instantiated it with. Example usage: env["DO_NOTHING"] = NullCmdGenerator env["LINKCOM"] = "${DO_NOTHING('$LINK $SOURCES $TARGET')}" """ def __init__(self, cmd): self.cmd = cmd def __call__(self, target, source, env, for_signature=None): return self.cmd class Variable_Method_Caller(object): """A class for finding a construction variable on the stack and calling one of its methods. We use this to support "construction variables" in our string eval()s that actually stand in for methods--specifically, use of "RDirs" in call to _concat that should actually execute the "TARGET.RDirs" method. (We used to support this by creating a little "build dictionary" that mapped RDirs to the method, but this got in the way of Memoizing construction environments, because we had to create new environment objects to hold the variables.) """ def __init__(self, variable, method): self.variable = variable self.method = method def __call__(self, *args, **kw): try: 1//0 except ZeroDivisionError: # Don't start iterating with the current stack-frame to # prevent creating reference cycles (f_back is safe). frame = sys.exc_info()[2].tb_frame.f_back variable = self.variable while frame: if variable in frame.f_locals: v = frame.f_locals[variable] if v: method = getattr(v, self.method) return method(*args, **kw) frame = frame.f_back return None # if $version_var is not empty, returns env[flags_var], otherwise returns None def __libversionflags(env, version_var, flags_var): try: if env.subst('$'+version_var): return env[flags_var] except KeyError: pass return None ConstructionEnvironment = { 'BUILDERS' : {}, 'SCANNERS' : [ SCons.Tool.SourceFileScanner ], 'CONFIGUREDIR' : '#/.sconf_temp', 'CONFIGURELOG' : '#/config.log', 'CPPSUFFIXES' : SCons.Tool.CSuffixes, 'DSUFFIXES' : SCons.Tool.DSuffixes, 'ENV' : {}, 'IDLSUFFIXES' : SCons.Tool.IDLSuffixes, # 'LATEXSUFFIXES' : SCons.Tool.LaTeXSuffixes, # moved to the TeX tools generate functions '_concat' : _concat, '_defines' : _defines, '_stripixes' : _stripixes, '_LIBFLAGS' : '${_concat(LIBLINKPREFIX, LIBS, LIBLINKSUFFIX, __env__)}', '_LIBDIRFLAGS' : '$( ${_concat(LIBDIRPREFIX, LIBPATH, LIBDIRSUFFIX, __env__, RDirs, TARGET, SOURCE)} $)', '_CPPINCFLAGS' : '$( ${_concat(INCPREFIX, CPPPATH, INCSUFFIX, __env__, RDirs, TARGET, SOURCE)} $)', '_CPPDEFFLAGS' : '${_defines(CPPDEFPREFIX, CPPDEFINES, CPPDEFSUFFIX, __env__)}', '__libversionflags' : __libversionflags, '__SHLIBVERSIONFLAGS' : '${__libversionflags(__env__,"SHLIBVERSION","_SHLIBVERSIONFLAGS")}', '__LDMODULEVERSIONFLAGS' : '${__libversionflags(__env__,"LDMODULEVERSION","_LDMODULEVERSIONFLAGS")}', '__DSHLIBVERSIONFLAGS' : '${__libversionflags(__env__,"DSHLIBVERSION","_DSHLIBVERSIONFLAGS")}', 'TEMPFILE' : NullCmdGenerator, 'Dir' : Variable_Method_Caller('TARGET', 'Dir'), 'Dirs' : Variable_Method_Caller('TARGET', 'Dirs'), 'File' : Variable_Method_Caller('TARGET', 'File'), 'RDirs' : Variable_Method_Caller('TARGET', 'RDirs'), } # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Warnings.py0000664000175000017500000001551613202656512020606 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # """SCons.Warnings This file implements the warnings framework for SCons. """ __revision__ = "src/engine/SCons/Warnings.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import sys import SCons.Errors class Warning(SCons.Errors.UserError): pass class WarningOnByDefault(Warning): pass # NOTE: If you add a new warning class, add it to the man page, too! class TargetNotBuiltWarning(Warning): # Should go to OnByDefault pass class CacheVersionWarning(WarningOnByDefault): pass class CacheWriteErrorWarning(Warning): pass class CorruptSConsignWarning(WarningOnByDefault): pass class DependencyWarning(Warning): pass class DevelopmentVersionWarning(WarningOnByDefault): pass class DuplicateEnvironmentWarning(WarningOnByDefault): pass class FutureReservedVariableWarning(WarningOnByDefault): pass class LinkWarning(WarningOnByDefault): pass class MisleadingKeywordsWarning(WarningOnByDefault): pass class MissingSConscriptWarning(WarningOnByDefault): pass class NoMD5ModuleWarning(WarningOnByDefault): pass class NoMetaclassSupportWarning(WarningOnByDefault): pass class NoObjectCountWarning(WarningOnByDefault): pass class NoParallelSupportWarning(WarningOnByDefault): pass class ReservedVariableWarning(WarningOnByDefault): pass class StackSizeWarning(WarningOnByDefault): pass class VisualCMissingWarning(WarningOnByDefault): pass # Used when MSVC_VERSION and MSVS_VERSION do not point to the # same version (MSVS_VERSION is deprecated) class VisualVersionMismatch(WarningOnByDefault): pass class VisualStudioMissingWarning(Warning): pass class FortranCxxMixWarning(LinkWarning): pass # Deprecation warnings class FutureDeprecatedWarning(Warning): pass class DeprecatedWarning(Warning): pass class MandatoryDeprecatedWarning(DeprecatedWarning): pass # Special case; base always stays DeprecatedWarning class PythonVersionWarning(DeprecatedWarning): pass class DeprecatedSourceCodeWarning(FutureDeprecatedWarning): pass class DeprecatedBuildDirWarning(DeprecatedWarning): pass class TaskmasterNeedsExecuteWarning(DeprecatedWarning): pass class DeprecatedCopyWarning(MandatoryDeprecatedWarning): pass class DeprecatedOptionsWarning(MandatoryDeprecatedWarning): pass class DeprecatedSourceSignaturesWarning(MandatoryDeprecatedWarning): pass class DeprecatedTargetSignaturesWarning(MandatoryDeprecatedWarning): pass class DeprecatedDebugOptionsWarning(MandatoryDeprecatedWarning): pass class DeprecatedSigModuleWarning(MandatoryDeprecatedWarning): pass class DeprecatedBuilderKeywordsWarning(MandatoryDeprecatedWarning): pass # The below is a list of 2-tuples. The first element is a class object. # The second element is true if that class is enabled, false if it is disabled. _enabled = [] # If set, raise the warning as an exception _warningAsException = 0 # If not None, a function to call with the warning _warningOut = None def suppressWarningClass(clazz): """Suppresses all warnings that are of type clazz or derived from clazz.""" _enabled.insert(0, (clazz, 0)) def enableWarningClass(clazz): """Enables all warnings that are of type clazz or derived from clazz.""" _enabled.insert(0, (clazz, 1)) def warningAsException(flag=1): """Turn warnings into exceptions. Returns the old value of the flag.""" global _warningAsException old = _warningAsException _warningAsException = flag return old def warn(clazz, *args): global _enabled, _warningAsException, _warningOut warning = clazz(args) for clazz, flag in _enabled: if isinstance(warning, clazz): if flag: if _warningAsException: raise warning if _warningOut: _warningOut(warning) break def process_warn_strings(arguments): """Process string specifications of enabling/disabling warnings, as passed to the --warn option or the SetOption('warn') function. An argument to this option should be of the form or no-. The warning class is munged in order to get an actual class name from the classes above, which we need to pass to the {enable,disable}WarningClass() functions. The supplied is split on hyphens, each element is capitalized, then smushed back together. Then the string "Warning" is appended to get the class name. For example, 'deprecated' will enable the DeprecatedWarning class. 'no-dependency' will disable the DependencyWarning class. As a special case, --warn=all and --warn=no-all will enable or disable (respectively) the base Warning class of all warnings. """ def _capitalize(s): if s[:5] == "scons": return "SCons" + s[5:] else: return s.capitalize() for arg in arguments: elems = arg.lower().split('-') enable = 1 if elems[0] == 'no': enable = 0 del elems[0] if len(elems) == 1 and elems[0] == 'all': class_name = "Warning" else: class_name = ''.join(map(_capitalize, elems)) + "Warning" try: clazz = globals()[class_name] except KeyError: sys.stderr.write("No warning type: '%s'\n" % arg) else: if enable: enableWarningClass(clazz) elif issubclass(clazz, MandatoryDeprecatedWarning): fmt = "Can not disable mandataory warning: '%s'\n" sys.stderr.write(fmt % arg) else: suppressWarningClass(clazz) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/0000775000175000017500000000000013202656646020230 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Platform/darwin.py0000664000175000017500000000526313202656511022063 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Platform.darwin Platform-specific initialization for Mac OS X systems. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Platform.Platform() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Platform/darwin.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import posix import os def generate(env): posix.generate(env) env['SHLIBSUFFIX'] = '.dylib' # put macports paths at front to override Apple's versions, fink path is after # For now let people who want Macports or Fink tools specify it! # env['ENV']['PATH'] = '/opt/local/bin:/opt/local/sbin:' + env['ENV']['PATH'] + ':/sw/bin' # Store extra system paths in env['ENV']['PATHOSX'] filelist = ['/etc/paths',] # make sure this works on Macs with Tiger or earlier try: dirlist = os.listdir('/etc/paths.d') except: dirlist = [] for file in dirlist: filelist.append('/etc/paths.d/'+file) for file in filelist: if os.path.isfile(file): f = open(file, 'r') lines = f.readlines() for line in lines: if line: env.AppendENVPath('PATHOSX', line.strip('\n')) f.close() # Not sure why this wasn't the case all along? if env['ENV'].get('PATHOSX', False) and os.environ.get('SCONS_USE_MAC_PATHS', False): env.AppendENVPath('PATH',env['ENV']['PATHOSX']) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/posix.py0000664000175000017500000001024513202656511021735 0ustar bdbaddogbdbaddog00000000000000"""SCons.Platform.posix Platform-specific initialization for POSIX (Linux, UNIX, etc.) systems. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Platform.Platform() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Platform/posix.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import errno import os import os.path import subprocess import sys import select import SCons.Util from SCons.Platform import TempFileMunge exitvalmap = { 2 : 127, 13 : 126, } def escape(arg): "escape shell special characters" slash = '\\' special = '"$' arg = arg.replace(slash, slash+slash) for c in special: arg = arg.replace(c, slash+c) # print("ESCAPE RESULT: %s" % arg) return '"' + arg + '"' def exec_subprocess(l, env): proc = subprocess.Popen(l, env = env, close_fds = True) return proc.wait() def subprocess_spawn(sh, escape, cmd, args, env): return exec_subprocess([sh, '-c', ' '.join(args)], env) def exec_popen3(l, env, stdout, stderr): proc = subprocess.Popen(l, env = env, close_fds = True, stdout = stdout, stderr = stderr) return proc.wait() def piped_env_spawn(sh, escape, cmd, args, env, stdout, stderr): # spawn using Popen3 combined with the env command # the command name and the command's stdout is written to stdout # the command's stderr is written to stderr return exec_popen3([sh, '-c', ' '.join(args)], env, stdout, stderr) def generate(env): # Bearing in mind we have python 2.4 as a baseline, we can just do this: spawn = subprocess_spawn pspawn = piped_env_spawn # Note that this means that 'escape' is no longer used if 'ENV' not in env: env['ENV'] = {} env['ENV']['PATH'] = '/usr/local/bin:/opt/bin:/bin:/usr/bin' env['OBJPREFIX'] = '' env['OBJSUFFIX'] = '.o' env['SHOBJPREFIX'] = '$OBJPREFIX' env['SHOBJSUFFIX'] = '$OBJSUFFIX' env['PROGPREFIX'] = '' env['PROGSUFFIX'] = '' env['LIBPREFIX'] = 'lib' env['LIBSUFFIX'] = '.a' env['SHLIBPREFIX'] = '$LIBPREFIX' env['SHLIBSUFFIX'] = '.so' env['LIBPREFIXES'] = [ '$LIBPREFIX' ] env['LIBSUFFIXES'] = [ '$LIBSUFFIX', '$SHLIBSUFFIX' ] env['PSPAWN'] = pspawn env['SPAWN'] = spawn env['SHELL'] = 'sh' env['ESCAPE'] = escape env['TEMPFILE'] = TempFileMunge env['TEMPFILEPREFIX'] = '@' #Based on LINUX: ARG_MAX=ARG_MAX=131072 - 3000 for environment expansion #Note: specific platforms might rise or lower this value env['MAXLINELENGTH'] = 128072 # This platform supports RPATH specifications. env['__RPATH'] = '$_RPATH' # GDC is GCC family, but DMD and LDC have different options. # Must be able to have GCC and DMD work in the same build, so: env['__DRPATH'] = '$_DRPATH' # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/sunos.py0000664000175000017500000000361413202656511021744 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Platform.sunos Platform-specific initialization for Sun systems. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Platform.Platform() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Platform/sunos.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import posix def generate(env): posix.generate(env) # Based on sunSparc 8:32bit # ARG_MAX=1048320 - 3000 for environment expansion env['MAXLINELENGTH'] = 1045320 env['PKGINFO'] = 'pkginfo' env['PKGCHK'] = '/usr/sbin/pkgchk' env['ENV']['PATH'] = env['ENV']['PATH'] + ':/opt/SUNWspro/bin:/usr/ccs/bin' # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/irix.py0000664000175000017500000000316713202656511021553 0ustar bdbaddogbdbaddog00000000000000"""SCons.Platform.irix Platform-specific initialization for SGI IRIX systems. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Platform.Platform() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Platform/irix.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import posix def generate(env): posix.generate(env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/aix.py0000664000175000017500000000615513202656511021361 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Platform.aix Platform-specific initialization for IBM AIX systems. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Platform.Platform() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Platform/aix.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import subprocess from . import posix import SCons.Util import SCons.Action def get_xlc(env, xlc=None, packages=[]): # Use the AIX package installer tool lslpp to figure out where a # given xl* compiler is installed and what version it is. xlcPath = None xlcVersion = None if xlc is None: xlc = env.get('CC', 'xlc') if SCons.Util.is_List(xlc): xlc = xlc[0] for package in packages: # find the installed filename, which may be a symlink as well pipe = SCons.Action._subproc(env, ['lslpp', '-fc', package], stdin = 'devnull', stderr = 'devnull', stdout = subprocess.PIPE) # output of lslpp is something like this: # #Path:Fileset:File # /usr/lib/objrepos:vac.C 6.0.0.0:/usr/vac/exe/xlCcpp # /usr/lib/objrepos:vac.C 6.0.0.0:/usr/vac/bin/xlc_r -> /usr/vac/bin/xlc for line in pipe.stdout: if xlcPath: continue # read everything to let lslpp terminate fileset, filename = line.split(':')[1:3] filename = filename.split()[0] if ('/' in xlc and filename == xlc) \ or ('/' not in xlc and filename.endswith('/' + xlc)): xlcVersion = fileset.split()[1] xlcPath, sep, xlc = filename.rpartition('/') pass pass return (xlcPath, xlc, xlcVersion) def generate(env): posix.generate(env) #Based on AIX 5.2: ARG_MAX=24576 - 3000 for environment expansion env['MAXLINELENGTH'] = 21576 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/cygwin.py0000664000175000017500000000403113202656511022067 0ustar bdbaddogbdbaddog00000000000000"""SCons.Platform.cygwin Platform-specific initialization for Cygwin systems. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Platform.Platform() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Platform/cygwin.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import posix from SCons.Platform import TempFileMunge def generate(env): posix.generate(env) env['PROGPREFIX'] = '' env['PROGSUFFIX'] = '.exe' env['SHLIBPREFIX'] = '' env['SHLIBSUFFIX'] = '.dll' env['LIBPREFIXES'] = [ '$LIBPREFIX', '$SHLIBPREFIX', '$IMPLIBPREFIX' ] env['LIBSUFFIXES'] = [ '$LIBSUFFIX', '$SHLIBSUFFIX', '$IMPLIBSUFFIX' ] env['TEMPFILE'] = TempFileMunge env['TEMPFILEPREFIX'] = '@' env['MAXLINELENGTH'] = 2048 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/os2.py0000664000175000017500000000425413202656511021301 0ustar bdbaddogbdbaddog00000000000000"""SCons.Platform.os2 Platform-specific initialization for OS/2 systems. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Platform.Platform() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Platform/os2.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import win32 def generate(env): if 'ENV' not in env: env['ENV'] = {} env['OBJPREFIX'] = '' env['OBJSUFFIX'] = '.obj' env['SHOBJPREFIX'] = '$OBJPREFIX' env['SHOBJSUFFIX'] = '$OBJSUFFIX' env['PROGPREFIX'] = '' env['PROGSUFFIX'] = '.exe' env['LIBPREFIX'] = '' env['LIBSUFFIX'] = '.lib' env['SHLIBPREFIX'] = '' env['SHLIBSUFFIX'] = '.dll' env['LIBPREFIXES'] = '$LIBPREFIX' env['LIBSUFFIXES'] = [ '$LIBSUFFIX', '$SHLIBSUFFIX' ] env['HOST_OS'] = 'os2' env['HOST_ARCH'] = win32.get_architecture().arch # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/hpux.py0000664000175000017500000000335013202656511021556 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Platform.hpux Platform-specific initialization for HP-UX systems. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Platform.Platform() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Platform/hpux.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import posix def generate(env): posix.generate(env) #Based on HP-UX11i: ARG_MAX=2048000 - 3000 for environment expansion env['MAXLINELENGTH'] = 2045000 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/win32.py0000664000175000017500000004005713202656511021541 0ustar bdbaddogbdbaddog00000000000000"""SCons.Platform.win32 Platform-specific initialization for Win32 systems. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Platform.Platform() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Platform/win32.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import sys import tempfile from SCons.Platform.posix import exitvalmap from SCons.Platform import TempFileMunge import SCons.Util try: import msvcrt import win32api import win32con msvcrt.get_osfhandle win32api.SetHandleInformation win32con.HANDLE_FLAG_INHERIT except ImportError: parallel_msg = \ "you do not seem to have the pywin32 extensions installed;\n" + \ "\tparallel (-j) builds may not work reliably with open Python files." except AttributeError: parallel_msg = \ "your pywin32 extensions do not support file handle operations;\n" + \ "\tparallel (-j) builds may not work reliably with open Python files." else: parallel_msg = None _builtin_open = open def _scons_open(*args, **kw): fp = _builtin_open(*args, **kw) win32api.SetHandleInformation(msvcrt.get_osfhandle(fp.fileno()), win32con.HANDLE_FLAG_INHERIT, 0) return fp open = _scons_open if sys.version_info.major == 2: _builtin_file = file class _scons_file(_builtin_file): def __init__(self, *args, **kw): _builtin_file.__init__(self, *args, **kw) win32api.SetHandleInformation(msvcrt.get_osfhandle(self.fileno()), win32con.HANDLE_FLAG_INHERIT, 0) file = _scons_file else: import io for io_class in ['BufferedReader', 'BufferedWriter', 'BufferedRWPair', 'BufferedRandom', 'TextIOWrapper']: _builtin_file = getattr(io, io_class) class _scons_file(_builtin_file): def __init__(self, *args, **kw): _builtin_file.__init__(self, *args, **kw) win32api.SetHandleInformation(msvcrt.get_osfhandle(self.fileno()), win32con.HANDLE_FLAG_INHERIT, 0) setattr(io, io_class, _scons_file) if False: # Now swap out shutil.filecopy and filecopy2 for win32 api native CopyFile try: from ctypes import windll import shutil CopyFile = windll.kernel32.CopyFileA SetFileTime = windll.kernel32.SetFileTime _shutil_copy = shutil.copy _shutil_copy2 = shutil.copy2 shutil.copy2 = CopyFile def win_api_copyfile(src,dst): CopyFile(src,dst) os.utime(dst) shutil.copy = win_api_copyfile except AttributeError: parallel_msg = \ "Couldn't override shutil.copy or shutil.copy2 falling back to shutil defaults" try: import threading spawn_lock = threading.Lock() # This locked version of spawnve works around a Windows # MSVCRT bug, because its spawnve is not thread-safe. # Without this, python can randomly crash while using -jN. # See the python bug at http://bugs.python.org/issue6476 # and SCons issue at # http://scons.tigris.org/issues/show_bug.cgi?id=2449 def spawnve(mode, file, args, env): spawn_lock.acquire() try: if mode == os.P_WAIT: ret = os.spawnve(os.P_NOWAIT, file, args, env) else: ret = os.spawnve(mode, file, args, env) finally: spawn_lock.release() if mode == os.P_WAIT: pid, status = os.waitpid(ret, 0) ret = status >> 8 return ret except ImportError: # Use the unsafe method of spawnve. # Please, don't try to optimize this try-except block # away by assuming that the threading module is always present. # In the test test/option-j.py we intentionally call SCons with # a fake threading.py that raises an import exception right away, # simulating a non-existent package. def spawnve(mode, file, args, env): return os.spawnve(mode, file, args, env) # The upshot of all this is that, if you are using Python 1.5.2, # you had better have cmd or command.com in your PATH when you run # scons. def piped_spawn(sh, escape, cmd, args, env, stdout, stderr): # There is no direct way to do that in python. What we do # here should work for most cases: # In case stdout (stderr) is not redirected to a file, # we redirect it into a temporary file tmpFileStdout # (tmpFileStderr) and copy the contents of this file # to stdout (stderr) given in the argument if not sh: sys.stderr.write("scons: Could not find command interpreter, is it in your PATH?\n") return 127 else: # one temporary file for stdout and stderr tmpFileStdout = os.path.normpath(tempfile.mktemp()) tmpFileStderr = os.path.normpath(tempfile.mktemp()) # check if output is redirected stdoutRedirected = 0 stderrRedirected = 0 for arg in args: # are there more possibilities to redirect stdout ? if arg.find( ">", 0, 1 ) != -1 or arg.find( "1>", 0, 2 ) != -1: stdoutRedirected = 1 # are there more possibilities to redirect stderr ? if arg.find( "2>", 0, 2 ) != -1: stderrRedirected = 1 # redirect output of non-redirected streams to our tempfiles if stdoutRedirected == 0: args.append(">" + str(tmpFileStdout)) if stderrRedirected == 0: args.append("2>" + str(tmpFileStderr)) # actually do the spawn try: args = [sh, '/C', escape(' '.join(args)) ] ret = spawnve(os.P_WAIT, sh, args, env) except OSError as e: # catch any error try: ret = exitvalmap[e[0]] except KeyError: sys.stderr.write("scons: unknown OSError exception code %d - %s: %s\n" % (e[0], cmd, e[1])) if stderr is not None: stderr.write("scons: %s: %s\n" % (cmd, e[1])) # copy child output from tempfiles to our streams # and do clean up stuff if stdout is not None and stdoutRedirected == 0: try: stdout.write(open( tmpFileStdout, "r" ).read()) os.remove( tmpFileStdout ) except (IOError, OSError): pass if stderr is not None and stderrRedirected == 0: try: stderr.write(open( tmpFileStderr, "r" ).read()) os.remove( tmpFileStderr ) except (IOError, OSError): pass return ret def exec_spawn(l, env): try: result = spawnve(os.P_WAIT, l[0], l, env) except (OSError, EnvironmentError) as e: try: result = exitvalmap[e.errno] sys.stderr.write("scons: %s: %s\n" % (l[0], e.strerror)) except KeyError: result = 127 if len(l) > 2: if len(l[2]) < 1000: command = ' '.join(l[0:3]) else: command = l[0] else: command = l[0] sys.stderr.write("scons: unknown OSError exception code %d - '%s': %s\n" % (e.errno, command, e.strerror)) return result def spawn(sh, escape, cmd, args, env): if not sh: sys.stderr.write("scons: Could not find command interpreter, is it in your PATH?\n") return 127 return exec_spawn([sh, '/C', escape(' '.join(args))], env) # Windows does not allow special characters in file names anyway, so no # need for a complex escape function, we will just quote the arg, except # that "cmd /c" requires that if an argument ends with a backslash it # needs to be escaped so as not to interfere with closing double quote # that we add. def escape(x): if x[-1] == '\\': x = x + '\\' return '"' + x + '"' # Get the windows system directory name _system_root = None def get_system_root(): global _system_root if _system_root is not None: return _system_root # A resonable default if we can't read the registry val = os.environ.get('SystemRoot', "C:\\WINDOWS") if SCons.Util.can_read_reg: try: # Look for Windows NT system root k=SCons.Util.RegOpenKeyEx(SCons.Util.hkey_mod.HKEY_LOCAL_MACHINE, 'Software\\Microsoft\\Windows NT\\CurrentVersion') val, tok = SCons.Util.RegQueryValueEx(k, 'SystemRoot') except SCons.Util.RegError: try: # Okay, try the Windows 9x system root k=SCons.Util.RegOpenKeyEx(SCons.Util.hkey_mod.HKEY_LOCAL_MACHINE, 'Software\\Microsoft\\Windows\\CurrentVersion') val, tok = SCons.Util.RegQueryValueEx(k, 'SystemRoot') except KeyboardInterrupt: raise except: pass # Ensure system root is a string and not unicode # (This only matters for py27 were unicode in env passed to POpen fails) val = str(val) _system_root = val return val def get_program_files_dir(): """ Get the location of the program files directory Returns ------- """ # Now see if we can look in the registry... val = '' if SCons.Util.can_read_reg: try: # Look for Windows Program Files directory k=SCons.Util.RegOpenKeyEx(SCons.Util.hkey_mod.HKEY_LOCAL_MACHINE, 'Software\\Microsoft\\Windows\\CurrentVersion') val, tok = SCons.Util.RegQueryValueEx(k, 'ProgramFilesDir') except SCons.Util.RegError: val = '' pass if val == '': # A reasonable default if we can't read the registry # (Actually, it's pretty reasonable even if we can :-) val = os.path.join(os.path.dirname(get_system_root()),"Program Files") return val class ArchDefinition(object): """ Determine which windows CPU were running on. A class for defining architecture-specific settings and logic. """ def __init__(self, arch, synonyms=[]): self.arch = arch self.synonyms = synonyms SupportedArchitectureList = [ ArchDefinition( 'x86', ['i386', 'i486', 'i586', 'i686'], ), ArchDefinition( 'x86_64', ['AMD64', 'amd64', 'em64t', 'EM64T', 'x86_64'], ), ArchDefinition( 'ia64', ['IA64'], ), ] SupportedArchitectureMap = {} for a in SupportedArchitectureList: SupportedArchitectureMap[a.arch] = a for s in a.synonyms: SupportedArchitectureMap[s] = a def get_architecture(arch=None): """Returns the definition for the specified architecture string. If no string is specified, the system default is returned (as defined by the PROCESSOR_ARCHITEW6432 or PROCESSOR_ARCHITECTURE environment variables). """ if arch is None: arch = os.environ.get('PROCESSOR_ARCHITEW6432') if not arch: arch = os.environ.get('PROCESSOR_ARCHITECTURE') return SupportedArchitectureMap.get(arch, ArchDefinition('', [''])) def generate(env): # Attempt to find cmd.exe (for WinNT/2k/XP) or # command.com for Win9x cmd_interp = '' # First see if we can look in the registry... if SCons.Util.can_read_reg: try: # Look for Windows NT system root k=SCons.Util.RegOpenKeyEx(SCons.Util.hkey_mod.HKEY_LOCAL_MACHINE, 'Software\\Microsoft\\Windows NT\\CurrentVersion') val, tok = SCons.Util.RegQueryValueEx(k, 'SystemRoot') cmd_interp = os.path.join(val, 'System32\\cmd.exe') except SCons.Util.RegError: try: # Okay, try the Windows 9x system root k=SCons.Util.RegOpenKeyEx(SCons.Util.hkey_mod.HKEY_LOCAL_MACHINE, 'Software\\Microsoft\\Windows\\CurrentVersion') val, tok = SCons.Util.RegQueryValueEx(k, 'SystemRoot') cmd_interp = os.path.join(val, 'command.com') except KeyboardInterrupt: raise except: pass # For the special case of not having access to the registry, we # use a temporary path and pathext to attempt to find the command # interpreter. If we fail, we try to find the interpreter through # the env's PATH. The problem with that is that it might not # contain an ENV and a PATH. if not cmd_interp: systemroot = get_system_root() tmp_path = systemroot + os.pathsep + \ os.path.join(systemroot,'System32') tmp_pathext = '.com;.exe;.bat;.cmd' if 'PATHEXT' in os.environ: tmp_pathext = os.environ['PATHEXT'] cmd_interp = SCons.Util.WhereIs('cmd', tmp_path, tmp_pathext) if not cmd_interp: cmd_interp = SCons.Util.WhereIs('command', tmp_path, tmp_pathext) if not cmd_interp: cmd_interp = env.Detect('cmd') if not cmd_interp: cmd_interp = env.Detect('command') if 'ENV' not in env: env['ENV'] = {} # Import things from the external environment to the construction # environment's ENV. This is a potential slippery slope, because we # *don't* want to make builds dependent on the user's environment by # default. We're doing this for SystemRoot, though, because it's # needed for anything that uses sockets, and seldom changes, and # for SystemDrive because it's related. # # Weigh the impact carefully before adding other variables to this list. import_env = ['SystemDrive', 'SystemRoot', 'TEMP', 'TMP' ] for var in import_env: v = os.environ.get(var) if v: env['ENV'][var] = v if 'COMSPEC' not in env['ENV']: v = os.environ.get("COMSPEC") if v: env['ENV']['COMSPEC'] = v env.AppendENVPath('PATH', get_system_root() + '\System32') env['ENV']['PATHEXT'] = '.COM;.EXE;.BAT;.CMD' env['OBJPREFIX'] = '' env['OBJSUFFIX'] = '.obj' env['SHOBJPREFIX'] = '$OBJPREFIX' env['SHOBJSUFFIX'] = '$OBJSUFFIX' env['PROGPREFIX'] = '' env['PROGSUFFIX'] = '.exe' env['LIBPREFIX'] = '' env['LIBSUFFIX'] = '.lib' env['SHLIBPREFIX'] = '' env['SHLIBSUFFIX'] = '.dll' env['LIBPREFIXES'] = [ '$LIBPREFIX' ] env['LIBSUFFIXES'] = [ '$LIBSUFFIX' ] env['PSPAWN'] = piped_spawn env['SPAWN'] = spawn env['SHELL'] = cmd_interp env['TEMPFILE'] = TempFileMunge env['TEMPFILEPREFIX'] = '@' env['MAXLINELENGTH'] = 2048 env['ESCAPE'] = escape env['HOST_OS'] = 'win32' env['HOST_ARCH'] = get_architecture().arch # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Platform/__init__.py0000664000175000017500000002443213202656511022335 0ustar bdbaddogbdbaddog00000000000000"""SCons.Platform SCons platform selection. This looks for modules that define a callable object that can modify a construction environment as appropriate for a given platform. Note that we take a more simplistic view of "platform" than Python does. We're looking for a single string that determines a set of tool-independent variables with which to initialize a construction environment. Consequently, we'll examine both sys.platform and os.name (and anything else that might come in to play) in order to return some specification which is unique enough for our purposes. Note that because this subsystem just *selects* a callable that can modify a construction environment, it's possible for people to define their own "platform specification" in an arbitrary callable function. No one needs to use or tie in to this subsystem in order to roll their own platform definition. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/Platform/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.compat import imp import os import sys import tempfile import SCons.Errors import SCons.Subst import SCons.Tool def platform_default(): """Return the platform string for our execution environment. The returned value should map to one of the SCons/Platform/*.py files. Since we're architecture independent, though, we don't care about the machine architecture. """ osname = os.name if osname == 'java': osname = os._osType if osname == 'posix': if sys.platform == 'cygwin': return 'cygwin' elif sys.platform.find('irix') != -1: return 'irix' elif sys.platform.find('sunos') != -1: return 'sunos' elif sys.platform.find('hp-ux') != -1: return 'hpux' elif sys.platform.find('aix') != -1: return 'aix' elif sys.platform.find('darwin') != -1: return 'darwin' else: return 'posix' elif os.name == 'os2': return 'os2' else: return sys.platform def platform_module(name = platform_default()): """Return the imported module for the platform. This looks for a module name that matches the specified argument. If the name is unspecified, we fetch the appropriate default for our execution environment. """ full_name = 'SCons.Platform.' + name if full_name not in sys.modules: if os.name == 'java': eval(full_name) else: try: file, path, desc = imp.find_module(name, sys.modules['SCons.Platform'].__path__) try: mod = imp.load_module(full_name, file, path, desc) finally: if file: file.close() except ImportError: try: import zipimport importer = zipimport.zipimporter( sys.modules['SCons.Platform'].__path__[0] ) mod = importer.load_module(full_name) except ImportError: raise SCons.Errors.UserError("No platform named '%s'" % name) setattr(SCons.Platform, name, mod) return sys.modules[full_name] def DefaultToolList(platform, env): """Select a default tool list for the specified platform. """ return SCons.Tool.tool_list(platform, env) class PlatformSpec(object): def __init__(self, name, generate): self.name = name self.generate = generate def __call__(self, *args, **kw): return self.generate(*args, **kw) def __str__(self): return self.name class TempFileMunge(object): """A callable class. You can set an Environment variable to this, then call it with a string argument, then it will perform temporary file substitution on it. This is used to circumvent the long command line limitation. Example usage: env["TEMPFILE"] = TempFileMunge env["LINKCOM"] = "${TEMPFILE('$LINK $TARGET $SOURCES','$LINKCOMSTR')}" By default, the name of the temporary file used begins with a prefix of '@'. This may be configred for other tool chains by setting '$TEMPFILEPREFIX'. env["TEMPFILEPREFIX"] = '-@' # diab compiler env["TEMPFILEPREFIX"] = '-via' # arm tool chain """ def __init__(self, cmd, cmdstr = None): self.cmd = cmd self.cmdstr = cmdstr def __call__(self, target, source, env, for_signature): if for_signature: # If we're being called for signature calculation, it's # because we're being called by the string expansion in # Subst.py, which has the logic to strip any $( $) that # may be in the command line we squirreled away. So we # just return the raw command line and let the upper # string substitution layers do their thing. return self.cmd # Now we're actually being called because someone is actually # going to try to execute the command, so we have to do our # own expansion. cmd = env.subst_list(self.cmd, SCons.Subst.SUBST_CMD, target, source)[0] try: maxline = int(env.subst('$MAXLINELENGTH')) except ValueError: maxline = 2048 length = 0 for c in cmd: length += len(c) length += len(cmd) - 1 if length <= maxline: return self.cmd # Check if we already created the temporary file for this target # It should have been previously done by Action.strfunction() call node = target[0] if SCons.Util.is_List(target) else target cmdlist = getattr(node.attributes, 'tempfile_cmdlist', None) \ if node is not None else None if cmdlist is not None : return cmdlist # We do a normpath because mktemp() has what appears to be # a bug in Windows that will use a forward slash as a path # delimiter. Windows's link mistakes that for a command line # switch and barfs. # # We use the .lnk suffix for the benefit of the Phar Lap # linkloc linker, which likes to append an .lnk suffix if # none is given. (fd, tmp) = tempfile.mkstemp('.lnk', text=True) native_tmp = SCons.Util.get_native_path(os.path.normpath(tmp)) if env.get('SHELL',None) == 'sh': # The sh shell will try to escape the backslashes in the # path, so unescape them. native_tmp = native_tmp.replace('\\', r'\\\\') # In Cygwin, we want to use rm to delete the temporary # file, because del does not exist in the sh shell. rm = env.Detect('rm') or 'del' else: # Don't use 'rm' if the shell is not sh, because rm won't # work with the Windows shells (cmd.exe or command.com) or # Windows path names. rm = 'del' prefix = env.subst('$TEMPFILEPREFIX') if not prefix: prefix = '@' args = list(map(SCons.Subst.quote_spaces, cmd[1:])) os.write(fd, bytearray(" ".join(args) + "\n",'utf-8')) os.close(fd) # XXX Using the SCons.Action.print_actions value directly # like this is bogus, but expedient. This class should # really be rewritten as an Action that defines the # __call__() and strfunction() methods and lets the # normal action-execution logic handle whether or not to # print/execute the action. The problem, though, is all # of that is decided before we execute this method as # part of expanding the $TEMPFILE construction variable. # Consequently, refactoring this will have to wait until # we get more flexible with allowing Actions to exist # independently and get strung together arbitrarily like # Ant tasks. In the meantime, it's going to be more # user-friendly to not let obsession with architectural # purity get in the way of just being helpful, so we'll # reach into SCons.Action directly. if SCons.Action.print_actions: cmdstr = env.subst(self.cmdstr, SCons.Subst.SUBST_RAW, target, source) if self.cmdstr is not None else '' # Print our message only if XXXCOMSTR returns an empty string if len(cmdstr) == 0 : print("Using tempfile "+native_tmp+" for command line:\n"+ str(cmd[0]) + " " + " ".join(args)) # Store the temporary file command list into the target Node.attributes # to avoid creating two temporary files one for print and one for execute. cmdlist = [ cmd[0], prefix + native_tmp + '\n' + rm, native_tmp ] if node is not None: try : setattr(node.attributes, 'tempfile_cmdlist', cmdlist) except AttributeError: pass return cmdlist def Platform(name = platform_default()): """Select a canned Platform specification. """ module = platform_module(name) spec = PlatformSpec(name, module.generate) return spec # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/0000775000175000017500000000000013202656646017361 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Tool/javac.py0000664000175000017500000002070413202656511021011 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.javac Tool-specific initialization for javac. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/javac.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import SCons.Action import SCons.Builder from SCons.Node.FS import _my_normcase from SCons.Tool.JavaCommon import parse_java_file import SCons.Util def classname(path): """Turn a string (path name) into a Java class name.""" return os.path.normpath(path).replace(os.sep, '.') def emit_java_classes(target, source, env): """Create and return lists of source java files and their corresponding target class files. """ java_suffix = env.get('JAVASUFFIX', '.java') class_suffix = env.get('JAVACLASSSUFFIX', '.class') target[0].must_be_same(SCons.Node.FS.Dir) classdir = target[0] s = source[0].rentry().disambiguate() if isinstance(s, SCons.Node.FS.File): sourcedir = s.dir.rdir() elif isinstance(s, SCons.Node.FS.Dir): sourcedir = s.rdir() else: raise SCons.Errors.UserError("Java source must be File or Dir, not '%s'" % s.__class__) slist = [] js = _my_normcase(java_suffix) for entry in source: entry = entry.rentry().disambiguate() if isinstance(entry, SCons.Node.FS.File): slist.append(entry) elif isinstance(entry, SCons.Node.FS.Dir): result = SCons.Util.OrderedDict() dirnode = entry.rdir() def find_java_files(arg, dirpath, filenames): java_files = sorted([n for n in filenames if _my_normcase(n).endswith(js)]) mydir = dirnode.Dir(dirpath) java_paths = [mydir.File(f) for f in java_files] for jp in java_paths: arg[jp] = True for dirpath, dirnames, filenames in os.walk(dirnode.get_abspath()): find_java_files(result, dirpath, filenames) entry.walk(find_java_files, result) slist.extend(list(result.keys())) else: raise SCons.Errors.UserError("Java source must be File or Dir, not '%s'" % entry.__class__) version = env.get('JAVAVERSION', '1.4') full_tlist = [] for f in slist: tlist = [] source_file_based = True pkg_dir = None if not f.is_derived(): pkg_dir, classes = parse_java_file(f.rfile().get_abspath(), version) if classes: source_file_based = False if pkg_dir: d = target[0].Dir(pkg_dir) p = pkg_dir + os.sep else: d = target[0] p = '' for c in classes: t = d.File(c + class_suffix) t.attributes.java_classdir = classdir t.attributes.java_sourcedir = sourcedir t.attributes.java_classname = classname(p + c) tlist.append(t) if source_file_based: base = f.name[:-len(java_suffix)] if pkg_dir: t = target[0].Dir(pkg_dir).File(base + class_suffix) else: t = target[0].File(base + class_suffix) t.attributes.java_classdir = classdir t.attributes.java_sourcedir = f.dir t.attributes.java_classname = classname(base) tlist.append(t) for t in tlist: t.set_specific_source([f]) full_tlist.extend(tlist) return full_tlist, slist JavaAction = SCons.Action.Action('$JAVACCOM', '$JAVACCOMSTR') JavaBuilder = SCons.Builder.Builder(action = JavaAction, emitter = emit_java_classes, target_factory = SCons.Node.FS.Entry, source_factory = SCons.Node.FS.Entry) class pathopt(object): """ Callable object for generating javac-style path options from a construction variable (e.g. -classpath, -sourcepath). """ def __init__(self, opt, var, default=None): self.opt = opt self.var = var self.default = default def __call__(self, target, source, env, for_signature): path = env[self.var] if path and not SCons.Util.is_List(path): path = [path] if self.default: default = env[self.default] if default: if not SCons.Util.is_List(default): default = [default] path = path + default if path: return [self.opt, os.pathsep.join(map(str, path))] else: return [] def Java(env, target, source, *args, **kw): """ A pseudo-Builder wrapper around the separate JavaClass{File,Dir} Builders. """ if not SCons.Util.is_List(target): target = [target] if not SCons.Util.is_List(source): source = [source] # Pad the target list with repetitions of the last element in the # list so we have a target for every source element. target = target + ([target[-1]] * (len(source) - len(target))) java_suffix = env.subst('$JAVASUFFIX') result = [] for t, s in zip(target, source): if isinstance(s, SCons.Node.FS.Base): if isinstance(s, SCons.Node.FS.File): b = env.JavaClassFile else: b = env.JavaClassDir else: if os.path.isfile(s): b = env.JavaClassFile elif os.path.isdir(s): b = env.JavaClassDir elif s[-len(java_suffix):] == java_suffix: b = env.JavaClassFile else: b = env.JavaClassDir result.extend(b(t, s, *args, **kw)) return result def generate(env): """Add Builders and construction variables for javac to an Environment.""" java_file = SCons.Tool.CreateJavaFileBuilder(env) java_class = SCons.Tool.CreateJavaClassFileBuilder(env) java_class_dir = SCons.Tool.CreateJavaClassDirBuilder(env) java_class.add_emitter(None, emit_java_classes) java_class.add_emitter(env.subst('$JAVASUFFIX'), emit_java_classes) java_class_dir.emitter = emit_java_classes env.AddMethod(Java) env['JAVAC'] = 'javac' env['JAVACFLAGS'] = SCons.Util.CLVar('') env['JAVABOOTCLASSPATH'] = [] env['JAVACLASSPATH'] = [] env['JAVASOURCEPATH'] = [] env['_javapathopt'] = pathopt env['_JAVABOOTCLASSPATH'] = '${_javapathopt("-bootclasspath", "JAVABOOTCLASSPATH")} ' env['_JAVACLASSPATH'] = '${_javapathopt("-classpath", "JAVACLASSPATH")} ' env['_JAVASOURCEPATH'] = '${_javapathopt("-sourcepath", "JAVASOURCEPATH", "_JAVASOURCEPATHDEFAULT")} ' env['_JAVASOURCEPATHDEFAULT'] = '${TARGET.attributes.java_sourcedir}' env['_JAVACCOM'] = '$JAVAC $JAVACFLAGS $_JAVABOOTCLASSPATH $_JAVACLASSPATH -d ${TARGET.attributes.java_classdir} $_JAVASOURCEPATH $SOURCES' env['JAVACCOM'] = "${TEMPFILE('$_JAVACCOM','$JAVACCOMSTR')}" env['JAVACLASSSUFFIX'] = '.class' env['JAVASUFFIX'] = '.java' def exists(env): return 1 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/f77.py0000664000175000017500000000377613202656511020342 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.f77 Tool-specific initialization for the generic Posix f77 Fortran compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/f77.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Scanner.Fortran import SCons.Tool import SCons.Util from SCons.Tool.FortranCommon import add_all_to_env, add_f77_to_env compilers = ['f77'] def generate(env): add_all_to_env(env) add_f77_to_env(env) fcomp = env.Detect(compilers) or 'f77' env['F77'] = fcomp env['SHF77'] = fcomp env['FORTRAN'] = fcomp env['SHFORTRAN'] = fcomp def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/intelc.py0000664000175000017500000006343513202656511021213 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.icl Tool-specific initialization for the Intel C/C++ compiler. Supports Linux and Windows compilers, v7 and up. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import division, print_function __revision__ = "src/engine/SCons/Tool/intelc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import math, sys, os.path, glob, string, re is_windows = sys.platform == 'win32' is_win64 = is_windows and (os.environ['PROCESSOR_ARCHITECTURE'] == 'AMD64' or ('PROCESSOR_ARCHITEW6432' in os.environ and os.environ['PROCESSOR_ARCHITEW6432'] == 'AMD64')) is_linux = sys.platform.startswith('linux') is_mac = sys.platform == 'darwin' if is_windows: import SCons.Tool.msvc elif is_linux: import SCons.Tool.gcc elif is_mac: import SCons.Tool.gcc import SCons.Util import SCons.Warnings # Exceptions for this tool class IntelCError(SCons.Errors.InternalError): pass class MissingRegistryError(IntelCError): # missing registry entry pass class MissingDirError(IntelCError): # dir not found pass class NoRegistryModuleError(IntelCError): # can't read registry at all pass def linux_ver_normalize(vstr): """Normalize a Linux compiler version number. Intel changed from "80" to "9.0" in 2005, so we assume if the number is greater than 60 it's an old-style number and otherwise new-style. Always returns an old-style float like 80 or 90 for compatibility with Windows. Shades of Y2K!""" # Check for version number like 9.1.026: return 91.026 # XXX needs to be updated for 2011+ versions (like 2011.11.344 which is compiler v12.1.5) m = re.match(r'([0-9]+)\.([0-9]+)\.([0-9]+)', vstr) if m: vmaj,vmin,build = m.groups() return float(vmaj) * 10. + float(vmin) + float(build) / 1000.; else: f = float(vstr) if is_windows: return f else: if f < 60: return f * 10.0 else: return f def check_abi(abi): """Check for valid ABI (application binary interface) name, and map into canonical one""" if not abi: return None abi = abi.lower() # valid_abis maps input name to canonical name if is_windows: valid_abis = {'ia32' : 'ia32', 'x86' : 'ia32', 'ia64' : 'ia64', 'em64t' : 'em64t', 'amd64' : 'em64t'} if is_linux: valid_abis = {'ia32' : 'ia32', 'x86' : 'ia32', 'x86_64' : 'x86_64', 'em64t' : 'x86_64', 'amd64' : 'x86_64'} if is_mac: valid_abis = {'ia32' : 'ia32', 'x86' : 'ia32', 'x86_64' : 'x86_64', 'em64t' : 'x86_64'} try: abi = valid_abis[abi] except KeyError: raise SCons.Errors.UserError("Intel compiler: Invalid ABI %s, valid values are %s"% \ (abi, list(valid_abis.keys()))) return abi def vercmp(a, b): """Compare strings as floats, but Intel changed Linux naming convention at 9.0""" return cmp(linux_ver_normalize(b), linux_ver_normalize(a)) def get_version_from_list(v, vlist): """See if we can match v (string) in vlist (list of strings) Linux has to match in a fuzzy way.""" if is_windows: # Simple case, just find it in the list if v in vlist: return v else: return None else: # Fuzzy match: normalize version number first, but still return # original non-normalized form. fuzz = 0.001 for vi in vlist: if math.fabs(linux_ver_normalize(vi) - linux_ver_normalize(v)) < fuzz: return vi # Not found return None def get_intel_registry_value(valuename, version=None, abi=None): """ Return a value from the Intel compiler registry tree. (Windows only) """ # Open the key: if is_win64: K = 'Software\\Wow6432Node\\Intel\\Compilers\\C++\\' + version + '\\'+abi.upper() else: K = 'Software\\Intel\\Compilers\\C++\\' + version + '\\'+abi.upper() try: k = SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, K) except SCons.Util.RegError: # For version 13 and later, check UUID subkeys for valuename if is_win64: K = 'Software\\Wow6432Node\\Intel\\Suites\\' + version + "\\Defaults\\C++\\" + abi.upper() else: K = 'Software\\Intel\\Suites\\' + version + "\\Defaults\\C++\\" + abi.upper() try: k = SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, K) uuid = SCons.Util.RegQueryValueEx(k, 'SubKey')[0] if is_win64: K = 'Software\\Wow6432Node\\Intel\\Suites\\' + version + "\\" + uuid + "\\C++" else: K = 'Software\\Intel\\Suites\\' + version + "\\" + uuid + "\\C++" k = SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, K) try: v = SCons.Util.RegQueryValueEx(k, valuename)[0] return v # or v.encode('iso-8859-1', 'replace') to remove unicode? except SCons.Util.RegError: if abi.upper() == 'EM64T': abi = 'em64t_native' if is_win64: K = 'Software\\Wow6432Node\\Intel\\Suites\\' + version + "\\" + uuid + "\\C++\\" + abi.upper() else: K = 'Software\\Intel\\Suites\\' + version + "\\" + uuid + "\\C++\\" + abi.upper() k = SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, K) try: v = SCons.Util.RegQueryValueEx(k, valuename)[0] return v # or v.encode('iso-8859-1', 'replace') to remove unicode? except SCons.Util.RegError: raise MissingRegistryError("%s was not found in the registry, for Intel compiler version %s, abi='%s'"%(K, version,abi)) except SCons.Util.RegError: raise MissingRegistryError("%s was not found in the registry, for Intel compiler version %s, abi='%s'"%(K, version,abi)) except SCons.Util.WinError: raise MissingRegistryError("%s was not found in the registry, for Intel compiler version %s, abi='%s'"%(K, version,abi)) # Get the value: try: v = SCons.Util.RegQueryValueEx(k, valuename)[0] return v # or v.encode('iso-8859-1', 'replace') to remove unicode? except SCons.Util.RegError: raise MissingRegistryError("%s\\%s was not found in the registry."%(K, valuename)) def get_all_compiler_versions(): """Returns a sorted list of strings, like "70" or "80" or "9.0" with most recent compiler version first. """ versions=[] if is_windows: if is_win64: keyname = 'Software\\WoW6432Node\\Intel\\Compilers\\C++' else: keyname = 'Software\\Intel\\Compilers\\C++' try: k = SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, keyname) except SCons.Util.WinError: # For version 13 or later, check for default instance UUID if is_win64: keyname = 'Software\\WoW6432Node\\Intel\\Suites' else: keyname = 'Software\\Intel\\Suites' try: k = SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, keyname) except SCons.Util.WinError: return [] i = 0 versions = [] try: while i < 100: subkey = SCons.Util.RegEnumKey(k, i) # raises EnvironmentError # Check that this refers to an existing dir. # This is not 100% perfect but should catch common # installation issues like when the compiler was installed # and then the install directory deleted or moved (rather # than uninstalling properly), so the registry values # are still there. if subkey == 'Defaults': # Ignore default instances i = i + 1 continue ok = False for try_abi in ('IA32', 'IA32e', 'IA64', 'EM64T'): try: d = get_intel_registry_value('ProductDir', subkey, try_abi) except MissingRegistryError: continue # not found in reg, keep going if os.path.exists(d): ok = True if ok: versions.append(subkey) else: try: # Registry points to nonexistent dir. Ignore this # version. value = get_intel_registry_value('ProductDir', subkey, 'IA32') except MissingRegistryError as e: # Registry key is left dangling (potentially # after uninstalling). print("scons: *** Ignoring the registry key for the Intel compiler version %s.\n" \ "scons: *** It seems that the compiler was uninstalled and that the registry\n" \ "scons: *** was not cleaned up properly.\n" % subkey) else: print("scons: *** Ignoring "+str(value)) i = i + 1 except EnvironmentError: # no more subkeys pass elif is_linux or is_mac: for d in glob.glob('/opt/intel_cc_*'): # Typical dir here is /opt/intel_cc_80. m = re.search(r'cc_(.*)$', d) if m: versions.append(m.group(1)) for d in glob.glob('/opt/intel/cc*/*'): # Typical dir here is /opt/intel/cc/9.0 for IA32, # /opt/intel/cce/9.0 for EMT64 (AMD64) m = re.search(r'([0-9][0-9.]*)$', d) if m: versions.append(m.group(1)) for d in glob.glob('/opt/intel/Compiler/*'): # Typical dir here is /opt/intel/Compiler/11.1 m = re.search(r'([0-9][0-9.]*)$', d) if m: versions.append(m.group(1)) for d in glob.glob('/opt/intel/composerxe-*'): # Typical dir here is /opt/intel/composerxe-2011.4.184 m = re.search(r'([0-9][0-9.]*)$', d) if m: versions.append(m.group(1)) for d in glob.glob('/opt/intel/composer_xe_*'): # Typical dir here is /opt/intel/composer_xe_2011_sp1.11.344 # The _sp1 is useless, the installers are named 2011.9.x, 2011.10.x, 2011.11.x m = re.search(r'([0-9]{0,4})(?:_sp\d*)?\.([0-9][0-9.]*)$', d) if m: versions.append("%s.%s"%(m.group(1), m.group(2))) for d in glob.glob('/opt/intel/compilers_and_libraries_*'): # JPA: For the new version of Intel compiler 2016.1. m = re.search(r'([0-9]{0,4})(?:_sp\d*)?\.([0-9][0-9.]*)$', d) if m: versions.append("%s.%s"%(m.group(1), m.group(2))) def keyfunc(str): """Given a dot-separated version string, return a tuple of ints representing it.""" return [int(x) for x in str.split('.')] # split into ints, sort, then remove dups return sorted(SCons.Util.unique(versions), key=keyfunc, reverse=True) def get_intel_compiler_top(version, abi): """ Return the main path to the top-level dir of the Intel compiler, using the given version. The compiler will be in /bin/icl.exe (icc on linux), the include dir is /include, etc. """ if is_windows: if not SCons.Util.can_read_reg: raise NoRegistryModuleError("No Windows registry module was found") top = get_intel_registry_value('ProductDir', version, abi) archdir={'x86_64': 'intel64', 'amd64' : 'intel64', 'em64t' : 'intel64', 'x86' : 'ia32', 'i386' : 'ia32', 'ia32' : 'ia32' }[abi] # for v11 and greater # pre-11, icl was in Bin. 11 and later, it's in Bin/ apparently. if not os.path.exists(os.path.join(top, "Bin", "icl.exe")) \ and not os.path.exists(os.path.join(top, "Bin", abi, "icl.exe")) \ and not os.path.exists(os.path.join(top, "Bin", archdir, "icl.exe")): raise MissingDirError("Can't find Intel compiler in %s"%(top)) elif is_mac or is_linux: def find_in_2008style_dir(version): # first dir is new (>=9.0) style, second is old (8.0) style. dirs=('/opt/intel/cc/%s', '/opt/intel_cc_%s') if abi == 'x86_64': dirs=('/opt/intel/cce/%s',) # 'e' stands for 'em64t', aka x86_64 aka amd64 top=None for d in dirs: if os.path.exists(os.path.join(d%version, "bin", "icc")): top = d%version break return top def find_in_2010style_dir(version): dirs=('/opt/intel/Compiler/%s/*'%version) # typically /opt/intel/Compiler/11.1/064 (then bin/intel64/icc) dirs=glob.glob(dirs) # find highest sub-version number by reverse sorting and picking first existing one. dirs.sort() dirs.reverse() top=None for d in dirs: if (os.path.exists(os.path.join(d, "bin", "ia32", "icc")) or os.path.exists(os.path.join(d, "bin", "intel64", "icc"))): top = d break return top def find_in_2011style_dir(version): # The 2011 (compiler v12) dirs are inconsistent, so just redo the search from # get_all_compiler_versions and look for a match (search the newest form first) top=None for d in glob.glob('/opt/intel/composer_xe_*'): # Typical dir here is /opt/intel/composer_xe_2011_sp1.11.344 # The _sp1 is useless, the installers are named 2011.9.x, 2011.10.x, 2011.11.x m = re.search(r'([0-9]{0,4})(?:_sp\d*)?\.([0-9][0-9.]*)$', d) if m: cur_ver = "%s.%s"%(m.group(1), m.group(2)) if cur_ver == version and \ (os.path.exists(os.path.join(d, "bin", "ia32", "icc")) or os.path.exists(os.path.join(d, "bin", "intel64", "icc"))): top = d break if not top: for d in glob.glob('/opt/intel/composerxe-*'): # Typical dir here is /opt/intel/composerxe-2011.4.184 m = re.search(r'([0-9][0-9.]*)$', d) if m and m.group(1) == version and \ (os.path.exists(os.path.join(d, "bin", "ia32", "icc")) or os.path.exists(os.path.join(d, "bin", "intel64", "icc"))): top = d break return top def find_in_2016style_dir(version): # The 2016 (compiler v16) dirs are inconsistent from previous. top = None for d in glob.glob('/opt/intel/compilers_and_libraries_%s/linux'%version): if os.path.exists(os.path.join(d, "bin", "ia32", "icc")) or os.path.exists(os.path.join(d, "bin", "intel64", "icc")): top = d break return top top = find_in_2016style_dir(version) or find_in_2011style_dir(version) or find_in_2010style_dir(version) or find_in_2008style_dir(version) # print "INTELC: top=",top if not top: raise MissingDirError("Can't find version %s Intel compiler in %s (abi='%s')"%(version,top, abi)) return top def generate(env, version=None, abi=None, topdir=None, verbose=0): """Add Builders and construction variables for Intel C/C++ compiler to an Environment. args: version: (string) compiler version to use, like "80" abi: (string) 'win32' or whatever Itanium version wants topdir: (string) compiler top dir, like "c:\Program Files\Intel\Compiler70" If topdir is used, version and abi are ignored. verbose: (int) if >0, prints compiler version used. """ if not (is_mac or is_linux or is_windows): # can't handle this platform return if is_windows: SCons.Tool.msvc.generate(env) elif is_linux: SCons.Tool.gcc.generate(env) elif is_mac: SCons.Tool.gcc.generate(env) # if version is unspecified, use latest vlist = get_all_compiler_versions() if not version: if vlist: version = vlist[0] else: # User may have specified '90' but we need to get actual dirname '9.0'. # get_version_from_list does that mapping. v = get_version_from_list(version, vlist) if not v: raise SCons.Errors.UserError("Invalid Intel compiler version %s: "%version + \ "installed versions are %s"%(', '.join(vlist))) version = v # if abi is unspecified, use ia32 # alternatives are ia64 for Itanium, or amd64 or em64t or x86_64 (all synonyms here) abi = check_abi(abi) if abi is None: if is_mac or is_linux: # Check if we are on 64-bit linux, default to 64 then. uname_m = os.uname()[4] if uname_m == 'x86_64': abi = 'x86_64' else: abi = 'ia32' else: if is_win64: abi = 'em64t' else: abi = 'ia32' if version and not topdir: try: topdir = get_intel_compiler_top(version, abi) except (SCons.Util.RegError, IntelCError): topdir = None if not topdir: # Normally this is an error, but it might not be if the compiler is # on $PATH and the user is importing their env. class ICLTopDirWarning(SCons.Warnings.Warning): pass if (is_mac or is_linux) and not env.Detect('icc') or \ is_windows and not env.Detect('icl'): SCons.Warnings.enableWarningClass(ICLTopDirWarning) SCons.Warnings.warn(ICLTopDirWarning, "Failed to find Intel compiler for version='%s', abi='%s'"% (str(version), str(abi))) else: # should be cleaned up to say what this other version is # since in this case we have some other Intel compiler installed SCons.Warnings.enableWarningClass(ICLTopDirWarning) SCons.Warnings.warn(ICLTopDirWarning, "Can't find Intel compiler top dir for version='%s', abi='%s'"% (str(version), str(abi))) if topdir: archdir={'x86_64': 'intel64', 'amd64' : 'intel64', 'em64t' : 'intel64', 'x86' : 'ia32', 'i386' : 'ia32', 'ia32' : 'ia32' }[abi] # for v11 and greater if os.path.exists(os.path.join(topdir, 'bin', archdir)): bindir="bin/%s"%archdir libdir="lib/%s"%archdir else: bindir="bin" libdir="lib" if verbose: print("Intel C compiler: using version %s (%g), abi %s, in '%s/%s'"%\ (repr(version), linux_ver_normalize(version),abi,topdir,bindir)) if is_linux: # Show the actual compiler version by running the compiler. os.system('%s/%s/icc --version'%(topdir,bindir)) if is_mac: # Show the actual compiler version by running the compiler. os.system('%s/%s/icc --version'%(topdir,bindir)) env['INTEL_C_COMPILER_TOP'] = topdir if is_linux: paths={'INCLUDE' : 'include', 'LIB' : libdir, 'PATH' : bindir, 'LD_LIBRARY_PATH' : libdir} for p in list(paths.keys()): env.PrependENVPath(p, os.path.join(topdir, paths[p])) if is_mac: paths={'INCLUDE' : 'include', 'LIB' : libdir, 'PATH' : bindir, 'LD_LIBRARY_PATH' : libdir} for p in list(paths.keys()): env.PrependENVPath(p, os.path.join(topdir, paths[p])) if is_windows: # env key reg valname default subdir of top paths=(('INCLUDE', 'IncludeDir', 'Include'), ('LIB' , 'LibDir', 'Lib'), ('PATH' , 'BinDir', 'Bin')) # We are supposed to ignore version if topdir is set, so set # it to the emptry string if it's not already set. if version is None: version = '' # Each path has a registry entry, use that or default to subdir for p in paths: try: path=get_intel_registry_value(p[1], version, abi) # These paths may have $(ICInstallDir) # which needs to be substituted with the topdir. path=path.replace('$(ICInstallDir)', topdir + os.sep) except IntelCError: # Couldn't get it from registry: use default subdir of topdir env.PrependENVPath(p[0], os.path.join(topdir, p[2])) else: env.PrependENVPath(p[0], path.split(os.pathsep)) # print "ICL %s: %s, final=%s"%(p[0], path, str(env['ENV'][p[0]])) if is_windows: env['CC'] = 'icl' env['CXX'] = 'icl' env['LINK'] = 'xilink' else: env['CC'] = 'icc' env['CXX'] = 'icpc' # Don't reset LINK here; # use smart_link which should already be here from link.py. #env['LINK'] = '$CC' env['AR'] = 'xiar' env['LD'] = 'xild' # not used by default # This is not the exact (detailed) compiler version, # just the major version as determined above or specified # by the user. It is a float like 80 or 90, in normalized form for Linux # (i.e. even for Linux 9.0 compiler, still returns 90 rather than 9.0) if version: env['INTEL_C_COMPILER_VERSION']=linux_ver_normalize(version) if is_windows: # Look for license file dir # in system environment, registry, and default location. envlicdir = os.environ.get("INTEL_LICENSE_FILE", '') K = ('SOFTWARE\Intel\Licenses') try: k = SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, K) reglicdir = SCons.Util.RegQueryValueEx(k, "w_cpp")[0] except (AttributeError, SCons.Util.RegError): reglicdir = "" defaultlicdir = r'C:\Program Files\Common Files\Intel\Licenses' licdir = None for ld in [envlicdir, reglicdir]: # If the string contains an '@', then assume it's a network # license (port@system) and good by definition. if ld and (ld.find('@') != -1 or os.path.exists(ld)): licdir = ld break if not licdir: licdir = defaultlicdir if not os.path.exists(licdir): class ICLLicenseDirWarning(SCons.Warnings.Warning): pass SCons.Warnings.enableWarningClass(ICLLicenseDirWarning) SCons.Warnings.warn(ICLLicenseDirWarning, "Intel license dir was not found." " Tried using the INTEL_LICENSE_FILE environment variable (%s), the registry (%s) and the default path (%s)." " Using the default path as a last resort." % (envlicdir, reglicdir, defaultlicdir)) env['ENV']['INTEL_LICENSE_FILE'] = licdir def exists(env): if not (is_mac or is_linux or is_windows): # can't handle this platform return 0 try: versions = get_all_compiler_versions() except (SCons.Util.RegError, IntelCError): versions = None detected = versions is not None and len(versions) > 0 if not detected: # try env.Detect, maybe that will work if is_windows: return env.Detect('icl') elif is_linux: return env.Detect('icc') elif is_mac: return env.Detect('icc') return detected # end of file # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/gettext_tool.py0000664000175000017500000000403413202656512022445 0ustar bdbaddogbdbaddog00000000000000"""gettext tool """ # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/gettext_tool.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" ############################################################################# def generate(env,**kw): import SCons.Tool from SCons.Tool.GettextCommon \ import _translate, tool_list for t in tool_list(env['PLATFORM'], env): env.Tool(t) env.AddMethod(_translate, 'Translate') ############################################################################# ############################################################################# def exists(env): from SCons.Tool.GettextCommon \ import _xgettext_exists, _msginit_exists, \ _msgmerge_exists, _msgfmt_exists try: return _xgettext_exists(env) and _msginit_exists(env) \ and _msgmerge_exists(env) and _msgfmt_exists(env) except: return False ############################################################################# scons-3.0.1/engine/SCons/Tool/rpmutils.py0000664000175000017500000004144013202656512021605 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.rpmutils.py RPM specific helper routines for general usage in the test framework and SCons core modules. Since we check for the RPM package target name in several places, we have to know which machine/system name RPM will use for the current hardware setup. The following dictionaries and functions try to mimic the exact naming rules of the RPM source code. They were directly derived from the file "rpmrc.in" of the version rpm-4.9.1.3. For updating to a more recent version of RPM, this Python script can be used standalone. The usage() function below shows the exact syntax. """ # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import print_function __revision__ = "src/engine/SCons/Tool/rpmutils.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import platform import subprocess import SCons.Util # Start of rpmrc dictionaries (Marker, don't change or remove!) os_canon = { 'AIX' : ['AIX','5'], 'AmigaOS' : ['AmigaOS','5'], 'BSD_OS' : ['bsdi','12'], 'CYGWIN32_95' : ['cygwin32','15'], 'CYGWIN32_NT' : ['cygwin32','14'], 'Darwin' : ['darwin','21'], 'FreeBSD' : ['FreeBSD','8'], 'HP-UX' : ['hpux10','6'], 'IRIX' : ['Irix','2'], 'IRIX64' : ['Irix64','10'], 'Linux' : ['Linux','1'], 'Linux/390' : ['OS/390','20'], 'Linux/ESA' : ['VM/ESA','20'], 'MacOSX' : ['macosx','21'], 'MiNT' : ['FreeMiNT','17'], 'NEXTSTEP' : ['NextStep','11'], 'OS/390' : ['OS/390','18'], 'OSF1' : ['osf1','7'], 'SCO_SV' : ['SCO_SV3.2v5.0.2','9'], 'SunOS4' : ['SunOS','4'], 'SunOS5' : ['solaris','3'], 'UNIX_SV' : ['MP_RAS','16'], 'VM/ESA' : ['VM/ESA','19'], 'machten' : ['machten','13'], 'osf3.2' : ['osf1','7'], 'osf4.0' : ['osf1','7'], } buildarch_compat = { 'alpha' : ['noarch'], 'alphaev5' : ['alpha'], 'alphaev56' : ['alphaev5'], 'alphaev6' : ['alphapca56'], 'alphaev67' : ['alphaev6'], 'alphapca56' : ['alphaev56'], 'amd64' : ['x86_64'], 'armv3l' : ['noarch'], 'armv4b' : ['noarch'], 'armv4l' : ['armv3l'], 'armv4tl' : ['armv4l'], 'armv5tejl' : ['armv5tel'], 'armv5tel' : ['armv4tl'], 'armv6l' : ['armv5tejl'], 'armv7l' : ['armv6l'], 'atariclone' : ['m68kmint','noarch'], 'atarist' : ['m68kmint','noarch'], 'atariste' : ['m68kmint','noarch'], 'ataritt' : ['m68kmint','noarch'], 'athlon' : ['i686'], 'falcon' : ['m68kmint','noarch'], 'geode' : ['i586'], 'hades' : ['m68kmint','noarch'], 'hppa1.0' : ['parisc'], 'hppa1.1' : ['hppa1.0'], 'hppa1.2' : ['hppa1.1'], 'hppa2.0' : ['hppa1.2'], 'i386' : ['noarch','fat'], 'i486' : ['i386'], 'i586' : ['i486'], 'i686' : ['i586'], 'ia32e' : ['x86_64'], 'ia64' : ['noarch'], 'm68k' : ['noarch'], 'milan' : ['m68kmint','noarch'], 'mips' : ['noarch'], 'mipsel' : ['noarch'], 'parisc' : ['noarch'], 'pentium3' : ['i686'], 'pentium4' : ['pentium3'], 'ppc' : ['noarch','fat'], 'ppc32dy4' : ['noarch'], 'ppc64' : ['noarch','fat'], 'ppc64iseries' : ['ppc64'], 'ppc64pseries' : ['ppc64'], 'ppc8260' : ['noarch'], 'ppc8560' : ['noarch'], 'ppciseries' : ['noarch'], 'ppcpseries' : ['noarch'], 's390' : ['noarch'], 's390x' : ['noarch'], 'sh3' : ['noarch'], 'sh4' : ['noarch'], 'sh4a' : ['sh4'], 'sparc' : ['noarch'], 'sparc64' : ['sparcv9v'], 'sparc64v' : ['sparc64'], 'sparcv8' : ['sparc'], 'sparcv9' : ['sparcv8'], 'sparcv9v' : ['sparcv9'], 'sun4c' : ['noarch'], 'sun4d' : ['noarch'], 'sun4m' : ['noarch'], 'sun4u' : ['noarch'], 'x86_64' : ['noarch'], } os_compat = { 'BSD_OS' : ['bsdi'], 'Darwin' : ['MacOSX'], 'FreeMiNT' : ['mint','MiNT','TOS'], 'IRIX64' : ['IRIX'], 'MiNT' : ['FreeMiNT','mint','TOS'], 'TOS' : ['FreeMiNT','MiNT','mint'], 'bsdi4.0' : ['bsdi'], 'hpux10.00' : ['hpux9.07'], 'hpux10.01' : ['hpux10.00'], 'hpux10.10' : ['hpux10.01'], 'hpux10.20' : ['hpux10.10'], 'hpux10.30' : ['hpux10.20'], 'hpux11.00' : ['hpux10.30'], 'hpux9.05' : ['hpux9.04'], 'hpux9.07' : ['hpux9.05'], 'mint' : ['FreeMiNT','MiNT','TOS'], 'ncr-sysv4.3' : ['ncr-sysv4.2'], 'osf4.0' : ['osf3.2','osf1'], 'solaris2.4' : ['solaris2.3'], 'solaris2.5' : ['solaris2.3','solaris2.4'], 'solaris2.6' : ['solaris2.3','solaris2.4','solaris2.5'], 'solaris2.7' : ['solaris2.3','solaris2.4','solaris2.5','solaris2.6'], } arch_compat = { 'alpha' : ['axp','noarch'], 'alphaev5' : ['alpha'], 'alphaev56' : ['alphaev5'], 'alphaev6' : ['alphapca56'], 'alphaev67' : ['alphaev6'], 'alphapca56' : ['alphaev56'], 'amd64' : ['x86_64','athlon','noarch'], 'armv3l' : ['noarch'], 'armv4b' : ['noarch'], 'armv4l' : ['armv3l'], 'armv4tl' : ['armv4l'], 'armv5tejl' : ['armv5tel'], 'armv5tel' : ['armv4tl'], 'armv6l' : ['armv5tejl'], 'armv7l' : ['armv6l'], 'atariclone' : ['m68kmint','noarch'], 'atarist' : ['m68kmint','noarch'], 'atariste' : ['m68kmint','noarch'], 'ataritt' : ['m68kmint','noarch'], 'athlon' : ['i686'], 'falcon' : ['m68kmint','noarch'], 'geode' : ['i586'], 'hades' : ['m68kmint','noarch'], 'hppa1.0' : ['parisc'], 'hppa1.1' : ['hppa1.0'], 'hppa1.2' : ['hppa1.1'], 'hppa2.0' : ['hppa1.2'], 'i370' : ['noarch'], 'i386' : ['noarch','fat'], 'i486' : ['i386'], 'i586' : ['i486'], 'i686' : ['i586'], 'ia32e' : ['x86_64','athlon','noarch'], 'ia64' : ['noarch'], 'milan' : ['m68kmint','noarch'], 'mips' : ['noarch'], 'mipsel' : ['noarch'], 'osfmach3_i386' : ['i486'], 'osfmach3_i486' : ['i486','osfmach3_i386'], 'osfmach3_i586' : ['i586','osfmach3_i486'], 'osfmach3_i686' : ['i686','osfmach3_i586'], 'osfmach3_ppc' : ['ppc'], 'parisc' : ['noarch'], 'pentium3' : ['i686'], 'pentium4' : ['pentium3'], 'powerpc' : ['ppc'], 'powerppc' : ['ppc'], 'ppc' : ['rs6000'], 'ppc32dy4' : ['ppc'], 'ppc64' : ['ppc'], 'ppc64iseries' : ['ppc64'], 'ppc64pseries' : ['ppc64'], 'ppc8260' : ['ppc'], 'ppc8560' : ['ppc'], 'ppciseries' : ['ppc'], 'ppcpseries' : ['ppc'], 'rs6000' : ['noarch','fat'], 's390' : ['noarch'], 's390x' : ['s390','noarch'], 'sh3' : ['noarch'], 'sh4' : ['noarch'], 'sh4a' : ['sh4'], 'sparc' : ['noarch'], 'sparc64' : ['sparcv9'], 'sparc64v' : ['sparc64'], 'sparcv8' : ['sparc'], 'sparcv9' : ['sparcv8'], 'sparcv9v' : ['sparcv9'], 'sun4c' : ['sparc'], 'sun4d' : ['sparc'], 'sun4m' : ['sparc'], 'sun4u' : ['sparc64'], 'x86_64' : ['amd64','athlon','noarch'], } buildarchtranslate = { 'alphaev5' : ['alpha'], 'alphaev56' : ['alpha'], 'alphaev6' : ['alpha'], 'alphaev67' : ['alpha'], 'alphapca56' : ['alpha'], 'amd64' : ['x86_64'], 'armv3l' : ['armv3l'], 'armv4b' : ['armv4b'], 'armv4l' : ['armv4l'], 'armv4tl' : ['armv4tl'], 'armv5tejl' : ['armv5tejl'], 'armv5tel' : ['armv5tel'], 'armv6l' : ['armv6l'], 'armv7l' : ['armv7l'], 'atariclone' : ['m68kmint'], 'atarist' : ['m68kmint'], 'atariste' : ['m68kmint'], 'ataritt' : ['m68kmint'], 'athlon' : ['i386'], 'falcon' : ['m68kmint'], 'geode' : ['i386'], 'hades' : ['m68kmint'], 'i386' : ['i386'], 'i486' : ['i386'], 'i586' : ['i386'], 'i686' : ['i386'], 'ia32e' : ['x86_64'], 'ia64' : ['ia64'], 'milan' : ['m68kmint'], 'osfmach3_i386' : ['i386'], 'osfmach3_i486' : ['i386'], 'osfmach3_i586' : ['i386'], 'osfmach3_i686' : ['i386'], 'osfmach3_ppc' : ['ppc'], 'pentium3' : ['i386'], 'pentium4' : ['i386'], 'powerpc' : ['ppc'], 'powerppc' : ['ppc'], 'ppc32dy4' : ['ppc'], 'ppc64iseries' : ['ppc64'], 'ppc64pseries' : ['ppc64'], 'ppc8260' : ['ppc'], 'ppc8560' : ['ppc'], 'ppciseries' : ['ppc'], 'ppcpseries' : ['ppc'], 's390' : ['s390'], 's390x' : ['s390x'], 'sh3' : ['sh3'], 'sh4' : ['sh4'], 'sh4a' : ['sh4'], 'sparc64v' : ['sparc64'], 'sparcv8' : ['sparc'], 'sparcv9' : ['sparc'], 'sparcv9v' : ['sparc'], 'sun4c' : ['sparc'], 'sun4d' : ['sparc'], 'sun4m' : ['sparc'], 'sun4u' : ['sparc64'], 'x86_64' : ['x86_64'], } optflags = { 'alpha' : ['-O2','-g','-mieee'], 'alphaev5' : ['-O2','-g','-mieee','-mtune=ev5'], 'alphaev56' : ['-O2','-g','-mieee','-mtune=ev56'], 'alphaev6' : ['-O2','-g','-mieee','-mtune=ev6'], 'alphaev67' : ['-O2','-g','-mieee','-mtune=ev67'], 'alphapca56' : ['-O2','-g','-mieee','-mtune=pca56'], 'amd64' : ['-O2','-g'], 'armv3l' : ['-O2','-g','-march=armv3'], 'armv4b' : ['-O2','-g','-march=armv4'], 'armv4l' : ['-O2','-g','-march=armv4'], 'armv4tl' : ['-O2','-g','-march=armv4t'], 'armv5tejl' : ['-O2','-g','-march=armv5te'], 'armv5tel' : ['-O2','-g','-march=armv5te'], 'armv6l' : ['-O2','-g','-march=armv6'], 'armv7l' : ['-O2','-g','-march=armv7'], 'atariclone' : ['-O2','-g','-fomit-frame-pointer'], 'atarist' : ['-O2','-g','-fomit-frame-pointer'], 'atariste' : ['-O2','-g','-fomit-frame-pointer'], 'ataritt' : ['-O2','-g','-fomit-frame-pointer'], 'athlon' : ['-O2','-g','-march=athlon'], 'falcon' : ['-O2','-g','-fomit-frame-pointer'], 'fat' : ['-O2','-g','-arch','i386','-arch','ppc'], 'geode' : ['-Os','-g','-m32','-march=geode'], 'hades' : ['-O2','-g','-fomit-frame-pointer'], 'hppa1.0' : ['-O2','-g','-mpa-risc-1-0'], 'hppa1.1' : ['-O2','-g','-mpa-risc-1-0'], 'hppa1.2' : ['-O2','-g','-mpa-risc-1-0'], 'hppa2.0' : ['-O2','-g','-mpa-risc-1-0'], 'i386' : ['-O2','-g','-march=i386','-mtune=i686'], 'i486' : ['-O2','-g','-march=i486'], 'i586' : ['-O2','-g','-march=i586'], 'i686' : ['-O2','-g','-march=i686'], 'ia32e' : ['-O2','-g'], 'ia64' : ['-O2','-g'], 'm68k' : ['-O2','-g','-fomit-frame-pointer'], 'milan' : ['-O2','-g','-fomit-frame-pointer'], 'mips' : ['-O2','-g'], 'mipsel' : ['-O2','-g'], 'parisc' : ['-O2','-g','-mpa-risc-1-0'], 'pentium3' : ['-O2','-g','-march=pentium3'], 'pentium4' : ['-O2','-g','-march=pentium4'], 'ppc' : ['-O2','-g','-fsigned-char'], 'ppc32dy4' : ['-O2','-g','-fsigned-char'], 'ppc64' : ['-O2','-g','-fsigned-char'], 'ppc8260' : ['-O2','-g','-fsigned-char'], 'ppc8560' : ['-O2','-g','-fsigned-char'], 'ppciseries' : ['-O2','-g','-fsigned-char'], 'ppcpseries' : ['-O2','-g','-fsigned-char'], 's390' : ['-O2','-g'], 's390x' : ['-O2','-g'], 'sh3' : ['-O2','-g'], 'sh4' : ['-O2','-g','-mieee'], 'sh4a' : ['-O2','-g','-mieee'], 'sparc' : ['-O2','-g','-m32','-mtune=ultrasparc'], 'sparc64' : ['-O2','-g','-m64','-mtune=ultrasparc'], 'sparc64v' : ['-O2','-g','-m64','-mtune=niagara'], 'sparcv8' : ['-O2','-g','-m32','-mtune=ultrasparc','-mv8'], 'sparcv9' : ['-O2','-g','-m32','-mtune=ultrasparc'], 'sparcv9v' : ['-O2','-g','-m32','-mtune=niagara'], 'x86_64' : ['-O2','-g'], } arch_canon = { 'IP' : ['sgi','7'], 'alpha' : ['alpha','2'], 'alphaev5' : ['alphaev5','2'], 'alphaev56' : ['alphaev56','2'], 'alphaev6' : ['alphaev6','2'], 'alphaev67' : ['alphaev67','2'], 'alphapca56' : ['alphapca56','2'], 'amd64' : ['amd64','1'], 'armv3l' : ['armv3l','12'], 'armv4b' : ['armv4b','12'], 'armv4l' : ['armv4l','12'], 'armv5tejl' : ['armv5tejl','12'], 'armv5tel' : ['armv5tel','12'], 'armv6l' : ['armv6l','12'], 'armv7l' : ['armv7l','12'], 'atariclone' : ['m68kmint','13'], 'atarist' : ['m68kmint','13'], 'atariste' : ['m68kmint','13'], 'ataritt' : ['m68kmint','13'], 'athlon' : ['athlon','1'], 'falcon' : ['m68kmint','13'], 'geode' : ['geode','1'], 'hades' : ['m68kmint','13'], 'i370' : ['i370','14'], 'i386' : ['i386','1'], 'i486' : ['i486','1'], 'i586' : ['i586','1'], 'i686' : ['i686','1'], 'ia32e' : ['ia32e','1'], 'ia64' : ['ia64','9'], 'm68k' : ['m68k','6'], 'm68kmint' : ['m68kmint','13'], 'milan' : ['m68kmint','13'], 'mips' : ['mips','4'], 'mipsel' : ['mipsel','11'], 'pentium3' : ['pentium3','1'], 'pentium4' : ['pentium4','1'], 'ppc' : ['ppc','5'], 'ppc32dy4' : ['ppc32dy4','5'], 'ppc64' : ['ppc64','16'], 'ppc64iseries' : ['ppc64iseries','16'], 'ppc64pseries' : ['ppc64pseries','16'], 'ppc8260' : ['ppc8260','5'], 'ppc8560' : ['ppc8560','5'], 'ppciseries' : ['ppciseries','5'], 'ppcpseries' : ['ppcpseries','5'], 'rs6000' : ['rs6000','8'], 's390' : ['s390','14'], 's390x' : ['s390x','15'], 'sh' : ['sh','17'], 'sh3' : ['sh3','17'], 'sh4' : ['sh4','17'], 'sh4a' : ['sh4a','17'], 'sparc' : ['sparc','3'], 'sparc64' : ['sparc64','2'], 'sparc64v' : ['sparc64v','2'], 'sparcv8' : ['sparcv8','3'], 'sparcv9' : ['sparcv9','3'], 'sparcv9v' : ['sparcv9v','3'], 'sun4' : ['sparc','3'], 'sun4c' : ['sparc','3'], 'sun4d' : ['sparc','3'], 'sun4m' : ['sparc','3'], 'sun4u' : ['sparc64','2'], 'x86_64' : ['x86_64','1'], 'xtensa' : ['xtensa','18'], } # End of rpmrc dictionaries (Marker, don't change or remove!) def defaultMachine(use_rpm_default=True): """ Return the canonicalized machine name. """ if use_rpm_default: try: # This should be the most reliable way to get the default arch rmachine = subprocess.check_output(['rpm', '--eval=%_target_cpu'], shell=False).rstrip() rmachine = SCons.Util.to_str(rmachine) except Exception as e: # Something went wrong, try again by looking up platform.machine() return defaultMachine(False) else: rmachine = platform.machine() # Try to lookup the string in the canon table if rmachine in arch_canon: rmachine = arch_canon[rmachine][0] return rmachine def defaultSystem(): """ Return the canonicalized system name. """ rsystem = platform.system() # Try to lookup the string in the canon tables if rsystem in os_canon: rsystem = os_canon[rsystem][0] return rsystem def defaultNames(): """ Return the canonicalized machine and system name. """ return defaultMachine(), defaultSystem() def updateRpmDicts(rpmrc, pyfile): """ Read the given rpmrc file with RPM definitions and update the info dictionaries in the file pyfile with it. The arguments will usually be 'rpmrc.in' from a recent RPM source tree, and 'rpmutils.py' referring to this script itself. See also usage() below. """ try: # Read old rpmutils.py file oldpy = open(pyfile,"r").readlines() # Read current rpmrc.in file rpm = open(rpmrc,"r").readlines() # Parse for data data = {} # Allowed section names that get parsed sections = ['optflags', 'arch_canon', 'os_canon', 'buildarchtranslate', 'arch_compat', 'os_compat', 'buildarch_compat'] for l in rpm: l = l.rstrip('\n').replace(':',' ') # Skip comments if l.lstrip().startswith('#'): continue tokens = l.strip().split() if len(tokens): key = tokens[0] if key in sections: # Have we met this section before? if tokens[0] not in data: # No, so insert it data[key] = {} # Insert data data[key][tokens[1]] = tokens[2:] # Write new rpmutils.py file out = open(pyfile,"w") pm = 0 for l in oldpy: if pm: if l.startswith('# End of rpmrc dictionaries'): pm = 0 out.write(l) else: out.write(l) if l.startswith('# Start of rpmrc dictionaries'): pm = 1 # Write data sections to single dictionaries for key, entries in data.items(): out.write("%s = {\n" % key) for arch in sorted(entries.keys()): out.write(" '%s' : ['%s'],\n" % (arch, "','".join(entries[arch]))) out.write("}\n\n") out.close() except: pass def usage(): print("rpmutils.py rpmrc.in rpmutils.py") def main(): import sys if len(sys.argv) < 3: usage() sys.exit(0) updateRpmDicts(sys.argv[1], sys.argv[2]) if __name__ == "__main__": main() scons-3.0.1/engine/SCons/Tool/hpcxx.py0000664000175000017500000000526513202656511021064 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.hpc++ Tool-specific initialization for c++ on HP/UX. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/hpcxx.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Util import SCons.Tool.cxx cplusplus = SCons.Tool.cxx #cplusplus = __import__('cxx', globals(), locals(), []) acc = None # search for the acc compiler and linker front end try: dirs = os.listdir('/opt') except (IOError, OSError): # Not being able to read the directory because it doesn't exist # (IOError) or isn't readable (OSError) is okay. dirs = [] for dir in dirs: cc = '/opt/' + dir + '/bin/aCC' if os.path.exists(cc): acc = cc break def generate(env): """Add Builders and construction variables for g++ to an Environment.""" cplusplus.generate(env) if acc: env['CXX'] = acc or 'aCC' env['SHCXXFLAGS'] = SCons.Util.CLVar('$CXXFLAGS +Z') # determine version of aCC line = os.popen(acc + ' -V 2>&1').readline().rstrip() if line.find('aCC: HP ANSI C++') == 0: env['CXXVERSION'] = line.split()[-1] if env['PLATFORM'] == 'cygwin': env['SHCXXFLAGS'] = SCons.Util.CLVar('$CXXFLAGS') else: env['SHCXXFLAGS'] = SCons.Util.CLVar('$CXXFLAGS +Z') def exists(env): return acc # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/clang.py0000664000175000017500000000555313202656511021016 0ustar bdbaddogbdbaddog00000000000000# -*- coding: utf-8; -*- """SCons.Tool.clang Tool-specific initialization for clang. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # # __revision__ = "src/engine/SCons/Tool/clang.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" # Based on SCons/Tool/gcc.py by Paweł Tomulik 2014 as a separate tool. # Brought into the SCons mainline by Russel Winder 2017. import os import re import subprocess import sys import SCons.Util import SCons.Tool.cc compilers = ['clang'] def generate(env): """Add Builders and construction variables for clang to an Environment.""" SCons.Tool.cc.generate(env) env['CC'] = env.Detect(compilers) or 'clang' if env['PLATFORM'] in ['cygwin', 'win32']: env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS') else: env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS -fPIC') # determine compiler version if env['CC']: #pipe = SCons.Action._subproc(env, [env['CC'], '-dumpversion'], pipe = SCons.Action._subproc(env, [env['CC'], '--version'], stdin='devnull', stderr='devnull', stdout=subprocess.PIPE) if pipe.wait() != 0: return # clang -dumpversion is of no use line = pipe.stdout.readline() if sys.version_info[0] > 2: line = line.decode() match = re.search(r'clang +version +([0-9]+(?:\.[0-9]+)+)', line) if match: env['CCVERSION'] = match.group(1) def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sgiar.py0000664000175000017500000000501013202656512021024 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sgiar Tool-specific initialization for SGI ar (library archive). If CC exists, static libraries should be built with it, so the prelinker has a chance to resolve C++ template instantiations. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sgiar.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util def generate(env): """Add Builders and construction variables for ar to an Environment.""" SCons.Tool.createStaticLibBuilder(env) if env.Detect('CC'): env['AR'] = 'CC' env['ARFLAGS'] = SCons.Util.CLVar('-ar') env['ARCOM'] = '$AR $ARFLAGS -o $TARGET $SOURCES' else: env['AR'] = 'ar' env['ARFLAGS'] = SCons.Util.CLVar('r') env['ARCOM'] = '$AR $ARFLAGS $TARGET $SOURCES' env['SHLINK'] = '$LINK' env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -shared') env['SHLINKCOM'] = '$SHLINK $SHLINKFLAGS -o $TARGET $SOURCES $_LIBDIRFLAGS $_LIBFLAGS' env['LIBPREFIX'] = 'lib' env['LIBSUFFIX'] = '.a' def exists(env): return env.Detect('CC') or env.Detect('ar') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/msgfmt.py0000664000175000017500000001051213202656512021217 0ustar bdbaddogbdbaddog00000000000000""" msgfmt tool """ # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/msgfmt.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from SCons.Builder import BuilderBase ############################################################################# class _MOFileBuilder(BuilderBase): """ The builder class for `MO` files. The reason for this builder to exists and its purpose is quite simillar as for `_POFileBuilder`. This time, we extend list of sources, not targets, and call `BuilderBase._execute()` only once (as we assume single-target here). """ def _execute(self, env, target, source, *args, **kw): # Here we add support for 'LINGUAS_FILE' keyword. Emitter is not suitable # in this case, as it is called too late (after multiple sources # are handled single_source builder. import SCons.Util from SCons.Tool.GettextCommon import _read_linguas_from_files linguas_files = None if 'LINGUAS_FILE' in env and env['LINGUAS_FILE'] is not None: linguas_files = env['LINGUAS_FILE'] # This should prevent from endless recursion. env['LINGUAS_FILE'] = None # We read only languages. Suffixes shall be added automatically. linguas = _read_linguas_from_files(env, linguas_files) if SCons.Util.is_List(source): source.extend(linguas) elif source is not None: source = [source] + linguas else: source = linguas result = BuilderBase._execute(self,env,target,source,*args, **kw) if linguas_files is not None: env['LINGUAS_FILE'] = linguas_files return result ############################################################################# ############################################################################# def _create_mo_file_builder(env, **kw): """ Create builder object for `MOFiles` builder """ import SCons.Action # FIXME: What factory use for source? Ours or their? kw['action'] = SCons.Action.Action('$MSGFMTCOM','$MSGFMTCOMSTR') kw['suffix'] = '$MOSUFFIX' kw['src_suffix'] = '$POSUFFIX' kw['src_builder'] = '_POUpdateBuilder' kw['single_source'] = True return _MOFileBuilder(**kw) ############################################################################# ############################################################################# def generate(env,**kw): """ Generate `msgfmt` tool """ import SCons.Util from SCons.Tool.GettextCommon import _detect_msgfmt try: env['MSGFMT'] = _detect_msgfmt(env) except: env['MSGFMT'] = 'msgfmt' env.SetDefault( MSGFMTFLAGS = [ SCons.Util.CLVar('-c') ], MSGFMTCOM = '$MSGFMT $MSGFMTFLAGS -o $TARGET $SOURCE', MSGFMTCOMSTR = '', MOSUFFIX = ['.mo'], POSUFFIX = ['.po'] ) env.Append( BUILDERS = { 'MOFiles' : _create_mo_file_builder(env) } ) ############################################################################# ############################################################################# def exists(env): """ Check if the tool exists """ from SCons.Tool.GettextCommon import _msgfmt_exists try: return _msgfmt_exists(env) except: return False ############################################################################# # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/icc.py0000664000175000017500000000421613202656511020463 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.icc Tool-specific initialization for the OS/2 icc compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/icc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import cc def generate(env): """Add Builders and construction variables for the OS/2 to an Environment.""" cc.generate(env) env['CC'] = 'icc' env['CCCOM'] = '$CC $CFLAGS $CCFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS /c $SOURCES /Fo$TARGET' env['CXXCOM'] = '$CXX $CXXFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS /c $SOURCES /Fo$TARGET' env['CPPDEFPREFIX'] = '/D' env['CPPDEFSUFFIX'] = '' env['INCPREFIX'] = '/I' env['INCSUFFIX'] = '' env['CFILESUFFIX'] = '.c' env['CXXFILESUFFIX'] = '.cc' def exists(env): return env.Detect('icc') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/mingw.py0000664000175000017500000001476313202656512021057 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.gcc Tool-specific initialization for MinGW (http://www.mingw.org/) There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/mingw.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import SCons.Action import SCons.Builder import SCons.Defaults import SCons.Tool import SCons.Util # This is what we search for to find mingw: key_program = 'mingw32-gcc' def find(env): # First search in the SCons path path=env.WhereIs(key_program) if (path): return path # then the OS path: path=SCons.Util.WhereIs(key_program) if (path): return path # If that doesn't work try default location for mingw save_path=env['ENV']['PATH'] env.AppendENVPath('PATH',r'c:\MinGW\bin') path =env.WhereIs(key_program) if not path: env['ENV']['PATH']=save_path return path def shlib_generator(target, source, env, for_signature): cmd = SCons.Util.CLVar(['$SHLINK', '$SHLINKFLAGS']) dll = env.FindIxes(target, 'SHLIBPREFIX', 'SHLIBSUFFIX') if dll: cmd.extend(['-o', dll]) cmd.extend(['$SOURCES', '$_LIBDIRFLAGS', '$_LIBFLAGS']) implib = env.FindIxes(target, 'LIBPREFIX', 'LIBSUFFIX') if implib: cmd.append('-Wl,--out-implib,'+implib.get_string(for_signature)) def_target = env.FindIxes(target, 'WINDOWSDEFPREFIX', 'WINDOWSDEFSUFFIX') insert_def = env.subst("$WINDOWS_INSERT_DEF") if not insert_def in ['', '0', 0] and def_target: \ cmd.append('-Wl,--output-def,'+def_target.get_string(for_signature)) return [cmd] def shlib_emitter(target, source, env): dll = env.FindIxes(target, 'SHLIBPREFIX', 'SHLIBSUFFIX') no_import_lib = env.get('no_import_lib', 0) if not dll: raise SCons.Errors.UserError("A shared library should have exactly one target with the suffix: %s Target(s) are:%s" % \ (env.subst("$SHLIBSUFFIX"), ",".join([str(t) for t in target]))) if not no_import_lib and \ not env.FindIxes(target, 'LIBPREFIX', 'LIBSUFFIX'): # Create list of target libraries as strings targetStrings=env.ReplaceIxes(dll, 'SHLIBPREFIX', 'SHLIBSUFFIX', 'LIBPREFIX', 'LIBSUFFIX') # Now add file nodes to target list target.append(env.fs.File(targetStrings)) # Append a def file target if there isn't already a def file target # or a def file source or the user has explicitly asked for the target # to be emitted. def_source = env.FindIxes(source, 'WINDOWSDEFPREFIX', 'WINDOWSDEFSUFFIX') def_target = env.FindIxes(target, 'WINDOWSDEFPREFIX', 'WINDOWSDEFSUFFIX') skip_def_insert = env.subst("$WINDOWS_INSERT_DEF") in ['', '0', 0] if not def_source and not def_target and not skip_def_insert: # Create list of target libraries and def files as strings targetStrings=env.ReplaceIxes(dll, 'SHLIBPREFIX', 'SHLIBSUFFIX', 'WINDOWSDEFPREFIX', 'WINDOWSDEFSUFFIX') # Now add file nodes to target list target.append(env.fs.File(targetStrings)) return (target, source) shlib_action = SCons.Action.Action(shlib_generator, generator=1) res_action = SCons.Action.Action('$RCCOM', '$RCCOMSTR') res_builder = SCons.Builder.Builder(action=res_action, suffix='.o', source_scanner=SCons.Tool.SourceFileScanner) SCons.Tool.SourceFileScanner.add_scanner('.rc', SCons.Defaults.CScan) def generate(env): mingw = find(env) if mingw: dir = os.path.dirname(mingw) env.PrependENVPath('PATH', dir ) # Most of mingw is the same as gcc and friends... gnu_tools = ['gcc', 'g++', 'gnulink', 'ar', 'gas', 'gfortran', 'm4'] for tool in gnu_tools: SCons.Tool.Tool(tool)(env) #... but a few things differ: env['CC'] = 'gcc' env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS') env['CXX'] = 'g++' env['SHCXXFLAGS'] = SCons.Util.CLVar('$CXXFLAGS') env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -shared') env['SHLINKCOM'] = shlib_action env['LDMODULECOM'] = shlib_action env.Append(SHLIBEMITTER = [shlib_emitter]) env.Append(LDMODULEEMITTER = [shlib_emitter]) env['AS'] = 'as' env['WIN32DEFPREFIX'] = '' env['WIN32DEFSUFFIX'] = '.def' env['WINDOWSDEFPREFIX'] = '${WIN32DEFPREFIX}' env['WINDOWSDEFSUFFIX'] = '${WIN32DEFSUFFIX}' env['SHOBJSUFFIX'] = '.o' env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 1 env['RC'] = 'windres' env['RCFLAGS'] = SCons.Util.CLVar('') env['RCINCFLAGS'] = '$( ${_concat(RCINCPREFIX, CPPPATH, RCINCSUFFIX, __env__, RDirs, TARGET, SOURCE)} $)' env['RCINCPREFIX'] = '--include-dir ' env['RCINCSUFFIX'] = '' env['RCCOM'] = '$RC $_CPPDEFFLAGS $RCINCFLAGS ${RCINCPREFIX} ${SOURCE.dir} $RCFLAGS -i $SOURCE -o $TARGET' env['BUILDERS']['RES'] = res_builder # Some setting from the platform also have to be overridden: env['OBJSUFFIX'] = '.o' env['LIBPREFIX'] = 'lib' env['LIBSUFFIX'] = '.a' env['PROGSUFFIX'] = '.exe' def exists(env): return find(env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/f90.py0000664000175000017500000000375713202656511020334 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.f90 Tool-specific initialization for the generic Posix f90 Fortran compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/f90.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Scanner.Fortran import SCons.Tool import SCons.Util from SCons.Tool.FortranCommon import add_all_to_env, add_f90_to_env compilers = ['f90'] def generate(env): add_all_to_env(env) add_f90_to_env(env) fc = env.Detect(compilers) or 'f90' env['F90'] = fc env['SHF90'] = fc env['FORTRAN'] = fc env['SHFORTRAN'] = fc def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/install.py0000664000175000017500000003666013202656511021403 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.install Tool-specific initialization for the install tool. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/Tool/install.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import re import shutil import stat import SCons.Action import SCons.Tool import SCons.Util # # We keep track of *all* installed files. _INSTALLED_FILES = [] _UNIQUE_INSTALLED_FILES = None class CopytreeError(EnvironmentError): pass # This is a patched version of shutil.copytree from python 2.5. It # doesn't fail if the dir exists, which regular copytree does # (annoyingly). Note the XXX comment in the docstring. def scons_copytree(src, dst, symlinks=False): """Recursively copy a directory tree using copy2(). The destination directory must not already exist. If exception(s) occur, an CopytreeError is raised with a list of reasons. If the optional symlinks flag is true, symbolic links in the source tree result in symbolic links in the destination tree; if it is false, the contents of the files pointed to by symbolic links are copied. XXX Consider this example code rather than the ultimate tool. """ names = os.listdir(src) # garyo@genarts.com fix: check for dir before making dirs. if not os.path.exists(dst): os.makedirs(dst) errors = [] for name in names: srcname = os.path.join(src, name) dstname = os.path.join(dst, name) try: if symlinks and os.path.islink(srcname): linkto = os.readlink(srcname) os.symlink(linkto, dstname) elif os.path.isdir(srcname): scons_copytree(srcname, dstname, symlinks) else: shutil.copy2(srcname, dstname) # XXX What about devices, sockets etc.? except (IOError, os.error) as why: errors.append((srcname, dstname, str(why))) # catch the CopytreeError from the recursive copytree so that we can # continue with other files except CopytreeError as err: errors.extend(err.args[0]) try: shutil.copystat(src, dst) except SCons.Util.WinError: # can't copy file access times on Windows pass except OSError as why: errors.extend((src, dst, str(why))) if errors: raise CopytreeError(errors) # # Functions doing the actual work of the Install Builder. # def copyFunc(dest, source, env): """Install a source file or directory into a destination by copying, (including copying permission/mode bits).""" if os.path.isdir(source): if os.path.exists(dest): if not os.path.isdir(dest): raise SCons.Errors.UserError("cannot overwrite non-directory `%s' with a directory `%s'" % (str(dest), str(source))) else: parent = os.path.split(dest)[0] if not os.path.exists(parent): os.makedirs(parent) scons_copytree(source, dest) else: shutil.copy2(source, dest) st = os.stat(source) os.chmod(dest, stat.S_IMODE(st[stat.ST_MODE]) | stat.S_IWRITE) return 0 # # Functions doing the actual work of the InstallVersionedLib Builder. # def copyFuncVersionedLib(dest, source, env): """Install a versioned library into a destination by copying, (including copying permission/mode bits) and then creating required symlinks.""" if os.path.isdir(source): raise SCons.Errors.UserError("cannot install directory `%s' as a version library" % str(source) ) else: # remove the link if it is already there try: os.remove(dest) except: pass shutil.copy2(source, dest) st = os.stat(source) os.chmod(dest, stat.S_IMODE(st[stat.ST_MODE]) | stat.S_IWRITE) installShlibLinks(dest, source, env) return 0 def listShlibLinksToInstall(dest, source, env): install_links = [] source = env.arg2nodes(source) dest = env.fs.File(dest) install_dir = dest.get_dir() for src in source: symlinks = getattr(getattr(src,'attributes',None), 'shliblinks', None) if symlinks: for link, linktgt in symlinks: link_base = os.path.basename(link.get_path()) linktgt_base = os.path.basename(linktgt.get_path()) install_link = env.fs.File(link_base, install_dir) install_linktgt = env.fs.File(linktgt_base, install_dir) install_links.append((install_link, install_linktgt)) return install_links def installShlibLinks(dest, source, env): """If we are installing a versioned shared library create the required links.""" Verbose = False symlinks = listShlibLinksToInstall(dest, source, env) if Verbose: print('installShlibLinks: symlinks={:r}'.format(SCons.Tool.StringizeLibSymlinks(symlinks))) if symlinks: SCons.Tool.CreateLibSymlinks(env, symlinks) return def installFunc(target, source, env): """Install a source file into a target using the function specified as the INSTALL construction variable.""" try: install = env['INSTALL'] except KeyError: raise SCons.Errors.UserError('Missing INSTALL construction variable.') assert len(target)==len(source), \ "Installing source %s into target %s: target and source lists must have same length."%(list(map(str, source)), list(map(str, target))) for t,s in zip(target,source): if install(t.get_path(),s.get_path(),env): return 1 return 0 def installFuncVersionedLib(target, source, env): """Install a versioned library into a target using the function specified as the INSTALLVERSIONEDLIB construction variable.""" try: install = env['INSTALLVERSIONEDLIB'] except KeyError: raise SCons.Errors.UserError('Missing INSTALLVERSIONEDLIB construction variable.') assert len(target)==len(source), \ "Installing source %s into target %s: target and source lists must have same length."%(list(map(str, source)), list(map(str, target))) for t,s in zip(target,source): if hasattr(t.attributes, 'shlibname'): tpath = os.path.join(t.get_dir(), t.attributes.shlibname) else: tpath = t.get_path() if install(tpath,s.get_path(),env): return 1 return 0 def stringFunc(target, source, env): installstr = env.get('INSTALLSTR') if installstr: return env.subst_target_source(installstr, 0, target, source) target = str(target[0]) source = str(source[0]) if os.path.isdir(source): type = 'directory' else: type = 'file' return 'Install %s: "%s" as "%s"' % (type, source, target) # # Emitter functions # def add_targets_to_INSTALLED_FILES(target, source, env): """ An emitter that adds all target files to the list stored in the _INSTALLED_FILES global variable. This way all installed files of one scons call will be collected. """ global _INSTALLED_FILES, _UNIQUE_INSTALLED_FILES _INSTALLED_FILES.extend(target) _UNIQUE_INSTALLED_FILES = None return (target, source) def add_versioned_targets_to_INSTALLED_FILES(target, source, env): """ An emitter that adds all target files to the list stored in the _INSTALLED_FILES global variable. This way all installed files of one scons call will be collected. """ global _INSTALLED_FILES, _UNIQUE_INSTALLED_FILES Verbose = False _INSTALLED_FILES.extend(target) if Verbose: print("add_versioned_targets_to_INSTALLED_FILES: target={:r}".format(list(map(str, target)))) symlinks = listShlibLinksToInstall(target[0], source, env) if symlinks: SCons.Tool.EmitLibSymlinks(env, symlinks, target[0]) _UNIQUE_INSTALLED_FILES = None return (target, source) class DESTDIR_factory(object): """ A node factory, where all files will be relative to the dir supplied in the constructor. """ def __init__(self, env, dir): self.env = env self.dir = env.arg2nodes( dir, env.fs.Dir )[0] def Entry(self, name): name = SCons.Util.make_path_relative(name) return self.dir.Entry(name) def Dir(self, name): name = SCons.Util.make_path_relative(name) return self.dir.Dir(name) # # The Builder Definition # install_action = SCons.Action.Action(installFunc, stringFunc) installas_action = SCons.Action.Action(installFunc, stringFunc) installVerLib_action = SCons.Action.Action(installFuncVersionedLib, stringFunc) BaseInstallBuilder = None def InstallBuilderWrapper(env, target=None, source=None, dir=None, **kw): if target and dir: import SCons.Errors raise SCons.Errors.UserError("Both target and dir defined for Install(), only one may be defined.") if not dir: dir=target import SCons.Script install_sandbox = SCons.Script.GetOption('install_sandbox') if install_sandbox: target_factory = DESTDIR_factory(env, install_sandbox) else: target_factory = env.fs try: dnodes = env.arg2nodes(dir, target_factory.Dir) except TypeError: raise SCons.Errors.UserError("Target `%s' of Install() is a file, but should be a directory. Perhaps you have the Install() arguments backwards?" % str(dir)) sources = env.arg2nodes(source, env.fs.Entry) tgt = [] for dnode in dnodes: for src in sources: # Prepend './' so the lookup doesn't interpret an initial # '#' on the file name portion as meaning the Node should # be relative to the top-level SConstruct directory. target = env.fs.Entry('.'+os.sep+src.name, dnode) tgt.extend(BaseInstallBuilder(env, target, src, **kw)) return tgt def InstallAsBuilderWrapper(env, target=None, source=None, **kw): result = [] for src, tgt in map(lambda x, y: (x, y), source, target): result.extend(BaseInstallBuilder(env, tgt, src, **kw)) return result BaseVersionedInstallBuilder = None def InstallVersionedBuilderWrapper(env, target=None, source=None, dir=None, **kw): if target and dir: import SCons.Errors raise SCons.Errors.UserError("Both target and dir defined for Install(), only one may be defined.") if not dir: dir=target import SCons.Script install_sandbox = SCons.Script.GetOption('install_sandbox') if install_sandbox: target_factory = DESTDIR_factory(env, install_sandbox) else: target_factory = env.fs try: dnodes = env.arg2nodes(dir, target_factory.Dir) except TypeError: raise SCons.Errors.UserError("Target `%s' of Install() is a file, but should be a directory. Perhaps you have the Install() arguments backwards?" % str(dir)) sources = env.arg2nodes(source, env.fs.Entry) tgt = [] for dnode in dnodes: for src in sources: # Prepend './' so the lookup doesn't interpret an initial # '#' on the file name portion as meaning the Node should # be relative to the top-level SConstruct directory. target = env.fs.Entry('.'+os.sep+src.name, dnode) tgt.extend(BaseVersionedInstallBuilder(env, target, src, **kw)) return tgt added = None def generate(env): from SCons.Script import AddOption, GetOption global added if not added: added = 1 AddOption('--install-sandbox', dest='install_sandbox', type="string", action="store", help='A directory under which all installed files will be placed.') global BaseInstallBuilder if BaseInstallBuilder is None: install_sandbox = GetOption('install_sandbox') if install_sandbox: target_factory = DESTDIR_factory(env, install_sandbox) else: target_factory = env.fs BaseInstallBuilder = SCons.Builder.Builder( action = install_action, target_factory = target_factory.Entry, source_factory = env.fs.Entry, multi = 1, emitter = [ add_targets_to_INSTALLED_FILES, ], source_scanner = SCons.Scanner.Base( {}, name = 'Install', recursive = False ), name = 'InstallBuilder') global BaseVersionedInstallBuilder if BaseVersionedInstallBuilder is None: install_sandbox = GetOption('install_sandbox') if install_sandbox: target_factory = DESTDIR_factory(env, install_sandbox) else: target_factory = env.fs BaseVersionedInstallBuilder = SCons.Builder.Builder( action = installVerLib_action, target_factory = target_factory.Entry, source_factory = env.fs.Entry, multi = 1, emitter = [ add_versioned_targets_to_INSTALLED_FILES, ], name = 'InstallVersionedBuilder') env['BUILDERS']['_InternalInstall'] = InstallBuilderWrapper env['BUILDERS']['_InternalInstallAs'] = InstallAsBuilderWrapper env['BUILDERS']['_InternalInstallVersionedLib'] = InstallVersionedBuilderWrapper # We'd like to initialize this doing something like the following, # but there isn't yet support for a ${SOURCE.type} expansion that # will print "file" or "directory" depending on what's being # installed. For now we punt by not initializing it, and letting # the stringFunc() that we put in the action fall back to the # hand-crafted default string if it's not set. # #try: # env['INSTALLSTR'] #except KeyError: # env['INSTALLSTR'] = 'Install ${SOURCE.type}: "$SOURCES" as "$TARGETS"' try: env['INSTALL'] except KeyError: env['INSTALL'] = copyFunc try: env['INSTALLVERSIONEDLIB'] except KeyError: env['INSTALLVERSIONEDLIB'] = copyFuncVersionedLib def exists(env): return 1 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/bcc32.py0000664000175000017500000000564213202656511020625 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.bcc32 XXX """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/bcc32.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import SCons.Defaults import SCons.Tool import SCons.Util def findIt(program, env): # First search in the SCons path and then the OS path: borwin = env.WhereIs(program) or SCons.Util.WhereIs(program) if borwin: dir = os.path.dirname(borwin) env.PrependENVPath('PATH', dir) return borwin def generate(env): findIt('bcc32', env) """Add Builders and construction variables for bcc to an Environment.""" static_obj, shared_obj = SCons.Tool.createObjBuilders(env) for suffix in ['.c', '.cpp']: static_obj.add_action(suffix, SCons.Defaults.CAction) shared_obj.add_action(suffix, SCons.Defaults.ShCAction) static_obj.add_emitter(suffix, SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter(suffix, SCons.Defaults.SharedObjectEmitter) env['CC'] = 'bcc32' env['CCFLAGS'] = SCons.Util.CLVar('') env['CFLAGS'] = SCons.Util.CLVar('') env['CCCOM'] = '$CC -q $CFLAGS $CCFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS -c -o$TARGET $SOURCES' env['SHCC'] = '$CC' env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS') env['SHCFLAGS'] = SCons.Util.CLVar('$CFLAGS') env['SHCCCOM'] = '$SHCC -WD $SHCFLAGS $SHCCFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS -c -o$TARGET $SOURCES' env['CPPDEFPREFIX'] = '-D' env['CPPDEFSUFFIX'] = '' env['INCPREFIX'] = '-I' env['INCSUFFIX'] = '' env['SHOBJSUFFIX'] = '.dll' env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 0 env['CFILESUFFIX'] = '.cpp' def exists(env): return findIt('bcc32', env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/gcc.py0000664000175000017500000000671213202656511020464 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.gcc Tool-specific initialization for gcc. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/gcc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import cc import os import re import subprocess import SCons.Util compilers = ['gcc', 'cc'] def generate(env): """Add Builders and construction variables for gcc to an Environment.""" if 'CC' not in env: env['CC'] = env.Detect(compilers) or compilers[0] cc.generate(env) if env['PLATFORM'] in ['cygwin', 'win32']: env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS') else: env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS -fPIC') # determine compiler version version = detect_version(env, env['CC']) if version: env['CCVERSION'] = version def exists(env): # is executable, and is a GNU compiler (or accepts '--version' at least) return detect_version(env, env.Detect(env.get('CC', compilers))) def detect_version(env, cc): """Return the version of the GNU compiler, or None if it is not a GNU compiler.""" cc = env.subst(cc) if not cc: return None version = None #pipe = SCons.Action._subproc(env, SCons.Util.CLVar(cc) + ['-dumpversion'], pipe = SCons.Action._subproc(env, SCons.Util.CLVar(cc) + ['--version'], stdin = 'devnull', stderr = 'devnull', stdout = subprocess.PIPE) # -dumpversion was added in GCC 3.0. As long as we're supporting # GCC versions older than that, we should use --version and a # regular expression. #line = pipe.stdout.read().strip() #if line: # version = line line = SCons.Util.to_str(pipe.stdout.readline()) match = re.search(r'[0-9]+(\.[0-9]+)+', line) if match: version = match.group(0) # Non-GNU compiler's output (like AIX xlc's) may exceed the stdout buffer: # So continue with reading to let the child process actually terminate. while SCons.Util.to_str(pipe.stdout.readline()): pass ret = pipe.wait() if ret != 0: return None return version # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/textfile.py0000664000175000017500000001514513202656512021555 0ustar bdbaddogbdbaddog00000000000000# -*- python -*- # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __doc__ = """ Textfile/Substfile builder for SCons. Create file 'target' which typically is a textfile. The 'source' may be any combination of strings, Nodes, or lists of same. A 'linesep' will be put between any part written and defaults to os.linesep. The only difference between the Textfile builder and the Substfile builder is that strings are converted to Value() nodes for the former and File() nodes for the latter. To insert files in the former or strings in the latter, wrap them in a File() or Value(), respectively. The values of SUBST_DICT first have any construction variables expanded (its keys are not expanded). If a value of SUBST_DICT is a python callable function, it is called and the result is expanded as the value. Values are substituted in a "random" order; if any substitution could be further expanded by another substitution, it is unpredictable whether the expansion will occur. """ __revision__ = "src/engine/SCons/Tool/textfile.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons import os import re from SCons.Node import Node from SCons.Node.Python import Value from SCons.Util import is_String, is_Sequence, is_Dict, to_bytes, PY3 if PY3: TEXTFILE_FILE_WRITE_MODE = 'w' else: TEXTFILE_FILE_WRITE_MODE = 'wb' LINESEP = '\n' def _do_subst(node, subs): """ Fetch the node contents and replace all instances of the keys with their values. For example, if subs is {'%VERSION%': '1.2345', '%BASE%': 'MyProg', '%prefix%': '/bin'}, then all instances of %VERSION% in the file will be replaced with 1.2345 and so forth. """ contents = node.get_text_contents() if subs: for (k, val) in subs: contents = re.sub(k, val, contents) if 'b' in TEXTFILE_FILE_WRITE_MODE: try: contents = bytearray(contents, 'utf-8') except UnicodeDecodeError: # contents is already utf-8 encoded python 2 str i.e. a byte array contents = bytearray(contents) return contents def _action(target, source, env): # prepare the line separator linesep = env['LINESEPARATOR'] if linesep is None: linesep = LINESEP # os.linesep elif is_String(linesep): pass elif isinstance(linesep, Value): linesep = linesep.get_text_contents() else: raise SCons.Errors.UserError('unexpected type/class for LINESEPARATOR: %s' % repr(linesep), None) if 'b' in TEXTFILE_FILE_WRITE_MODE: linesep = to_bytes(linesep) # create a dictionary to use for the substitutions if 'SUBST_DICT' not in env: subs = None # no substitutions else: subst_dict = env['SUBST_DICT'] if is_Dict(subst_dict): subst_dict = list(subst_dict.items()) elif is_Sequence(subst_dict): pass else: raise SCons.Errors.UserError('SUBST_DICT must be dict or sequence') subs = [] for (k, value) in subst_dict: if callable(value): value = value() if is_String(value): value = env.subst(value) else: value = str(value) subs.append((k, value)) # write the file try: if SCons.Util.PY3: target_file = open(target[0].get_path(), TEXTFILE_FILE_WRITE_MODE, newline='') else: target_file = open(target[0].get_path(), TEXTFILE_FILE_WRITE_MODE) except (OSError, IOError): raise SCons.Errors.UserError("Can't write target file %s" % target[0]) # separate lines by 'linesep' only if linesep is not empty lsep = None for line in source: if lsep: target_file.write(lsep) target_file.write(_do_subst(line, subs)) lsep = linesep target_file.close() def _strfunc(target, source, env): return "Creating '%s'" % target[0] def _convert_list_R(newlist, sources): for elem in sources: if is_Sequence(elem): _convert_list_R(newlist, elem) elif isinstance(elem, Node): newlist.append(elem) else: newlist.append(Value(elem)) def _convert_list(target, source, env): if len(target) != 1: raise SCons.Errors.UserError("Only one target file allowed") newlist = [] _convert_list_R(newlist, source) return target, newlist _common_varlist = ['SUBST_DICT', 'LINESEPARATOR'] _text_varlist = _common_varlist + ['TEXTFILEPREFIX', 'TEXTFILESUFFIX'] _text_builder = SCons.Builder.Builder( action=SCons.Action.Action(_action, _strfunc, varlist=_text_varlist), source_factory=Value, emitter=_convert_list, prefix='$TEXTFILEPREFIX', suffix='$TEXTFILESUFFIX', ) _subst_varlist = _common_varlist + ['SUBSTFILEPREFIX', 'TEXTFILESUFFIX'] _subst_builder = SCons.Builder.Builder( action=SCons.Action.Action(_action, _strfunc, varlist=_subst_varlist), source_factory=SCons.Node.FS.File, emitter=_convert_list, prefix='$SUBSTFILEPREFIX', suffix='$SUBSTFILESUFFIX', src_suffix=['.in'], ) def generate(env): env['LINESEPARATOR'] = LINESEP # os.linesep env['BUILDERS']['Textfile'] = _text_builder env['TEXTFILEPREFIX'] = '' env['TEXTFILESUFFIX'] = '.txt' env['BUILDERS']['Substfile'] = _subst_builder env['SUBSTFILEPREFIX'] = '' env['SUBSTFILESUFFIX'] = '' def exists(env): return 1 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/pdf.py0000664000175000017500000000571713202656512020506 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.pdf Common PDF Builder definition for various other Tool modules that use it. Add an explicit action to run epstopdf to convert .eps files to .pdf """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/pdf.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Builder import SCons.Tool PDFBuilder = None EpsPdfAction = SCons.Action.Action('$EPSTOPDFCOM', '$EPSTOPDFCOMSTR') def generate(env): try: env['BUILDERS']['PDF'] except KeyError: global PDFBuilder if PDFBuilder is None: PDFBuilder = SCons.Builder.Builder(action = {}, source_scanner = SCons.Tool.PDFLaTeXScanner, prefix = '$PDFPREFIX', suffix = '$PDFSUFFIX', emitter = {}, source_ext_match = None, single_source=True) env['BUILDERS']['PDF'] = PDFBuilder env['PDFPREFIX'] = '' env['PDFSUFFIX'] = '.pdf' # put the epstopdf builder in this routine so we can add it after # the pdftex builder so that one is the default for no source suffix def generate2(env): bld = env['BUILDERS']['PDF'] #bld.add_action('.ps', EpsPdfAction) # this is covered by direct Ghostcript action in gs.py bld.add_action('.eps', EpsPdfAction) env['EPSTOPDF'] = 'epstopdf' env['EPSTOPDFFLAGS'] = SCons.Util.CLVar('') env['EPSTOPDFCOM'] = '$EPSTOPDF $EPSTOPDFFLAGS ${SOURCE} --outfile=${TARGET}' def exists(env): # This only puts a skeleton Builder in place, so if someone # references this Tool directly, it's always "available." return 1 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/ilink32.py0000664000175000017500000000404613202656511021201 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.ilink32 XXX """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/ilink32.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Tool import SCons.Tool.bcc32 import SCons.Util def generate(env): """Add Builders and construction variables for Borland ilink to an Environment.""" SCons.Tool.createSharedLibBuilder(env) SCons.Tool.createProgBuilder(env) env['LINK'] = '$CC' env['LINKFLAGS'] = SCons.Util.CLVar('') env['LINKCOM'] = '$LINK -q $LINKFLAGS -e$TARGET $SOURCES $LIBS' env['LIBDIRPREFIX']='' env['LIBDIRSUFFIX']='' env['LIBLINKPREFIX']='' env['LIBLINKSUFFIX']='$LIBSUFFIX' def exists(env): # Uses bcc32 to do linking as it generally knows where the standard # LIBS are and set up the linking correctly return SCons.Tool.bcc32.findIt('bcc32', env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/cvf.py0000664000175000017500000000472113202656511020504 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.cvf Tool-specific initialization for the Compaq Visual Fortran compiler. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/cvf.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import fortran compilers = ['f90'] def generate(env): """Add Builders and construction variables for compaq visual fortran to an Environment.""" fortran.generate(env) env['FORTRAN'] = 'f90' env['FORTRANCOM'] = '$FORTRAN $FORTRANFLAGS $_FORTRANMODFLAG $_FORTRANINCFLAGS /compile_only ${SOURCES.windows} /object:${TARGET.windows}' env['FORTRANPPCOM'] = '$FORTRAN $FORTRANFLAGS $CPPFLAGS $_CPPDEFFLAGS $_FORTRANMODFLAG $_FORTRANINCFLAGS /compile_only ${SOURCES.windows} /object:${TARGET.windows}' env['SHFORTRANCOM'] = '$SHFORTRAN $SHFORTRANFLAGS $_FORTRANMODFLAG $_FORTRANINCFLAGS /compile_only ${SOURCES.windows} /object:${TARGET.windows}' env['SHFORTRANPPCOM'] = '$SHFORTRAN $SHFORTRANFLAGS $CPPFLAGS $_CPPDEFFLAGS $_FORTRANMODFLAG $_FORTRANINCFLAGS /compile_only ${SOURCES.windows} /object:${TARGET.windows}' env['OBJSUFFIX'] = '.obj' env['FORTRANMODDIR'] = '${TARGET.dir}' env['FORTRANMODDIRPREFIX'] = '/module:' env['FORTRANMODDIRSUFFIX'] = '' def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/jar.py0000664000175000017500000002227713202656511020510 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.jar Tool-specific initialization for jar. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/jar.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Subst import SCons.Util from SCons.Node.FS import _my_normcase import os def jarSources(target, source, env, for_signature): """Only include sources that are not a manifest file.""" try: env['JARCHDIR'] except KeyError: jarchdir_set = False else: jarchdir_set = True jarchdir = env.subst('$JARCHDIR', target=target, source=source) if jarchdir: jarchdir = env.fs.Dir(jarchdir) result = [] for src in source: contents = src.get_text_contents() if contents[:16] != "Manifest-Version": if jarchdir_set: _chdir = jarchdir else: try: _chdir = src.attributes.java_classdir except AttributeError: _chdir = None if _chdir: # If we are changing the dir with -C, then sources should # be relative to that directory. src = SCons.Subst.Literal(src.get_path(_chdir)) result.append('-C') result.append(_chdir) result.append(src) return result def jarManifest(target, source, env, for_signature): """Look in sources for a manifest file, if any.""" for src in source: contents = src.get_text_contents() if contents[:16] == "Manifest-Version": return src return '' def jarFlags(target, source, env, for_signature): """If we have a manifest, make sure that the 'm' flag is specified.""" jarflags = env.subst('$JARFLAGS', target=target, source=source) for src in source: contents = src.get_text_contents() if contents[:16] == "Manifest-Version": if not 'm' in jarflags: return jarflags + 'm' break return jarflags def Jar(env, target = None, source = [], *args, **kw): """ A pseudo-Builder wrapper around the separate Jar sources{File,Dir} Builders. """ # jar target should not be a list so assume they passed # no target and want implicit target to be made and the arg # was actaully the list of sources if SCons.Util.is_List(target) and source == []: SCons.Warnings.Warning("Making implicit target jar file, " + "and treating the list as sources") source = target target = None # mutiple targets pass so build each target the same from the # same source #TODO Maybe this should only be done once, and the result copied # for each target since it should result in the same? if SCons.Util.is_List(target) and SCons.Util.is_List(source): jars = [] for single_target in target: jars += env.Jar( target = single_target, source = source, *args, **kw) return jars # they passed no target so make a target implicitly if target == None: try: # make target from the first source file target = os.path.splitext(str(source[0]))[0] + env.subst('$JARSUFFIX') except: # something strange is happening but attempt anyways SCons.Warnings.Warning("Could not make implicit target from sources, using directory") target = os.path.basename(str(env.Dir('.'))) + env.subst('$JARSUFFIX') # make lists out of our target and sources if not SCons.Util.is_List(target): target = [target] if not SCons.Util.is_List(source): source = [source] # setup for checking through all the sources and handle accordingly java_class_suffix = env.subst('$JAVACLASSSUFFIX') java_suffix = env.subst('$JAVASUFFIX') target_classes = [] # function for determining what to do with a file and not a directory # if its already a class file then it can be used as a # source for jar, otherwise turn it into a class file then # return the source def file_to_class(s): if(str(_my_normcase(s)).endswith(java_suffix)): return env.JavaClassFile(source = s, *args, **kw) else: return [env.fs.File(s)] # In the case that we are passed just string to a node which is directory # but does not exist, we need to check all the current targets to see if # that directory is going to exist so we can add it as a source to Jar builder def get_all_targets(env, node='.'): def get_all_targets_iter(env, node): if node.has_builder(): yield node for kid in node.all_children(): for kid in get_all_targets(env, kid): yield kid node = env.arg2nodes(node, env.fs.Entry)[0] return list(get_all_targets_iter(env, node)) # loop through the sources and handle each accordingly # the goal here is to get all the source files into a class # file or a directory that contains class files for s in source: s = env.subst(s) if isinstance(s, SCons.Node.FS.Base): if isinstance(s, SCons.Node.FS.File): # found a file so make sure its a class file target_classes.extend(file_to_class(s)) else: # found a dir so make sure its a dir of class files target_classes.extend(env.JavaClassDir(source = env.fs.Dir(s), *args, **kw)) else: if os.path.isfile(s): # found a file that exists on the FS, make sure its a class file target_classes.extend(file_to_class(s)) elif os.path.isdir(s): # found a dir on the FS, add it as a dir of class files target_classes.append(env.fs.Dir(s)) elif s[-len(java_suffix):] == java_suffix or s[-len(java_class_suffix):] == java_class_suffix: # found a file that may not exists and is only a string # so add it after converting it to a class file target_classes.extend(file_to_class(s)) else: # found a swig file so add it after converting it to class files if(os.path.splitext(str(s))[1] == ".i"): target_classes.extend(env.JavaClassFile(source = s, *args, **kw)) else: # found a directory that does not yet exist, but can exist as a node # check the target nodes to make sure it will be built, then add # it as a source for node in get_all_targets(env): if(s in str(node) and os.path.splitext(str(node))[1] == ""): target_classes.append(node) # at this point all our sources have been converted to classes or directories of class # so pass it to the Jar builder return env.JarFile(target = target, source = target_classes, *args, **kw) def generate(env): """Add Builders and construction variables for jar to an Environment.""" SCons.Tool.CreateJarBuilder(env) SCons.Tool.CreateJavaFileBuilder(env) SCons.Tool.CreateJavaClassFileBuilder(env) SCons.Tool.CreateJavaClassDirBuilder(env) env.AddMethod(Jar) env['JAR'] = 'jar' env['JARFLAGS'] = SCons.Util.CLVar('cf') env['_JARFLAGS'] = jarFlags env['_JARMANIFEST'] = jarManifest env['_JARSOURCES'] = jarSources env['_JARCOM'] = '$JAR $_JARFLAGS $TARGET $_JARMANIFEST $_JARSOURCES' env['JARCOM'] = "${TEMPFILE('$_JARCOM','$JARCOMSTR')}" env['JARSUFFIX'] = '.jar' def exists(env): # As reported by Jan Nijtmans in issue #2730, the simple # return env.Detect('jar') # doesn't always work during initialization. For now, we # stop trying to detect an executable (analogous to the # javac Builder). # TODO: Come up with a proper detect() routine...and enable it. return 1 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/hpc++.py0000664000175000017500000000315613202656511020627 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.hpc++ Tool-specific initialization for c++ on HP/UX. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/hpc++.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" #forward proxy to the preffered cxx version from SCons.Tool.hpcxx import * # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/0000775000175000017500000000000013202656646021305 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Tool/packaging/src_zip.py0000664000175000017500000000326013202656512023321 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.Packaging.zip The zip SRC packager. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/packaging/src_zip.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from SCons.Tool.packaging import putintopackageroot def package(env, target, source, PACKAGEROOT, **kw): bld = env['BUILDERS']['Zip'] bld.set_suffix('.zip') target, source = putintopackageroot(target, source, env, PACKAGEROOT, honor_install_location=0) return bld(env, target, source) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/targz.py0000664000175000017500000000337613202656512023007 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.Packaging.targz The targz SRC packager. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/packaging/targz.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from SCons.Tool.packaging import stripinstallbuilder, putintopackageroot def package(env, target, source, PACKAGEROOT, **kw): bld = env['BUILDERS']['Tar'] bld.set_suffix('.tar.gz') target, source = stripinstallbuilder(target, source, env) target, source = putintopackageroot(target, source, env, PACKAGEROOT) return bld(env, target, source, TARFLAGS='-zc') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/src_tarbz2.py0000664000175000017500000000331513202656512023724 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.Packaging.tarbz2 The tarbz2 SRC packager. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/packaging/src_tarbz2.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from SCons.Tool.packaging import putintopackageroot def package(env, target, source, PACKAGEROOT, **kw): bld = env['BUILDERS']['Tar'] bld.set_suffix('.tar.bz2') target, source = putintopackageroot(target, source, env, PACKAGEROOT, honor_install_location=0) return bld(env, target, source, TARFLAGS='-jc') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/ipk.py0000664000175000017500000001425613202656512022442 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.Packaging.ipk """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/packaging/ipk.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Builder import SCons.Node.FS import os from SCons.Tool.packaging import stripinstallbuilder, putintopackageroot def package(env, target, source, PACKAGEROOT, NAME, VERSION, DESCRIPTION, SUMMARY, X_IPK_PRIORITY, X_IPK_SECTION, SOURCE_URL, X_IPK_MAINTAINER, X_IPK_DEPENDS, **kw): """ This function prepares the packageroot directory for packaging with the ipkg builder. """ SCons.Tool.Tool('ipkg').generate(env) # setup the Ipkg builder bld = env['BUILDERS']['Ipkg'] target, source = stripinstallbuilder(target, source, env) target, source = putintopackageroot(target, source, env, PACKAGEROOT) # This should be overrideable from the construction environment, # which it is by using ARCHITECTURE=. # Guessing based on what os.uname() returns at least allows it # to work for both i386 and x86_64 Linux systems. archmap = { 'i686' : 'i386', 'i586' : 'i386', 'i486' : 'i386', } buildarchitecture = os.uname()[4] buildarchitecture = archmap.get(buildarchitecture, buildarchitecture) if 'ARCHITECTURE' in kw: buildarchitecture = kw['ARCHITECTURE'] # setup the kw to contain the mandatory arguments to this function. # do this before calling any builder or setup function loc=locals() del loc['kw'] kw.update(loc) del kw['source'], kw['target'], kw['env'] # generate the specfile specfile = gen_ipk_dir(PACKAGEROOT, source, env, kw) # override the default target. if str(target[0])=="%s-%s"%(NAME, VERSION): target=[ "%s_%s_%s.ipk"%(NAME, VERSION, buildarchitecture) ] # now apply the Ipkg builder return bld(env, target, specfile, **kw) def gen_ipk_dir(proot, source, env, kw): # make sure the packageroot is a Dir object. if SCons.Util.is_String(proot): proot=env.Dir(proot) # create the specfile builder s_bld=SCons.Builder.Builder( action = build_specfiles, ) # create the specfile targets spec_target=[] control=proot.Dir('CONTROL') spec_target.append(control.File('control')) spec_target.append(control.File('conffiles')) spec_target.append(control.File('postrm')) spec_target.append(control.File('prerm')) spec_target.append(control.File('postinst')) spec_target.append(control.File('preinst')) # apply the builder to the specfile targets s_bld(env, spec_target, source, **kw) # the packageroot directory does now contain the specfiles. return proot def build_specfiles(source, target, env): """ Filter the targets for the needed files and use the variables in env to create the specfile. """ # # At first we care for the CONTROL/control file, which is the main file for ipk. # # For this we need to open multiple files in random order, so we store into # a dict so they can be easily accessed. # # opened_files={} def open_file(needle, haystack): try: return opened_files[needle] except KeyError: file=filter(lambda x: x.get_path().rfind(needle)!=-1, haystack)[0] opened_files[needle]=open(file.get_abspath(), 'w') return opened_files[needle] control_file=open_file('control', target) if 'X_IPK_DESCRIPTION' not in env: env['X_IPK_DESCRIPTION']="%s\n %s"%(env['SUMMARY'], env['DESCRIPTION'].replace('\n', '\n ')) content = """ Package: $NAME Version: $VERSION Priority: $X_IPK_PRIORITY Section: $X_IPK_SECTION Source: $SOURCE_URL Architecture: $ARCHITECTURE Maintainer: $X_IPK_MAINTAINER Depends: $X_IPK_DEPENDS Description: $X_IPK_DESCRIPTION """ control_file.write(env.subst(content)) # # now handle the various other files, which purpose it is to set post-, # pre-scripts and mark files as config files. # # We do so by filtering the source files for files which are marked with # the "config" tag and afterwards we do the same for x_ipk_postrm, # x_ipk_prerm, x_ipk_postinst and x_ipk_preinst tags. # # The first one will write the name of the file into the file # CONTROL/configfiles, the latter add the content of the x_ipk_* variable # into the same named file. # for f in [x for x in source if 'PACKAGING_CONFIG' in dir(x)]: config=open_file('conffiles') config.write(f.PACKAGING_INSTALL_LOCATION) config.write('\n') for str in 'POSTRM PRERM POSTINST PREINST'.split(): name="PACKAGING_X_IPK_%s"%str for f in [x for x in source if name in dir(x)]: file=open_file(name) file.write(env[str]) # # close all opened files for f in list(opened_files.values()): f.close() # call a user specified function if 'CHANGE_SPECFILE' in env: content += env['CHANGE_SPECFILE'](target) return 0 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/src_targz.py0000664000175000017500000000331013202656512023642 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.Packaging.targz The targz SRC packager. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/packaging/src_targz.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from SCons.Tool.packaging import putintopackageroot def package(env, target, source, PACKAGEROOT, **kw): bld = env['BUILDERS']['Tar'] bld.set_suffix('.tar.gz') target, source = putintopackageroot(target, source, env, PACKAGEROOT, honor_install_location=0) return bld(env, target, source, TARFLAGS='-zc') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/tarbz2.py0000664000175000017500000000340113202656512023051 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.Packaging.tarbz2 The tarbz2 SRC packager. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/packaging/tarbz2.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from SCons.Tool.packaging import stripinstallbuilder, putintopackageroot def package(env, target, source, PACKAGEROOT, **kw): bld = env['BUILDERS']['Tar'] bld.set_suffix('.tar.gz') target, source = putintopackageroot(target, source, env, PACKAGEROOT) target, source = stripinstallbuilder(target, source, env) return bld(env, target, source, TARFLAGS='-jc') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/zip.py0000664000175000017500000000334513202656512022456 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.Packaging.zip The zip SRC packager. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/packaging/zip.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from SCons.Tool.packaging import stripinstallbuilder, putintopackageroot def package(env, target, source, PACKAGEROOT, **kw): bld = env['BUILDERS']['Zip'] bld.set_suffix('.zip') target, source = stripinstallbuilder(target, source, env) target, source = putintopackageroot(target, source, env, PACKAGEROOT) return bld(env, target, source) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/rpm.py0000664000175000017500000003060013202656512022444 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.Packaging.rpm The rpm packager. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/packaging/rpm.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import SCons.Builder import SCons.Tool.rpmutils from SCons.Environment import OverrideEnvironment from SCons.Tool.packaging import stripinstallbuilder, src_targz from SCons.Errors import UserError def package(env, target, source, PACKAGEROOT, NAME, VERSION, PACKAGEVERSION, DESCRIPTION, SUMMARY, X_RPM_GROUP, LICENSE, **kw): # initialize the rpm tool SCons.Tool.Tool('rpm').generate(env) bld = env['BUILDERS']['Rpm'] # Generate a UserError whenever the target name has been set explicitly, # since rpm does not allow for controlling it. This is detected by # checking if the target has been set to the default by the Package() # Environment function. if str(target[0])!="%s-%s"%(NAME, VERSION): raise UserError( "Setting target is not supported for rpm." ) else: # This should be overridable from the construction environment, # which it is by using ARCHITECTURE=. buildarchitecture = SCons.Tool.rpmutils.defaultMachine() if 'ARCHITECTURE' in kw: buildarchitecture = kw['ARCHITECTURE'] fmt = '%s-%s-%s.%s.rpm' srcrpm = fmt % (NAME, VERSION, PACKAGEVERSION, 'src') binrpm = fmt % (NAME, VERSION, PACKAGEVERSION, buildarchitecture) target = [ srcrpm, binrpm ] # get the correct arguments into the kw hash loc=locals() del loc['kw'] kw.update(loc) del kw['source'], kw['target'], kw['env'] # if no "SOURCE_URL" tag is given add a default one. if 'SOURCE_URL' not in kw: kw['SOURCE_URL']=(str(target[0])+".tar.gz").replace('.rpm', '') # mangle the source and target list for the rpmbuild env = OverrideEnvironment(env, kw) target, source = stripinstallbuilder(target, source, env) target, source = addspecfile(target, source, env) target, source = collectintargz(target, source, env) # now call the rpm builder to actually build the packet. return bld(env, target, source, **kw) def collectintargz(target, source, env): """ Puts all source files into a tar.gz file. """ # the rpm tool depends on a source package, until this is changed # this hack needs to be here that tries to pack all sources in. sources = env.FindSourceFiles() # filter out the target we are building the source list for. sources = [s for s in sources if s not in target] # find the .spec file for rpm and add it since it is not necessarily found # by the FindSourceFiles function. sources.extend( [s for s in source if str(s).rfind('.spec')!=-1] ) # sort to keep sources from changing order across builds sources.sort() # as the source contains the url of the source package this rpm package # is built from, we extract the target name tarball = (str(target[0])+".tar.gz").replace('.rpm', '') try: tarball = env['SOURCE_URL'].split('/')[-1] except KeyError as e: raise SCons.Errors.UserError( "Missing PackageTag '%s' for RPM packager" % e.args[0] ) tarball = src_targz.package(env, source=sources, target=tarball, PACKAGEROOT=env['PACKAGEROOT'], ) return (target, tarball) def addspecfile(target, source, env): specfile = "%s-%s" % (env['NAME'], env['VERSION']) bld = SCons.Builder.Builder(action = build_specfile, suffix = '.spec', target_factory = SCons.Node.FS.File) source.extend(bld(env, specfile, source)) return (target,source) def build_specfile(target, source, env): """ Builds a RPM specfile from a dictionary with string metadata and by analyzing a tree of nodes. """ file = open(target[0].get_abspath(), 'w') try: file.write( build_specfile_header(env) ) file.write( build_specfile_sections(env) ) file.write( build_specfile_filesection(env, source) ) file.close() # call a user specified function if 'CHANGE_SPECFILE' in env: env['CHANGE_SPECFILE'](target, source) except KeyError as e: raise SCons.Errors.UserError( '"%s" package field for RPM is missing.' % e.args[0] ) # # mandatory and optional package tag section # def build_specfile_sections(spec): """ Builds the sections of a rpm specfile. """ str = "" mandatory_sections = { 'DESCRIPTION' : '\n%%description\n%s\n\n', } str = str + SimpleTagCompiler(mandatory_sections).compile( spec ) optional_sections = { 'DESCRIPTION_' : '%%description -l %s\n%s\n\n', 'CHANGELOG' : '%%changelog\n%s\n\n', 'X_RPM_PREINSTALL' : '%%pre\n%s\n\n', 'X_RPM_POSTINSTALL' : '%%post\n%s\n\n', 'X_RPM_PREUNINSTALL' : '%%preun\n%s\n\n', 'X_RPM_POSTUNINSTALL' : '%%postun\n%s\n\n', 'X_RPM_VERIFY' : '%%verify\n%s\n\n', # These are for internal use but could possibly be overridden 'X_RPM_PREP' : '%%prep\n%s\n\n', 'X_RPM_BUILD' : '%%build\n%s\n\n', 'X_RPM_INSTALL' : '%%install\n%s\n\n', 'X_RPM_CLEAN' : '%%clean\n%s\n\n', } # Default prep, build, install and clean rules # TODO: optimize those build steps, to not compile the project a second time if 'X_RPM_PREP' not in spec: spec['X_RPM_PREP'] = '[ -n "$RPM_BUILD_ROOT" -a "$RPM_BUILD_ROOT" != / ] && rm -rf "$RPM_BUILD_ROOT"' + '\n%setup -q' if 'X_RPM_BUILD' not in spec: spec['X_RPM_BUILD'] = '[ ! -e "$RPM_BUILD_ROOT" -a "$RPM_BUILD_ROOT" != / ] && mkdir "$RPM_BUILD_ROOT"' if 'X_RPM_INSTALL' not in spec: spec['X_RPM_INSTALL'] = 'scons --install-sandbox="$RPM_BUILD_ROOT" "$RPM_BUILD_ROOT"' if 'X_RPM_CLEAN' not in spec: spec['X_RPM_CLEAN'] = '[ -n "$RPM_BUILD_ROOT" -a "$RPM_BUILD_ROOT" != / ] && rm -rf "$RPM_BUILD_ROOT"' str = str + SimpleTagCompiler(optional_sections, mandatory=0).compile( spec ) return str def build_specfile_header(spec): """ Builds all sections but the %file of a rpm specfile """ str = "" # first the mandatory sections mandatory_header_fields = { 'NAME' : '%%define name %s\nName: %%{name}\n', 'VERSION' : '%%define version %s\nVersion: %%{version}\n', 'PACKAGEVERSION' : '%%define release %s\nRelease: %%{release}\n', 'X_RPM_GROUP' : 'Group: %s\n', 'SUMMARY' : 'Summary: %s\n', 'LICENSE' : 'License: %s\n', } str = str + SimpleTagCompiler(mandatory_header_fields).compile( spec ) # now the optional tags optional_header_fields = { 'VENDOR' : 'Vendor: %s\n', 'X_RPM_URL' : 'Url: %s\n', 'SOURCE_URL' : 'Source: %s\n', 'SUMMARY_' : 'Summary(%s): %s\n', 'X_RPM_DISTRIBUTION' : 'Distribution: %s\n', 'X_RPM_ICON' : 'Icon: %s\n', 'X_RPM_PACKAGER' : 'Packager: %s\n', 'X_RPM_GROUP_' : 'Group(%s): %s\n', 'X_RPM_REQUIRES' : 'Requires: %s\n', 'X_RPM_PROVIDES' : 'Provides: %s\n', 'X_RPM_CONFLICTS' : 'Conflicts: %s\n', 'X_RPM_BUILDREQUIRES' : 'BuildRequires: %s\n', 'X_RPM_SERIAL' : 'Serial: %s\n', 'X_RPM_EPOCH' : 'Epoch: %s\n', 'X_RPM_AUTOREQPROV' : 'AutoReqProv: %s\n', 'X_RPM_EXCLUDEARCH' : 'ExcludeArch: %s\n', 'X_RPM_EXCLUSIVEARCH' : 'ExclusiveArch: %s\n', 'X_RPM_PREFIX' : 'Prefix: %s\n', # internal use 'X_RPM_BUILDROOT' : 'BuildRoot: %s\n', } # fill in default values: # Adding a BuildRequires renders the .rpm unbuildable under System, which # are not managed by rpm, since the database to resolve this dependency is # missing (take Gentoo as an example) # if not s.has_key('x_rpm_BuildRequires'): # s['x_rpm_BuildRequires'] = 'scons' if 'X_RPM_BUILDROOT' not in spec: spec['X_RPM_BUILDROOT'] = '%{_tmppath}/%{name}-%{version}-%{release}' str = str + SimpleTagCompiler(optional_header_fields, mandatory=0).compile( spec ) return str # # mandatory and optional file tags # def build_specfile_filesection(spec, files): """ builds the %file section of the specfile """ str = '%files\n' if 'X_RPM_DEFATTR' not in spec: spec['X_RPM_DEFATTR'] = '(-,root,root)' str = str + '%%defattr %s\n' % spec['X_RPM_DEFATTR'] supported_tags = { 'PACKAGING_CONFIG' : '%%config %s', 'PACKAGING_CONFIG_NOREPLACE' : '%%config(noreplace) %s', 'PACKAGING_DOC' : '%%doc %s', 'PACKAGING_UNIX_ATTR' : '%%attr %s', 'PACKAGING_LANG_' : '%%lang(%s) %s', 'PACKAGING_X_RPM_VERIFY' : '%%verify %s', 'PACKAGING_X_RPM_DIR' : '%%dir %s', 'PACKAGING_X_RPM_DOCDIR' : '%%docdir %s', 'PACKAGING_X_RPM_GHOST' : '%%ghost %s', } for file in files: # build the tagset tags = {} for k in list(supported_tags.keys()): try: v = file.GetTag(k) if v: tags[k] = v except AttributeError: pass # compile the tagset str = str + SimpleTagCompiler(supported_tags, mandatory=0).compile( tags ) str = str + ' ' str = str + file.GetTag('PACKAGING_INSTALL_LOCATION') str = str + '\n\n' return str class SimpleTagCompiler(object): """ This class is a simple string substition utility: the replacement specfication is stored in the tagset dictionary, something like: { "abc" : "cdef %s ", "abc_" : "cdef %s %s" } the compile function gets a value dictionary, which may look like: { "abc" : "ghij", "abc_gh" : "ij" } The resulting string will be: "cdef ghij cdef gh ij" """ def __init__(self, tagset, mandatory=1): self.tagset = tagset self.mandatory = mandatory def compile(self, values): """ Compiles the tagset and returns a str containing the result """ def is_international(tag): return tag.endswith('_') def get_country_code(tag): return tag[-2:] def strip_country_code(tag): return tag[:-2] replacements = list(self.tagset.items()) str = "" domestic = [t for t in replacements if not is_international(t[0])] for key, replacement in domestic: try: str = str + replacement % values[key] except KeyError as e: if self.mandatory: raise e international = [t for t in replacements if is_international(t[0])] for key, replacement in international: try: x = [t for t in values.items() if strip_country_code(t[0]) == key] int_values_for_key = [(get_country_code(t[0]),t[1]) for t in x] for v in int_values_for_key: str = str + replacement % v except KeyError as e: if self.mandatory: raise e return str # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/msi.py0000664000175000017500000004744413202656512022454 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.packaging.msi The msi packager. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/packaging/msi.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import SCons from SCons.Action import Action from SCons.Builder import Builder from xml.dom.minidom import * from xml.sax.saxutils import escape from SCons.Tool.packaging import stripinstallbuilder # # Utility functions # def convert_to_id(s, id_set): """ Some parts of .wxs need an Id attribute (for example: The File and Directory directives. The charset is limited to A-Z, a-z, digits, underscores, periods. Each Id must begin with a letter or with a underscore. Google for "CNDL0015" for information about this. Requirements: * the string created must only contain chars from the target charset. * the string created must have a minimal editing distance from the original string. * the string created must be unique for the whole .wxs file. Observation: * There are 62 chars in the charset. Idea: * filter out forbidden characters. Check for a collision with the help of the id_set. Add the number of the number of the collision at the end of the created string. Furthermore care for a correct start of the string. """ charset = 'ABCDEFGHIJKLMNOPQRSTUVWXYabcdefghijklmnopqrstuvwxyz0123456789_.' if s[0] in '0123456789.': s += '_'+s id = [c for c in s if c in charset] # did we already generate an id for this file? try: return id_set[id][s] except KeyError: # no we did not, so initialize with the id if id not in id_set: id_set[id] = { s : id } # there is a collision, generate an id which is unique by appending # the collision number else: id_set[id][s] = id + str(len(id_set[id])) return id_set[id][s] def is_dos_short_file_name(file): """ Examine if the given file is in the 8.3 form. """ fname, ext = os.path.splitext(file) proper_ext = len(ext) == 0 or (2 <= len(ext) <= 4) # the ext contains the dot proper_fname = file.isupper() and len(fname) <= 8 return proper_ext and proper_fname def gen_dos_short_file_name(file, filename_set): """ See http://support.microsoft.com/default.aspx?scid=kb;en-us;Q142982 These are no complete 8.3 dos short names. The ~ char is missing and replaced with one character from the filename. WiX warns about such filenames, since a collision might occur. Google for "CNDL1014" for more information. """ # guard this to not confuse the generation if is_dos_short_file_name(file): return file fname, ext = os.path.splitext(file) # ext contains the dot # first try if it suffices to convert to upper file = file.upper() if is_dos_short_file_name(file): return file # strip forbidden characters. forbidden = '."/[]:;=, ' fname = [c for c in fname if c not in forbidden] # check if we already generated a filename with the same number: # thisis1.txt, thisis2.txt etc. duplicate, num = not None, 1 while duplicate: shortname = "%s%s" % (fname[:8-len(str(num))].upper(),\ str(num)) if len(ext) >= 2: shortname = "%s%s" % (shortname, ext[:4].upper()) duplicate, num = shortname in filename_set, num+1 assert( is_dos_short_file_name(shortname) ), 'shortname is %s, longname is %s' % (shortname, file) filename_set.append(shortname) return shortname def create_feature_dict(files): """ X_MSI_FEATURE and doc FileTag's can be used to collect files in a hierarchy. This function collects the files into this hierarchy. """ dict = {} def add_to_dict( feature, file ): if not SCons.Util.is_List( feature ): feature = [ feature ] for f in feature: if f not in dict: dict[ f ] = [ file ] else: dict[ f ].append( file ) for file in files: if hasattr( file, 'PACKAGING_X_MSI_FEATURE' ): add_to_dict(file.PACKAGING_X_MSI_FEATURE, file) elif hasattr( file, 'PACKAGING_DOC' ): add_to_dict( 'PACKAGING_DOC', file ) else: add_to_dict( 'default', file ) return dict def generate_guids(root): """ generates globally unique identifiers for parts of the xml which need them. Component tags have a special requirement. Their UUID is only allowed to change if the list of their contained resources has changed. This allows for clean removal and proper updates. To handle this requirement, the uuid is generated with an md5 hashing the whole subtree of a xml node. """ from hashlib import md5 # specify which tags need a guid and in which attribute this should be stored. needs_id = { 'Product' : 'Id', 'Package' : 'Id', 'Component' : 'Guid', } # find all XMl nodes matching the key, retrieve their attribute, hash their # subtree, convert hash to string and add as a attribute to the xml node. for (key,value) in needs_id.items(): node_list = root.getElementsByTagName(key) attribute = value for node in node_list: hash = md5(node.toxml()).hexdigest() hash_str = '%s-%s-%s-%s-%s' % ( hash[:8], hash[8:12], hash[12:16], hash[16:20], hash[20:] ) node.attributes[attribute] = hash_str def string_wxsfile(target, source, env): return "building WiX file %s"%( target[0].path ) def build_wxsfile(target, source, env): """ Compiles a .wxs file from the keywords given in env['msi_spec'] and by analyzing the tree of source nodes and their tags. """ file = open(target[0].get_abspath(), 'w') try: # Create a document with the Wix root tag doc = Document() root = doc.createElement( 'Wix' ) root.attributes['xmlns']='http://schemas.microsoft.com/wix/2003/01/wi' doc.appendChild( root ) filename_set = [] # this is to circumvent duplicates in the shortnames id_set = {} # this is to circumvent duplicates in the ids # Create the content build_wxsfile_header_section(root, env) build_wxsfile_file_section(root, source, env['NAME'], env['VERSION'], env['VENDOR'], filename_set, id_set) generate_guids(root) build_wxsfile_features_section(root, source, env['NAME'], env['VERSION'], env['SUMMARY'], id_set) build_wxsfile_default_gui(root) build_license_file(target[0].get_dir(), env) # write the xml to a file file.write( doc.toprettyxml() ) # call a user specified function if 'CHANGE_SPECFILE' in env: env['CHANGE_SPECFILE'](target, source) except KeyError as e: raise SCons.Errors.UserError( '"%s" package field for MSI is missing.' % e.args[0] ) # # setup function # def create_default_directory_layout(root, NAME, VERSION, VENDOR, filename_set): """ Create the wix default target directory layout and return the innermost directory. We assume that the XML tree delivered in the root argument already contains the Product tag. Everything is put under the PFiles directory property defined by WiX. After that a directory with the 'VENDOR' tag is placed and then a directory with the name of the project and its VERSION. This leads to the following TARGET Directory Layout: C:\\\\ Example: C:\Programme\Company\Product-1.2\ """ doc = Document() d1 = doc.createElement( 'Directory' ) d1.attributes['Id'] = 'TARGETDIR' d1.attributes['Name'] = 'SourceDir' d2 = doc.createElement( 'Directory' ) d2.attributes['Id'] = 'ProgramFilesFolder' d2.attributes['Name'] = 'PFiles' d3 = doc.createElement( 'Directory' ) d3.attributes['Id'] = 'VENDOR_folder' d3.attributes['Name'] = escape( gen_dos_short_file_name( VENDOR, filename_set ) ) d3.attributes['LongName'] = escape( VENDOR ) d4 = doc.createElement( 'Directory' ) project_folder = "%s-%s" % ( NAME, VERSION ) d4.attributes['Id'] = 'MY_DEFAULT_FOLDER' d4.attributes['Name'] = escape( gen_dos_short_file_name( project_folder, filename_set ) ) d4.attributes['LongName'] = escape( project_folder ) d1.childNodes.append( d2 ) d2.childNodes.append( d3 ) d3.childNodes.append( d4 ) root.getElementsByTagName('Product')[0].childNodes.append( d1 ) return d4 # # mandatory and optional file tags # def build_wxsfile_file_section(root, files, NAME, VERSION, VENDOR, filename_set, id_set): """ Builds the Component sections of the wxs file with their included files. Files need to be specified in 8.3 format and in the long name format, long filenames will be converted automatically. Features are specficied with the 'X_MSI_FEATURE' or 'DOC' FileTag. """ root = create_default_directory_layout( root, NAME, VERSION, VENDOR, filename_set ) components = create_feature_dict( files ) factory = Document() def get_directory( node, dir ): """ Returns the node under the given node representing the directory. Returns the component node if dir is None or empty. """ if dir == '' or not dir: return node Directory = node dir_parts = dir.split(os.path.sep) # to make sure that our directory ids are unique, the parent folders are # consecutively added to upper_dir upper_dir = '' # walk down the xml tree finding parts of the directory dir_parts = [d for d in dir_parts if d != ''] for d in dir_parts[:]: already_created = [c for c in Directory.childNodes if c.nodeName == 'Directory' and c.attributes['LongName'].value == escape(d)] if already_created != []: Directory = already_created[0] dir_parts.remove(d) upper_dir += d else: break for d in dir_parts: nDirectory = factory.createElement( 'Directory' ) nDirectory.attributes['LongName'] = escape( d ) nDirectory.attributes['Name'] = escape( gen_dos_short_file_name( d, filename_set ) ) upper_dir += d nDirectory.attributes['Id'] = convert_to_id( upper_dir, id_set ) Directory.childNodes.append( nDirectory ) Directory = nDirectory return Directory for file in files: drive, path = os.path.splitdrive( file.PACKAGING_INSTALL_LOCATION ) filename = os.path.basename( path ) dirname = os.path.dirname( path ) h = { # tagname : default value 'PACKAGING_X_MSI_VITAL' : 'yes', 'PACKAGING_X_MSI_FILEID' : convert_to_id(filename, id_set), 'PACKAGING_X_MSI_LONGNAME' : filename, 'PACKAGING_X_MSI_SHORTNAME' : gen_dos_short_file_name(filename, filename_set), 'PACKAGING_X_MSI_SOURCE' : file.get_path(), } # fill in the default tags given above. for k,v in [ (k, v) for (k,v) in h.items() if not hasattr(file, k) ]: setattr( file, k, v ) File = factory.createElement( 'File' ) File.attributes['LongName'] = escape( file.PACKAGING_X_MSI_LONGNAME ) File.attributes['Name'] = escape( file.PACKAGING_X_MSI_SHORTNAME ) File.attributes['Source'] = escape( file.PACKAGING_X_MSI_SOURCE ) File.attributes['Id'] = escape( file.PACKAGING_X_MSI_FILEID ) File.attributes['Vital'] = escape( file.PACKAGING_X_MSI_VITAL ) # create the Tag under which this file should appear Component = factory.createElement('Component') Component.attributes['DiskId'] = '1' Component.attributes['Id'] = convert_to_id( filename, id_set ) # hang the component node under the root node and the file node # under the component node. Directory = get_directory( root, dirname ) Directory.childNodes.append( Component ) Component.childNodes.append( File ) # # additional functions # def build_wxsfile_features_section(root, files, NAME, VERSION, SUMMARY, id_set): """ This function creates the tag based on the supplied xml tree. This is achieved by finding all s and adding them to a default target. It should be called after the tree has been built completly. We assume that a MY_DEFAULT_FOLDER Property is defined in the wxs file tree. Furthermore a top-level with the name and VERSION of the software will be created. An PACKAGING_X_MSI_FEATURE can either be a string, where the feature DESCRIPTION will be the same as its title or a Tuple, where the first part will be its title and the second its DESCRIPTION. """ factory = Document() Feature = factory.createElement('Feature') Feature.attributes['Id'] = 'complete' Feature.attributes['ConfigurableDirectory'] = 'MY_DEFAULT_FOLDER' Feature.attributes['Level'] = '1' Feature.attributes['Title'] = escape( '%s %s' % (NAME, VERSION) ) Feature.attributes['Description'] = escape( SUMMARY ) Feature.attributes['Display'] = 'expand' for (feature, files) in create_feature_dict(files).items(): SubFeature = factory.createElement('Feature') SubFeature.attributes['Level'] = '1' if SCons.Util.is_Tuple(feature): SubFeature.attributes['Id'] = convert_to_id( feature[0], id_set ) SubFeature.attributes['Title'] = escape(feature[0]) SubFeature.attributes['Description'] = escape(feature[1]) else: SubFeature.attributes['Id'] = convert_to_id( feature, id_set ) if feature=='default': SubFeature.attributes['Description'] = 'Main Part' SubFeature.attributes['Title'] = 'Main Part' elif feature=='PACKAGING_DOC': SubFeature.attributes['Description'] = 'Documentation' SubFeature.attributes['Title'] = 'Documentation' else: SubFeature.attributes['Description'] = escape(feature) SubFeature.attributes['Title'] = escape(feature) # build the componentrefs. As one of the design decision is that every # file is also a component we walk the list of files and create a # reference. for f in files: ComponentRef = factory.createElement('ComponentRef') ComponentRef.attributes['Id'] = convert_to_id( os.path.basename(f.get_path()), id_set ) SubFeature.childNodes.append(ComponentRef) Feature.childNodes.append(SubFeature) root.getElementsByTagName('Product')[0].childNodes.append(Feature) def build_wxsfile_default_gui(root): """ This function adds a default GUI to the wxs file """ factory = Document() Product = root.getElementsByTagName('Product')[0] UIRef = factory.createElement('UIRef') UIRef.attributes['Id'] = 'WixUI_Mondo' Product.childNodes.append(UIRef) UIRef = factory.createElement('UIRef') UIRef.attributes['Id'] = 'WixUI_ErrorProgressText' Product.childNodes.append(UIRef) def build_license_file(directory, spec): """ Creates a License.rtf file with the content of "X_MSI_LICENSE_TEXT" in the given directory """ name, text = '', '' try: name = spec['LICENSE'] text = spec['X_MSI_LICENSE_TEXT'] except KeyError: pass # ignore this as X_MSI_LICENSE_TEXT is optional if name!='' or text!='': file = open( os.path.join(directory.get_path(), 'License.rtf'), 'w' ) file.write('{\\rtf') if text!='': file.write(text.replace('\n', '\\par ')) else: file.write(name+'\\par\\par') file.write('}') file.close() # # mandatory and optional package tags # def build_wxsfile_header_section(root, spec): """ Adds the xml file node which define the package meta-data. """ # Create the needed DOM nodes and add them at the correct position in the tree. factory = Document() Product = factory.createElement( 'Product' ) Package = factory.createElement( 'Package' ) root.childNodes.append( Product ) Product.childNodes.append( Package ) # set "mandatory" default values if 'X_MSI_LANGUAGE' not in spec: spec['X_MSI_LANGUAGE'] = '1033' # select english # mandatory sections, will throw a KeyError if the tag is not available Product.attributes['Name'] = escape( spec['NAME'] ) Product.attributes['Version'] = escape( spec['VERSION'] ) Product.attributes['Manufacturer'] = escape( spec['VENDOR'] ) Product.attributes['Language'] = escape( spec['X_MSI_LANGUAGE'] ) Package.attributes['Description'] = escape( spec['SUMMARY'] ) # now the optional tags, for which we avoid the KeyErrror exception if 'DESCRIPTION' in spec: Package.attributes['Comments'] = escape( spec['DESCRIPTION'] ) if 'X_MSI_UPGRADE_CODE' in spec: Package.attributes['X_MSI_UPGRADE_CODE'] = escape( spec['X_MSI_UPGRADE_CODE'] ) # We hardcode the media tag as our current model cannot handle it. Media = factory.createElement('Media') Media.attributes['Id'] = '1' Media.attributes['Cabinet'] = 'default.cab' Media.attributes['EmbedCab'] = 'yes' root.getElementsByTagName('Product')[0].childNodes.append(Media) # this builder is the entry-point for .wxs file compiler. wxs_builder = Builder( action = Action( build_wxsfile, string_wxsfile ), ensure_suffix = '.wxs' ) def package(env, target, source, PACKAGEROOT, NAME, VERSION, DESCRIPTION, SUMMARY, VENDOR, X_MSI_LANGUAGE, **kw): # make sure that the Wix Builder is in the environment SCons.Tool.Tool('wix').generate(env) # get put the keywords for the specfile compiler. These are the arguments # given to the package function and all optional ones stored in kw, minus # the the source, target and env one. loc = locals() del loc['kw'] kw.update(loc) del kw['source'], kw['target'], kw['env'] # strip the install builder from the source files target, source = stripinstallbuilder(target, source, env) # put the arguments into the env and call the specfile builder. env['msi_spec'] = kw specfile = wxs_builder(* [env, target, source], **kw) # now call the WiX Tool with the built specfile added as a source. msifile = env.WiX(target, specfile) # return the target and source tuple. return (msifile, source+[specfile]) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/packaging/__init__.py0000664000175000017500000002460313202656512023413 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.Packaging SCons Packaging Tool. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/packaging/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Environment from SCons.Variables import * from SCons.Errors import * from SCons.Util import is_List, make_path_relative from SCons.Warnings import warn, Warning import os, imp import SCons.Defaults __all__ = [ 'src_targz', 'src_tarbz2', 'src_zip', 'tarbz2', 'targz', 'zip', 'rpm', 'msi', 'ipk' ] # # Utility and Builder function # def Tag(env, target, source, *more_tags, **kw_tags): """ Tag a file with the given arguments, just sets the accordingly named attribute on the file object. TODO: FIXME """ if not target: target=source first_tag=None else: first_tag=source if first_tag: kw_tags[first_tag[0]] = '' if len(kw_tags) == 0 and len(more_tags) == 0: raise UserError("No tags given.") # XXX: sanity checks for x in more_tags: kw_tags[x] = '' if not SCons.Util.is_List(target): target=[target] else: # hmm, sometimes the target list, is a list of a list # make sure it is flattened prior to processing. # TODO: perhaps some bug ?!? target=env.Flatten(target) for t in target: for (k,v) in kw_tags.items(): # all file tags have to start with PACKAGING_, so we can later # differentiate between "normal" object attributes and the # packaging attributes. As the user should not be bothered with # that, the prefix will be added here if missing. if k[:10] != 'PACKAGING_': k='PACKAGING_'+k t.Tag(k, v) def Package(env, target=None, source=None, **kw): """ Entry point for the package tool. """ # check if we need to find the source files ourself if not source: source = env.FindInstalledFiles() if len(source)==0: raise UserError("No source for Package() given") # decide which types of packages shall be built. Can be defined through # four mechanisms: command line argument, keyword argument, # environment argument and default selection( zip or tar.gz ) in that # order. try: kw['PACKAGETYPE']=env['PACKAGETYPE'] except KeyError: pass if not kw.get('PACKAGETYPE'): from SCons.Script import GetOption kw['PACKAGETYPE'] = GetOption('package_type') if kw['PACKAGETYPE'] == None: if 'Tar' in env['BUILDERS']: kw['PACKAGETYPE']='targz' elif 'Zip' in env['BUILDERS']: kw['PACKAGETYPE']='zip' else: raise UserError("No type for Package() given") PACKAGETYPE=kw['PACKAGETYPE'] if not is_List(PACKAGETYPE): PACKAGETYPE=PACKAGETYPE.split(',') # load the needed packagers. def load_packager(type): try: file,path,desc=imp.find_module(type, __path__) return imp.load_module(type, file, path, desc) except ImportError as e: raise EnvironmentError("packager %s not available: %s"%(type,str(e))) packagers=list(map(load_packager, PACKAGETYPE)) # set up targets and the PACKAGEROOT try: # fill up the target list with a default target name until the PACKAGETYPE # list is of the same size as the target list. if not target: target = [] size_diff = len(PACKAGETYPE)-len(target) default_name = "%(NAME)s-%(VERSION)s" if size_diff>0: default_target = default_name%kw target.extend( [default_target]*size_diff ) if 'PACKAGEROOT' not in kw: kw['PACKAGEROOT'] = default_name%kw except KeyError as e: raise SCons.Errors.UserError( "Missing Packagetag '%s'"%e.args[0] ) # setup the source files source=env.arg2nodes(source, env.fs.Entry) # call the packager to setup the dependencies. targets=[] try: for packager in packagers: t=[target.pop(0)] t=packager.package(env,t,source, **kw) targets.extend(t) assert( len(target) == 0 ) except KeyError as e: raise SCons.Errors.UserError( "Missing Packagetag '%s' for %s packager"\ % (e.args[0],packager.__name__) ) except TypeError as e: # this exception means that a needed argument for the packager is # missing. As our packagers get their "tags" as named function # arguments we need to find out which one is missing. from inspect import getargspec args,varargs,varkw,defaults=getargspec(packager.package) if defaults!=None: args=args[:-len(defaults)] # throw away arguments with default values args.remove('env') args.remove('target') args.remove('source') # now remove any args for which we have a value in kw. args=[x for x in args if x not in kw] if len(args)==0: raise # must be a different error, so re-raise elif len(args)==1: raise SCons.Errors.UserError( "Missing Packagetag '%s' for %s packager"\ % (args[0],packager.__name__) ) else: raise SCons.Errors.UserError( "Missing Packagetags '%s' for %s packager"\ % (", ".join(args),packager.__name__) ) target=env.arg2nodes(target, env.fs.Entry) targets.extend(env.Alias( 'package', targets )) return targets # # SCons tool initialization functions # added = None def generate(env): from SCons.Script import AddOption global added if not added: added = 1 AddOption('--package-type', dest='package_type', default=None, type="string", action="store", help='The type of package to create.') try: env['BUILDERS']['Package'] env['BUILDERS']['Tag'] except KeyError: env['BUILDERS']['Package'] = Package env['BUILDERS']['Tag'] = Tag def exists(env): return 1 # XXX def options(opts): opts.AddVariables( EnumVariable( 'PACKAGETYPE', 'the type of package to create.', None, allowed_values=list(map( str, __all__ )), ignorecase=2 ) ) # # Internal utility functions # def copy_attr(f1, f2): """ copies the special packaging file attributes from f1 to f2. """ copyit = lambda x: not hasattr(f2, x) and x[:10] == 'PACKAGING_' if f1._tags: pattrs = [tag for tag in f1._tags if copyit(tag)] for attr in pattrs: f2.Tag(attr, f1.GetTag(attr)) def putintopackageroot(target, source, env, pkgroot, honor_install_location=1): """ Uses the CopyAs builder to copy all source files to the directory given in pkgroot. If honor_install_location is set and the copied source file has an PACKAGING_INSTALL_LOCATION attribute, the PACKAGING_INSTALL_LOCATION is used as the new name of the source file under pkgroot. The source file will not be copied if it is already under the the pkgroot directory. All attributes of the source file will be copied to the new file. """ # make sure the packageroot is a Dir object. if SCons.Util.is_String(pkgroot): pkgroot=env.Dir(pkgroot) if not SCons.Util.is_List(source): source=[source] new_source = [] for file in source: if SCons.Util.is_String(file): file = env.File(file) if file.is_under(pkgroot): new_source.append(file) else: if file.GetTag('PACKAGING_INSTALL_LOCATION') and\ honor_install_location: new_name=make_path_relative(file.GetTag('PACKAGING_INSTALL_LOCATION')) else: new_name=make_path_relative(file.get_path()) new_file=pkgroot.File(new_name) new_file=env.CopyAs(new_file, file)[0] copy_attr(file, new_file) new_source.append(new_file) return (target, new_source) def stripinstallbuilder(target, source, env): """ Strips the install builder action from the source list and stores the final installation location as the "PACKAGING_INSTALL_LOCATION" of the source of the source file. This effectively removes the final installed files from the source list while remembering the installation location. It also warns about files which have no install builder attached. """ def has_no_install_location(file): return not (file.has_builder() and\ hasattr(file.builder, 'name') and\ (file.builder.name=="InstallBuilder" or\ file.builder.name=="InstallAsBuilder")) if len([src for src in source if has_no_install_location(src)]): warn(Warning, "there are files to package which have no\ InstallBuilder attached, this might lead to irreproducible packages") n_source=[] for s in source: if has_no_install_location(s): n_source.append(s) else: for ss in s.sources: n_source.append(ss) copy_attr(s, ss) ss.Tag('PACKAGING_INSTALL_LOCATION', s.get_path()) return (target, n_source) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/ilink.py0000664000175000017500000000411413202656511021030 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.ilink Tool-specific initialization for the OS/2 ilink linker. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/ilink.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util def generate(env): """Add Builders and construction variables for ilink to an Environment.""" SCons.Tool.createProgBuilder(env) env['LINK'] = 'ilink' env['LINKFLAGS'] = SCons.Util.CLVar('') env['LINKCOM'] = '$LINK $LINKFLAGS /O:$TARGET $SOURCES $_LIBDIRFLAGS $_LIBFLAGS' env['LIBDIRPREFIX']='/LIBPATH:' env['LIBDIRSUFFIX']='' env['LIBLINKPREFIX']='' env['LIBLINKSUFFIX']='$LIBSUFFIX' def exists(env): return env.Detect('ilink') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/default.py0000664000175000017500000000333213202656511021347 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.default Initialization with a default tool list. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/default.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Tool def generate(env): """Add default tools.""" for t in SCons.Tool.tool_list(env['PLATFORM'], env): SCons.Tool.Tool(t)(env) def exists(env): return 1 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sunf77.py0000664000175000017500000000415513202656512021061 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sunf77 Tool-specific initialization for sunf77, the Sun Studio F77 compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sunf77.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util from .FortranCommon import add_all_to_env compilers = ['sunf77', 'f77'] def generate(env): """Add Builders and construction variables for sunf77 to an Environment.""" add_all_to_env(env) fcomp = env.Detect(compilers) or 'f77' env['FORTRAN'] = fcomp env['F77'] = fcomp env['SHFORTRAN'] = '$FORTRAN' env['SHF77'] = '$F77' env['SHFORTRANFLAGS'] = SCons.Util.CLVar('$FORTRANFLAGS -KPIC') env['SHF77FLAGS'] = SCons.Util.CLVar('$F77FLAGS -KPIC') def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sgicc.py0000664000175000017500000000351513202656512021017 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sgicc Tool-specific initialization for MIPSPro cc on SGI. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sgicc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from . import cc def generate(env): """Add Builders and construction variables for gcc to an Environment.""" cc.generate(env) env['CXX'] = 'CC' env['SHOBJSUFFIX'] = '.o' env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 1 def exists(env): return env.Detect('cc') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/masm.py0000664000175000017500000000565413202656512020672 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.masm Tool-specific initialization for the Microsoft Assembler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/masm.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util ASSuffixes = ['.s', '.asm', '.ASM'] ASPPSuffixes = ['.spp', '.SPP', '.sx'] if SCons.Util.case_sensitive_suffixes('.s', '.S'): ASPPSuffixes.extend(['.S']) else: ASSuffixes.extend(['.S']) def generate(env): """Add Builders and construction variables for masm to an Environment.""" static_obj, shared_obj = SCons.Tool.createObjBuilders(env) for suffix in ASSuffixes: static_obj.add_action(suffix, SCons.Defaults.ASAction) shared_obj.add_action(suffix, SCons.Defaults.ASAction) static_obj.add_emitter(suffix, SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter(suffix, SCons.Defaults.SharedObjectEmitter) for suffix in ASPPSuffixes: static_obj.add_action(suffix, SCons.Defaults.ASPPAction) shared_obj.add_action(suffix, SCons.Defaults.ASPPAction) static_obj.add_emitter(suffix, SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter(suffix, SCons.Defaults.SharedObjectEmitter) env['AS'] = 'ml' env['ASFLAGS'] = SCons.Util.CLVar('/nologo') env['ASPPFLAGS'] = '$ASFLAGS' env['ASCOM'] = '$AS $ASFLAGS /c /Fo$TARGET $SOURCES' env['ASPPCOM'] = '$CC $ASPPFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS /c /Fo$TARGET $SOURCES' env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 1 def exists(env): return env.Detect('ml') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/aixc++.py0000664000175000017500000000320413202656511020773 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.aixc++ Tool-specific initialization for IBM xlC / Visual Age C++ compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/aixc++.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" #forward proxy to the preffered cxx version from SCons.Tool.aixcxx import * # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/ar.py0000664000175000017500000000426313202656511020331 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.ar Tool-specific initialization for ar (library archive). There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/ar.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util def generate(env): """Add Builders and construction variables for ar to an Environment.""" SCons.Tool.createStaticLibBuilder(env) env['AR'] = 'ar' env['ARFLAGS'] = SCons.Util.CLVar('rc') env['ARCOM'] = '$AR $ARFLAGS $TARGET $SOURCES' env['LIBPREFIX'] = 'lib' env['LIBSUFFIX'] = '.a' if env.get('RANLIB',env.Detect('ranlib')) : env['RANLIB'] = env.get('RANLIB','ranlib') env['RANLIBFLAGS'] = SCons.Util.CLVar('') env['RANLIBCOM'] = '$RANLIB $RANLIBFLAGS $TARGET' def exists(env): return env.Detect('ar') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/m4.py0000664000175000017500000000446013202656512020247 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.m4 Tool-specific initialization for m4. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/m4.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Action import SCons.Builder import SCons.Util def generate(env): """Add Builders and construction variables for m4 to an Environment.""" M4Action = SCons.Action.Action('$M4COM', '$M4COMSTR') bld = SCons.Builder.Builder(action = M4Action, src_suffix = '.m4') env['BUILDERS']['M4'] = bld # .m4 files might include other files, and it would be pretty hard # to write a scanner for it, so let's just cd to the dir of the m4 # file and run from there. # The src_suffix setup is like so: file.c.m4 -> file.c, # file.cpp.m4 -> file.cpp etc. env['M4'] = 'm4' env['M4FLAGS'] = SCons.Util.CLVar('-E') env['M4COM'] = 'cd ${SOURCE.rsrcdir} && $M4 $M4FLAGS < ${SOURCE.file} > ${TARGET.abspath}' def exists(env): return env.Detect('m4') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/ifort.py0000664000175000017500000000641513202656511021053 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.ifort Tool-specific initialization for newer versions of the Intel Fortran Compiler for Linux/Windows (and possibly Mac OS X). There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/ifort.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults from SCons.Scanner.Fortran import FortranScan from .FortranCommon import add_all_to_env def generate(env): """Add Builders and construction variables for ifort to an Environment.""" # ifort supports Fortran 90 and Fortran 95 # Additionally, ifort recognizes more file extensions. fscan = FortranScan("FORTRANPATH") SCons.Tool.SourceFileScanner.add_scanner('.i', fscan) SCons.Tool.SourceFileScanner.add_scanner('.i90', fscan) if 'FORTRANFILESUFFIXES' not in env: env['FORTRANFILESUFFIXES'] = ['.i'] else: env['FORTRANFILESUFFIXES'].append('.i') if 'F90FILESUFFIXES' not in env: env['F90FILESUFFIXES'] = ['.i90'] else: env['F90FILESUFFIXES'].append('.i90') add_all_to_env(env) fc = 'ifort' for dialect in ['F77', 'F90', 'FORTRAN', 'F95']: env['%s' % dialect] = fc env['SH%s' % dialect] = '$%s' % dialect if env['PLATFORM'] == 'posix': env['SH%sFLAGS' % dialect] = SCons.Util.CLVar('$%sFLAGS -fPIC' % dialect) if env['PLATFORM'] == 'win32': # On Windows, the ifort compiler specifies the object on the # command line with -object:, not -o. Massage the necessary # command-line construction variables. for dialect in ['F77', 'F90', 'FORTRAN', 'F95']: for var in ['%sCOM' % dialect, '%sPPCOM' % dialect, 'SH%sCOM' % dialect, 'SH%sPPCOM' % dialect]: env[var] = env[var].replace('-o $TARGET', '-object:$TARGET') env['FORTRANMODDIRPREFIX'] = "/module:" else: env['FORTRANMODDIRPREFIX'] = "-module " def exists(env): return env.Detect('ifort') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sunf90.py0000664000175000017500000000417313202656512021054 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sunf90 Tool-specific initialization for sunf90, the Sun Studio F90 compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sunf90.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util from .FortranCommon import add_all_to_env compilers = ['sunf90', 'f90'] def generate(env): """Add Builders and construction variables for sun f90 compiler to an Environment.""" add_all_to_env(env) fcomp = env.Detect(compilers) or 'f90' env['FORTRAN'] = fcomp env['F90'] = fcomp env['SHFORTRAN'] = '$FORTRAN' env['SHF90'] = '$F90' env['SHFORTRANFLAGS'] = SCons.Util.CLVar('$FORTRANFLAGS -KPIC') env['SHF90FLAGS'] = SCons.Util.CLVar('$F90FLAGS -KPIC') def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/gnulink.py0000664000175000017500000000560513202656511021377 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.gnulink Tool-specific initialization for the gnu linker. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/gnulink.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util import SCons.Tool import os import sys import re from . import link def generate(env): """Add Builders and construction variables for gnulink to an Environment.""" link.generate(env) if env['PLATFORM'] == 'hpux': env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -shared -fPIC') # __RPATH is set to $_RPATH in the platform specification if that # platform supports it. env['RPATHPREFIX'] = '-Wl,-rpath=' env['RPATHSUFFIX'] = '' env['_RPATH'] = '${_concat(RPATHPREFIX, RPATH, RPATHSUFFIX, __env__)}' # OpenBSD doesn't usually use SONAME for libraries use_soname = not sys.platform.startswith('openbsd') link._setup_versioned_lib_variables(env, tool = 'gnulink', use_soname = use_soname) env['LINKCALLBACKS'] = link._versioned_lib_callbacks() # For backward-compatibility with older SCons versions env['SHLIBVERSIONFLAGS'] = SCons.Util.CLVar('-Wl,-Bsymbolic') def exists(env): # TODO: sync with link.smart_link() to choose a linker linkers = { 'CXX': ['g++'], 'CC': ['gcc'] } alltools = [] for langvar, linktools in linkers.items(): if langvar in env: # use CC over CXX when user specified CC but not CXX return SCons.Tool.FindTool(linktools, env) alltools.extend(linktools) return SCons.Tool.FindTool(alltools, env) # find CXX or CC # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/ldc.py0000664000175000017500000001424413202656511020471 0ustar bdbaddogbdbaddog00000000000000from __future__ import print_function """SCons.Tool.ldc Tool-specific initialization for the LDC compiler. (https://github.com/ldc-developers/ldc) Developed by Russel Winder (russel@winder.org.uk) 2012-05-09 onwards Compiler variables: DC - The name of the D compiler to use. Defaults to ldc2. DPATH - List of paths to search for import modules. DVERSIONS - List of version tags to enable when compiling. DDEBUG - List of debug tags to enable when compiling. Linker related variables: LIBS - List of library files to link in. DLINK - Name of the linker to use. Defaults to ldc2. DLINKFLAGS - List of linker flags. Lib tool variables: DLIB - Name of the lib tool to use. Defaults to lib. DLIBFLAGS - List of flags to pass to the lib tool. LIBS - Same as for the linker. (libraries to pull into the .lib) """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/ldc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import subprocess import SCons.Action import SCons.Builder import SCons.Defaults import SCons.Scanner.D import SCons.Tool import SCons.Tool.DCommon as DCommon def generate(env): static_obj, shared_obj = SCons.Tool.createObjBuilders(env) static_obj.add_action('.d', SCons.Defaults.DAction) shared_obj.add_action('.d', SCons.Defaults.ShDAction) static_obj.add_emitter('.d', SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter('.d', SCons.Defaults.SharedObjectEmitter) env['DC'] = env.Detect('ldc2') or 'ldc2' env['DCOM'] = '$DC $_DINCFLAGS $_DVERFLAGS $_DDEBUGFLAGS $_DFLAGS -c -of=$TARGET $SOURCES' env['_DINCFLAGS'] = '${_concat(DINCPREFIX, DPATH, DINCSUFFIX, __env__, RDirs, TARGET, SOURCE)}' env['_DVERFLAGS'] = '${_concat(DVERPREFIX, DVERSIONS, DVERSUFFIX, __env__)}' env['_DDEBUGFLAGS'] = '${_concat(DDEBUGPREFIX, DDEBUG, DDEBUGSUFFIX, __env__)}' env['_DFLAGS'] = '${_concat(DFLAGPREFIX, DFLAGS, DFLAGSUFFIX, __env__)}' env['SHDC'] = '$DC' env['SHDCOM'] = '$DC $_DINCFLAGS $_DVERFLAGS $_DDEBUGFLAGS $_DFLAGS -c -relocation-model=pic -of=$TARGET $SOURCES' env['DPATH'] = ['#/'] env['DFLAGS'] = [] env['DVERSIONS'] = [] env['DDEBUG'] = [] if env['DC']: DCommon.addDPATHToEnv(env, env['DC']) env['DINCPREFIX'] = '-I=' env['DINCSUFFIX'] = '' env['DVERPREFIX'] = '-version=' env['DVERSUFFIX'] = '' env['DDEBUGPREFIX'] = '-debug=' env['DDEBUGSUFFIX'] = '' env['DFLAGPREFIX'] = '-' env['DFLAGSUFFIX'] = '' env['DFILESUFFIX'] = '.d' env['DLINK'] = '$DC' env['DLINKFLAGS'] = SCons.Util.CLVar('') env['DLINKCOM'] = '$DLINK -of=$TARGET $DLINKFLAGS $__DRPATH $SOURCES $_DLIBDIRFLAGS $_DLIBFLAGS' env['SHDLINK'] = '$DC' env['SHDLINKFLAGS'] = SCons.Util.CLVar('$DLINKFLAGS -shared -defaultlib=phobos2-ldc') env['SHDLINKCOM'] = '$DLINK -of=$TARGET $SHDLINKFLAGS $__SHDLIBVERSIONFLAGS $__DRPATH $SOURCES $_DLIBDIRFLAGS $_DLIBFLAGS -L-ldruntime-ldc' env['DLIBLINKPREFIX'] = '' if env['PLATFORM'] == 'win32' else '-L-l' env['DLIBLINKSUFFIX'] = '.lib' if env['PLATFORM'] == 'win32' else '' # env['_DLIBFLAGS'] = '${_concat(DLIBLINKPREFIX, LIBS, DLIBLINKSUFFIX, __env__, RDirs, TARGET, SOURCE)}' env['_DLIBFLAGS'] = '${_stripixes(DLIBLINKPREFIX, LIBS, DLIBLINKSUFFIX, LIBPREFIXES, LIBSUFFIXES, __env__)}' env['DLIBDIRPREFIX'] = '-L-L' env['DLIBDIRSUFFIX'] = '' env['_DLIBDIRFLAGS'] = '${_concat(DLIBDIRPREFIX, LIBPATH, DLIBDIRSUFFIX, __env__, RDirs, TARGET, SOURCE)}' env['DLIB'] = 'lib' if env['PLATFORM'] == 'win32' else 'ar cr' env['DLIBCOM'] = '$DLIB $_DLIBFLAGS {0}$TARGET $SOURCES $_DLIBFLAGS'.format('-c ' if env['PLATFORM'] == 'win32' else '') # env['_DLIBFLAGS'] = '${_concat(DLIBFLAGPREFIX, DLIBFLAGS, DLIBFLAGSUFFIX, __env__)}' env['DLIBFLAGPREFIX'] = '-' env['DLIBFLAGSUFFIX'] = '' # __RPATH is set to $_RPATH in the platform specification if that # platform supports it. env['DRPATHPREFIX'] = '-L-Wl,-rpath,' if env['PLATFORM'] == 'darwin' else '-L-rpath=' env['DRPATHSUFFIX'] = '' env['_DRPATH'] = '${_concat(DRPATHPREFIX, RPATH, DRPATHSUFFIX, __env__)}' # Support for versioned libraries env['_SHDLIBVERSIONFLAGS'] = '$SHDLIBVERSIONFLAGS -L-soname=$_SHDLIBSONAME' env['_SHDLIBSONAME'] = '${DShLibSonameGenerator(__env__,TARGET)}' # NOTE: this is a quick hack, the soname will only work if there is # c/c++ linker loaded which provides callback for the ShLibSonameGenerator env['DShLibSonameGenerator'] = SCons.Tool.ShLibSonameGenerator # NOTE: this is only for further reference, currently $SHDLIBVERSION does # not work, the user must use $SHLIBVERSION env['SHDLIBVERSION'] = '$SHLIBVERSION' env['SHDLIBVERSIONFLAGS'] = [] env['BUILDERS']['ProgramAllAtOnce'] = SCons.Builder.Builder( action='$DC $_DINCFLAGS $_DVERFLAGS $_DDEBUGFLAGS $_DFLAGS -of=$TARGET $DLINKFLAGS $__DRPATH $SOURCES $_DLIBDIRFLAGS $_DLIBFLAGS', emitter=DCommon.allAtOnceEmitter, ) def exists(env): return env.Detect('ldc2') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/FortranCommon.py0000664000175000017500000002501413202656511022510 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.FortranCommon Stuff for processing Fortran, common to all fortran dialects. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/Tool/FortranCommon.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import re import os.path import SCons.Action import SCons.Defaults import SCons.Scanner.Fortran import SCons.Tool import SCons.Util def isfortran(env, source): """Return 1 if any of code in source has fortran files in it, 0 otherwise.""" try: fsuffixes = env['FORTRANSUFFIXES'] except KeyError: # If no FORTRANSUFFIXES, no fortran tool, so there is no need to look # for fortran sources. return 0 if not source: # Source might be None for unusual cases like SConf. return 0 for s in source: if s.sources: ext = os.path.splitext(str(s.sources[0]))[1] if ext in fsuffixes: return 1 return 0 def _fortranEmitter(target, source, env): node = source[0].rfile() if not node.exists() and not node.is_derived(): print("Could not locate " + str(node.name)) return ([], []) mod_regex = """(?i)^\s*MODULE\s+(?!PROCEDURE)(\w+)""" cre = re.compile(mod_regex,re.M) # Retrieve all USE'd module names modules = cre.findall(node.get_text_contents()) # Remove unique items from the list modules = SCons.Util.unique(modules) # Convert module name to a .mod filename suffix = env.subst('$FORTRANMODSUFFIX', target=target, source=source) moddir = env.subst('$FORTRANMODDIR', target=target, source=source) modules = [x.lower() + suffix for x in modules] for m in modules: target.append(env.fs.File(m, moddir)) return (target, source) def FortranEmitter(target, source, env): target, source = _fortranEmitter(target, source, env) return SCons.Defaults.StaticObjectEmitter(target, source, env) def ShFortranEmitter(target, source, env): target, source = _fortranEmitter(target, source, env) return SCons.Defaults.SharedObjectEmitter(target, source, env) def ComputeFortranSuffixes(suffixes, ppsuffixes): """suffixes are fortran source files, and ppsuffixes the ones to be pre-processed. Both should be sequences, not strings.""" assert len(suffixes) > 0 s = suffixes[0] sup = s.upper() upper_suffixes = [_.upper() for _ in suffixes] if SCons.Util.case_sensitive_suffixes(s, sup): ppsuffixes.extend(upper_suffixes) else: suffixes.extend(upper_suffixes) def CreateDialectActions(dialect): """Create dialect specific actions.""" CompAction = SCons.Action.Action('$%sCOM ' % dialect, '$%sCOMSTR' % dialect) CompPPAction = SCons.Action.Action('$%sPPCOM ' % dialect, '$%sPPCOMSTR' % dialect) ShCompAction = SCons.Action.Action('$SH%sCOM ' % dialect, '$SH%sCOMSTR' % dialect) ShCompPPAction = SCons.Action.Action('$SH%sPPCOM ' % dialect, '$SH%sPPCOMSTR' % dialect) return CompAction, CompPPAction, ShCompAction, ShCompPPAction def DialectAddToEnv(env, dialect, suffixes, ppsuffixes, support_module = 0): """Add dialect specific construction variables.""" ComputeFortranSuffixes(suffixes, ppsuffixes) fscan = SCons.Scanner.Fortran.FortranScan("%sPATH" % dialect) for suffix in suffixes + ppsuffixes: SCons.Tool.SourceFileScanner.add_scanner(suffix, fscan) env.AppendUnique(FORTRANSUFFIXES = suffixes + ppsuffixes) compaction, compppaction, shcompaction, shcompppaction = \ CreateDialectActions(dialect) static_obj, shared_obj = SCons.Tool.createObjBuilders(env) for suffix in suffixes: static_obj.add_action(suffix, compaction) shared_obj.add_action(suffix, shcompaction) static_obj.add_emitter(suffix, FortranEmitter) shared_obj.add_emitter(suffix, ShFortranEmitter) for suffix in ppsuffixes: static_obj.add_action(suffix, compppaction) shared_obj.add_action(suffix, shcompppaction) static_obj.add_emitter(suffix, FortranEmitter) shared_obj.add_emitter(suffix, ShFortranEmitter) if '%sFLAGS' % dialect not in env: env['%sFLAGS' % dialect] = SCons.Util.CLVar('') if 'SH%sFLAGS' % dialect not in env: env['SH%sFLAGS' % dialect] = SCons.Util.CLVar('$%sFLAGS' % dialect) # If a tool does not define fortran prefix/suffix for include path, use C ones if 'INC%sPREFIX' % dialect not in env: env['INC%sPREFIX' % dialect] = '$INCPREFIX' if 'INC%sSUFFIX' % dialect not in env: env['INC%sSUFFIX' % dialect] = '$INCSUFFIX' env['_%sINCFLAGS' % dialect] = '$( ${_concat(INC%sPREFIX, %sPATH, INC%sSUFFIX, __env__, RDirs, TARGET, SOURCE)} $)' % (dialect, dialect, dialect) if support_module == 1: env['%sCOM' % dialect] = '$%s -o $TARGET -c $%sFLAGS $_%sINCFLAGS $_FORTRANMODFLAG $SOURCES' % (dialect, dialect, dialect) env['%sPPCOM' % dialect] = '$%s -o $TARGET -c $%sFLAGS $CPPFLAGS $_CPPDEFFLAGS $_%sINCFLAGS $_FORTRANMODFLAG $SOURCES' % (dialect, dialect, dialect) env['SH%sCOM' % dialect] = '$SH%s -o $TARGET -c $SH%sFLAGS $_%sINCFLAGS $_FORTRANMODFLAG $SOURCES' % (dialect, dialect, dialect) env['SH%sPPCOM' % dialect] = '$SH%s -o $TARGET -c $SH%sFLAGS $CPPFLAGS $_CPPDEFFLAGS $_%sINCFLAGS $_FORTRANMODFLAG $SOURCES' % (dialect, dialect, dialect) else: env['%sCOM' % dialect] = '$%s -o $TARGET -c $%sFLAGS $_%sINCFLAGS $SOURCES' % (dialect, dialect, dialect) env['%sPPCOM' % dialect] = '$%s -o $TARGET -c $%sFLAGS $CPPFLAGS $_CPPDEFFLAGS $_%sINCFLAGS $SOURCES' % (dialect, dialect, dialect) env['SH%sCOM' % dialect] = '$SH%s -o $TARGET -c $SH%sFLAGS $_%sINCFLAGS $SOURCES' % (dialect, dialect, dialect) env['SH%sPPCOM' % dialect] = '$SH%s -o $TARGET -c $SH%sFLAGS $CPPFLAGS $_CPPDEFFLAGS $_%sINCFLAGS $SOURCES' % (dialect, dialect, dialect) def add_fortran_to_env(env): """Add Builders and construction variables for Fortran to an Environment.""" try: FortranSuffixes = env['FORTRANFILESUFFIXES'] except KeyError: FortranSuffixes = ['.f', '.for', '.ftn'] #print("Adding %s to fortran suffixes" % FortranSuffixes) try: FortranPPSuffixes = env['FORTRANPPFILESUFFIXES'] except KeyError: FortranPPSuffixes = ['.fpp', '.FPP'] DialectAddToEnv(env, "FORTRAN", FortranSuffixes, FortranPPSuffixes, support_module = 1) env['FORTRANMODPREFIX'] = '' # like $LIBPREFIX env['FORTRANMODSUFFIX'] = '.mod' # like $LIBSUFFIX env['FORTRANMODDIR'] = '' # where the compiler should place .mod files env['FORTRANMODDIRPREFIX'] = '' # some prefix to $FORTRANMODDIR - similar to $INCPREFIX env['FORTRANMODDIRSUFFIX'] = '' # some suffix to $FORTRANMODDIR - similar to $INCSUFFIX env['_FORTRANMODFLAG'] = '$( ${_concat(FORTRANMODDIRPREFIX, FORTRANMODDIR, FORTRANMODDIRSUFFIX, __env__, RDirs, TARGET, SOURCE)} $)' def add_f77_to_env(env): """Add Builders and construction variables for f77 to an Environment.""" try: F77Suffixes = env['F77FILESUFFIXES'] except KeyError: F77Suffixes = ['.f77'] #print("Adding %s to f77 suffixes" % F77Suffixes) try: F77PPSuffixes = env['F77PPFILESUFFIXES'] except KeyError: F77PPSuffixes = [] DialectAddToEnv(env, "F77", F77Suffixes, F77PPSuffixes) def add_f90_to_env(env): """Add Builders and construction variables for f90 to an Environment.""" try: F90Suffixes = env['F90FILESUFFIXES'] except KeyError: F90Suffixes = ['.f90'] #print("Adding %s to f90 suffixes" % F90Suffixes) try: F90PPSuffixes = env['F90PPFILESUFFIXES'] except KeyError: F90PPSuffixes = [] DialectAddToEnv(env, "F90", F90Suffixes, F90PPSuffixes, support_module = 1) def add_f95_to_env(env): """Add Builders and construction variables for f95 to an Environment.""" try: F95Suffixes = env['F95FILESUFFIXES'] except KeyError: F95Suffixes = ['.f95'] #print("Adding %s to f95 suffixes" % F95Suffixes) try: F95PPSuffixes = env['F95PPFILESUFFIXES'] except KeyError: F95PPSuffixes = [] DialectAddToEnv(env, "F95", F95Suffixes, F95PPSuffixes, support_module = 1) def add_f03_to_env(env): """Add Builders and construction variables for f03 to an Environment.""" try: F03Suffixes = env['F03FILESUFFIXES'] except KeyError: F03Suffixes = ['.f03'] #print("Adding %s to f95 suffixes" % F95Suffixes) try: F03PPSuffixes = env['F03PPFILESUFFIXES'] except KeyError: F03PPSuffixes = [] DialectAddToEnv(env, "F03", F03Suffixes, F03PPSuffixes, support_module = 1) def add_f08_to_env(env): """Add Builders and construction variables for f08 to an Environment.""" try: F08Suffixes = env['F08FILESUFFIXES'] except KeyError: F08Suffixes = ['.f08'] try: F08PPSuffixes = env['F08PPFILESUFFIXES'] except KeyError: F08PPSuffixes = [] DialectAddToEnv(env, "F08", F08Suffixes, F08PPSuffixes, support_module = 1) def add_all_to_env(env): """Add builders and construction variables for all supported fortran dialects.""" add_fortran_to_env(env) add_f77_to_env(env) add_f90_to_env(env) add_f95_to_env(env) add_f03_to_env(env) add_f08_to_env(env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/aixcxx.py0000664000175000017500000000465413202656511021237 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.aixc++ Tool-specific initialization for IBM xlC / Visual Age C++ compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/aixcxx.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Platform.aix import SCons.Tool.cxx cplusplus = SCons.Tool.cxx #cplusplus = __import__('cxx', globals(), locals(), []) packages = ['vacpp.cmp.core', 'vacpp.cmp.batch', 'vacpp.cmp.C', 'ibmcxx.cmp'] def get_xlc(env): xlc = env.get('CXX', 'xlC') return SCons.Platform.aix.get_xlc(env, xlc, packages) def generate(env): """Add Builders and construction variables for xlC / Visual Age suite to an Environment.""" path, _cxx, version = get_xlc(env) if path and _cxx: _cxx = os.path.join(path, _cxx) if 'CXX' not in env: env['CXX'] = _cxx cplusplus.generate(env) if version: env['CXXVERSION'] = version def exists(env): path, _cxx, version = get_xlc(env) if path and _cxx: xlc = os.path.join(path, _cxx) if os.path.exists(xlc): return xlc return None # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/link.py0000664000175000017500000003211613202656511020662 0ustar bdbaddogbdbaddog00000000000000 """SCons.Tool.link Tool-specific initialization for the generic Posix linker. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/Tool/link.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import sys import re import os import SCons.Tool import SCons.Util import SCons.Warnings from SCons.Tool.FortranCommon import isfortran from SCons.Tool.DCommon import isD import SCons.Tool.cxx cplusplus = SCons.Tool.cxx # cplusplus = __import__(__package__+'.cxx', globals(), locals(), ['*']) issued_mixed_link_warning = False def smart_link(source, target, env, for_signature): has_cplusplus = cplusplus.iscplusplus(source) has_fortran = isfortran(env, source) has_d = isD(env, source) if has_cplusplus and has_fortran and not has_d: global issued_mixed_link_warning if not issued_mixed_link_warning: msg = "Using $CXX to link Fortran and C++ code together.\n\t" + \ "This may generate a buggy executable if the '%s'\n\t" + \ "compiler does not know how to deal with Fortran runtimes." SCons.Warnings.warn(SCons.Warnings.FortranCxxMixWarning, msg % env.subst('$CXX')) issued_mixed_link_warning = True return '$CXX' elif has_d: env['LINKCOM'] = env['DLINKCOM'] env['SHLINKCOM'] = env['SHDLINKCOM'] return '$DC' elif has_fortran: return '$FORTRAN' elif has_cplusplus: return '$CXX' return '$CC' def _lib_emitter(target, source, env, **kw): Verbose = False if Verbose: print("_lib_emitter: target[0]={:r}".format(target[0].get_path())) for tgt in target: tgt.attributes.shared = 1 try: symlink_generator = kw['symlink_generator'] except KeyError: pass else: if Verbose: print("_lib_emitter: symlink_generator={:r}".format(symlink_generator)) symlinks = symlink_generator(env, target[0]) if Verbose: print("_lib_emitter: symlinks={:r}".format(symlinks)) if symlinks: SCons.Tool.EmitLibSymlinks(env, symlinks, target[0]) target[0].attributes.shliblinks = symlinks return (target, source) def shlib_emitter(target, source, env): return _lib_emitter(target, source, env, symlink_generator = SCons.Tool.ShLibSymlinkGenerator) def ldmod_emitter(target, source, env): return _lib_emitter(target, source, env, symlink_generator = SCons.Tool.LdModSymlinkGenerator) # This is generic enough to be included here... def _versioned_lib_name(env, libnode, version, prefix, suffix, prefix_generator, suffix_generator, **kw): """For libnode='/optional/dir/libfoo.so.X.Y.Z' it returns 'libfoo.so'""" Verbose = False if Verbose: print("_versioned_lib_name: libnode={:r}".format(libnode.get_path())) print("_versioned_lib_name: version={:r}".format(version)) print("_versioned_lib_name: prefix={:r}".format(prefix)) print("_versioned_lib_name: suffix={:r}".format(suffix)) print("_versioned_lib_name: suffix_generator={:r}".format(suffix_generator)) versioned_name = os.path.basename(libnode.get_path()) if Verbose: print("_versioned_lib_name: versioned_name={:r}".format(versioned_name)) versioned_prefix = prefix_generator(env, **kw) versioned_suffix = suffix_generator(env, **kw) if Verbose: print("_versioned_lib_name: versioned_prefix={:r}".format(versioned_prefix)) print("_versioned_lib_name: versioned_suffix={:r}".format(versioned_suffix)) versioned_prefix_re = '^' + re.escape(versioned_prefix) versioned_suffix_re = re.escape(versioned_suffix) + '$' name = re.sub(versioned_prefix_re, prefix, versioned_name) name = re.sub(versioned_suffix_re, suffix, name) if Verbose: print("_versioned_lib_name: name={:r}".format(name)) return name def _versioned_shlib_name(env, libnode, version, prefix, suffix, **kw): pg = SCons.Tool.ShLibPrefixGenerator sg = SCons.Tool.ShLibSuffixGenerator return _versioned_lib_name(env, libnode, version, prefix, suffix, pg, sg, **kw) def _versioned_ldmod_name(env, libnode, version, prefix, suffix, **kw): pg = SCons.Tool.LdModPrefixGenerator sg = SCons.Tool.LdModSuffixGenerator return _versioned_lib_name(env, libnode, version, prefix, suffix, pg, sg, **kw) def _versioned_lib_suffix(env, suffix, version): """For suffix='.so' and version='0.1.2' it returns '.so.0.1.2'""" Verbose = False if Verbose: print("_versioned_lib_suffix: suffix={:r}".format(suffix)) print("_versioned_lib_suffix: version={:r}".format(version)) if not suffix.endswith(version): suffix = suffix + '.' + version if Verbose: print("_versioned_lib_suffix: return suffix={:r}".format(suffix)) return suffix def _versioned_lib_soname(env, libnode, version, prefix, suffix, name_func): """For libnode='/optional/dir/libfoo.so.X.Y.Z' it returns 'libfoo.so.X'""" Verbose = False if Verbose: print("_versioned_lib_soname: version={:r}".format(version)) name = name_func(env, libnode, version, prefix, suffix) if Verbose: print("_versioned_lib_soname: name={:r}".format(name)) major = version.split('.')[0] soname = name + '.' + major if Verbose: print("_versioned_lib_soname: soname={:r}".format(soname)) return soname def _versioned_shlib_soname(env, libnode, version, prefix, suffix): return _versioned_lib_soname(env, libnode, version, prefix, suffix, _versioned_shlib_name) def _versioned_ldmod_soname(env, libnode, version, prefix, suffix): return _versioned_lib_soname(env, libnode, version, prefix, suffix, _versioned_ldmod_name) def _versioned_lib_symlinks(env, libnode, version, prefix, suffix, name_func, soname_func): """Generate link names that should be created for a versioned shared lirbrary. Returns a dictionary in the form { linkname : linktarget } """ Verbose = False if Verbose: print("_versioned_lib_symlinks: libnode={:r}".format(libnode.get_path())) print("_versioned_lib_symlinks: version={:r}".format(version)) if sys.platform.startswith('openbsd'): # OpenBSD uses x.y shared library versioning numbering convention # and doesn't use symlinks to backwards-compatible libraries if Verbose: print("_versioned_lib_symlinks: return symlinks={:r}".format(None)) return None linkdir = libnode.get_dir() if Verbose: print("_versioned_lib_symlinks: linkdir={:r}".format(linkdir.get_path())) name = name_func(env, libnode, version, prefix, suffix) if Verbose: print("_versioned_lib_symlinks: name={:r}".format(name)) soname = soname_func(env, libnode, version, prefix, suffix) link0 = env.fs.File(soname, linkdir) link1 = env.fs.File(name, linkdir) # We create direct symlinks, not daisy-chained. if link0 == libnode: # This enables SHLIBVERSION without periods (e.g. SHLIBVERSION=1) symlinks = [ (link1, libnode) ] else: # This handles usual SHLIBVERSION, i.e. '1.2', '1.2.3', etc. symlinks = [ (link0, libnode), (link1, libnode) ] if Verbose: print("_versioned_lib_symlinks: return symlinks={:r}".format(SCons.Tool.StringizeLibSymlinks(symlinks))) return symlinks def _versioned_shlib_symlinks(env, libnode, version, prefix, suffix): nf = _versioned_shlib_name sf = _versioned_shlib_soname return _versioned_lib_symlinks(env, libnode, version, prefix, suffix, nf, sf) def _versioned_ldmod_symlinks(env, libnode, version, prefix, suffix): nf = _versioned_ldmod_name sf = _versioned_ldmod_soname return _versioned_lib_symlinks(env, libnode, version, prefix, suffix, nf, sf) def _versioned_lib_callbacks(): return { 'VersionedShLibSuffix' : _versioned_lib_suffix, 'VersionedLdModSuffix' : _versioned_lib_suffix, 'VersionedShLibSymlinks' : _versioned_shlib_symlinks, 'VersionedLdModSymlinks' : _versioned_ldmod_symlinks, 'VersionedShLibName' : _versioned_shlib_name, 'VersionedLdModName' : _versioned_ldmod_name, 'VersionedShLibSoname' : _versioned_shlib_soname, 'VersionedLdModSoname' : _versioned_ldmod_soname, }.copy() def _setup_versioned_lib_variables(env, **kw): """ Setup all variables required by the versioning machinery """ tool = None try: tool = kw['tool'] except KeyError: pass use_soname = False try: use_soname = kw['use_soname'] except KeyError: pass # The $_SHLIBVERSIONFLAGS define extra commandline flags used when # building VERSIONED shared libraries. It's always set, but used only # when VERSIONED library is built (see __SHLIBVERSIONFLAGS in SCons/Defaults.py). if use_soname: # If the linker uses SONAME, then we need this little automata if tool == 'sunlink': env['_SHLIBVERSIONFLAGS'] = '$SHLIBVERSIONFLAGS -h $_SHLIBSONAME' env['_LDMODULEVERSIONFLAGS'] = '$LDMODULEVERSIONFLAGS -h $_LDMODULESONAME' else: env['_SHLIBVERSIONFLAGS'] = '$SHLIBVERSIONFLAGS -Wl,-soname=$_SHLIBSONAME' env['_LDMODULEVERSIONFLAGS'] = '$LDMODULEVERSIONFLAGS -Wl,-soname=$_LDMODULESONAME' env['_SHLIBSONAME'] = '${ShLibSonameGenerator(__env__,TARGET)}' env['_LDMODULESONAME'] = '${LdModSonameGenerator(__env__,TARGET)}' env['ShLibSonameGenerator'] = SCons.Tool.ShLibSonameGenerator env['LdModSonameGenerator'] = SCons.Tool.LdModSonameGenerator else: env['_SHLIBVERSIONFLAGS'] = '$SHLIBVERSIONFLAGS' env['_LDMODULEVERSIONFLAGS'] = '$LDMODULEVERSIONFLAGS' # LDOMDULVERSIONFLAGS should always default to $SHLIBVERSIONFLAGS env['LDMODULEVERSIONFLAGS'] = '$SHLIBVERSIONFLAGS' def generate(env): """Add Builders and construction variables for gnulink to an Environment.""" SCons.Tool.createSharedLibBuilder(env) SCons.Tool.createProgBuilder(env) env['SHLINK'] = '$LINK' env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -shared') env['SHLINKCOM'] = '$SHLINK -o $TARGET $SHLINKFLAGS $__SHLIBVERSIONFLAGS $__RPATH $SOURCES $_LIBDIRFLAGS $_LIBFLAGS' # don't set up the emitter, cause AppendUnique will generate a list # starting with None :-( env.Append(SHLIBEMITTER = [shlib_emitter]) env['SMARTLINK'] = smart_link env['LINK'] = "$SMARTLINK" env['LINKFLAGS'] = SCons.Util.CLVar('') # __RPATH is only set to something ($_RPATH typically) on platforms that support it. env['LINKCOM'] = '$LINK -o $TARGET $LINKFLAGS $__RPATH $SOURCES $_LIBDIRFLAGS $_LIBFLAGS' env['LIBDIRPREFIX']='-L' env['LIBDIRSUFFIX']='' env['_LIBFLAGS']='${_stripixes(LIBLINKPREFIX, LIBS, LIBLINKSUFFIX, LIBPREFIXES, LIBSUFFIXES, __env__)}' env['LIBLINKPREFIX']='-l' env['LIBLINKSUFFIX']='' if env['PLATFORM'] == 'hpux': env['SHLIBSUFFIX'] = '.sl' elif env['PLATFORM'] == 'aix': env['SHLIBSUFFIX'] = '.a' # For most platforms, a loadable module is the same as a shared # library. Platforms which are different can override these, but # setting them the same means that LoadableModule works everywhere. SCons.Tool.createLoadableModuleBuilder(env) env['LDMODULE'] = '$SHLINK' env.Append(LDMODULEEMITTER = [ldmod_emitter]) env['LDMODULEPREFIX'] = '$SHLIBPREFIX' env['LDMODULESUFFIX'] = '$SHLIBSUFFIX' env['LDMODULEFLAGS'] = '$SHLINKFLAGS' env['LDMODULECOM'] = '$LDMODULE -o $TARGET $LDMODULEFLAGS $__LDMODULEVERSIONFLAGS $__RPATH $SOURCES $_LIBDIRFLAGS $_LIBFLAGS' env['LDMODULEVERSION'] = '$SHLIBVERSION' env['LDMODULENOVERSIONSYMLINKS'] = '$SHLIBNOVERSIONSYMLINKS' def exists(env): # This module isn't really a Tool on its own, it's common logic for # other linkers. return None # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/yacc.py0000664000175000017500000001102213202656512020636 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.yacc Tool-specific initialization for yacc. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/yacc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Defaults import SCons.Tool import SCons.Util YaccAction = SCons.Action.Action("$YACCCOM", "$YACCCOMSTR") def _yaccEmitter(target, source, env, ysuf, hsuf): yaccflags = env.subst("$YACCFLAGS", target=target, source=source) flags = SCons.Util.CLVar(yaccflags) targetBase, targetExt = os.path.splitext(SCons.Util.to_String(target[0])) if '.ym' in ysuf: # If using Objective-C target = [targetBase + ".m"] # the extension is ".m". # If -d is specified on the command line, yacc will emit a .h # or .hpp file with the same name as the .c or .cpp output file. if '-d' in flags: target.append(targetBase + env.subst(hsuf, target=target, source=source)) # If -g is specified on the command line, yacc will emit a .vcg # file with the same base name as the .y, .yacc, .ym or .yy file. if "-g" in flags: base, ext = os.path.splitext(SCons.Util.to_String(source[0])) target.append(base + env.subst("$YACCVCGFILESUFFIX")) # If -v is specified yacc will create the output debug file # which is not really source for any process, but should # be noted and also be cleaned # Bug #2558 if "-v" in flags: env.SideEffect(targetBase+'.output',target[0]) env.Clean(target[0],targetBase+'.output') # With --defines and --graph, the name of the file is totally defined # in the options. fileGenOptions = ["--defines=", "--graph="] for option in flags: for fileGenOption in fileGenOptions: l = len(fileGenOption) if option[:l] == fileGenOption: # A file generating option is present, so add the file # name to the list of targets. fileName = option[l:].strip() target.append(fileName) return (target, source) def yEmitter(target, source, env): return _yaccEmitter(target, source, env, ['.y', '.yacc'], '$YACCHFILESUFFIX') def ymEmitter(target, source, env): return _yaccEmitter(target, source, env, ['.ym'], '$YACCHFILESUFFIX') def yyEmitter(target, source, env): return _yaccEmitter(target, source, env, ['.yy'], '$YACCHXXFILESUFFIX') def generate(env): """Add Builders and construction variables for yacc to an Environment.""" c_file, cxx_file = SCons.Tool.createCFileBuilders(env) # C c_file.add_action('.y', YaccAction) c_file.add_emitter('.y', yEmitter) c_file.add_action('.yacc', YaccAction) c_file.add_emitter('.yacc', yEmitter) # Objective-C c_file.add_action('.ym', YaccAction) c_file.add_emitter('.ym', ymEmitter) # C++ cxx_file.add_action('.yy', YaccAction) cxx_file.add_emitter('.yy', yyEmitter) env['YACC'] = env.Detect('bison') or 'yacc' env['YACCFLAGS'] = SCons.Util.CLVar('') env['YACCCOM'] = '$YACC $YACCFLAGS -o $TARGET $SOURCES' env['YACCHFILESUFFIX'] = '.h' env['YACCHXXFILESUFFIX'] = '.hpp' env['YACCVCGFILESUFFIX'] = '.vcg' def exists(env): return env.Detect(['bison', 'yacc']) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/tex.py0000664000175000017500000011614113202656512020527 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.tex Tool-specific initialization for TeX. Generates .dvi files from .tex files There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/Tool/tex.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import re import shutil import sys import platform import glob import SCons.Action import SCons.Node import SCons.Node.FS import SCons.Util import SCons.Scanner.LaTeX Verbose = False must_rerun_latex = True # these are files that just need to be checked for changes and then rerun latex check_suffixes = ['.toc', '.lof', '.lot', '.out', '.nav', '.snm'] # these are files that require bibtex or makeindex to be run when they change all_suffixes = check_suffixes + ['.bbl', '.idx', '.nlo', '.glo', '.acn', '.bcf'] # # regular expressions used to search for Latex features # or outputs that require rerunning latex # # search for all .aux files opened by latex (recorded in the .fls file) openout_aux_re = re.compile(r"OUTPUT *(.*\.aux)") # search for all .bcf files opened by latex (recorded in the .fls file) # for use by biber openout_bcf_re = re.compile(r"OUTPUT *(.*\.bcf)") #printindex_re = re.compile(r"^[^%]*\\printindex", re.MULTILINE) #printnomenclature_re = re.compile(r"^[^%]*\\printnomenclature", re.MULTILINE) #printglossary_re = re.compile(r"^[^%]*\\printglossary", re.MULTILINE) # search to find rerun warnings warning_rerun_str = '(^LaTeX Warning:.*Rerun)|(^Package \w+ Warning:.*Rerun)' warning_rerun_re = re.compile(warning_rerun_str, re.MULTILINE) # search to find citation rerun warnings rerun_citations_str = "^LaTeX Warning:.*\n.*Rerun to get citations correct" rerun_citations_re = re.compile(rerun_citations_str, re.MULTILINE) # search to find undefined references or citations warnings undefined_references_str = '(^LaTeX Warning:.*undefined references)|(^Package \w+ Warning:.*undefined citations)' undefined_references_re = re.compile(undefined_references_str, re.MULTILINE) # used by the emitter auxfile_re = re.compile(r".", re.MULTILINE) tableofcontents_re = re.compile(r"^[^%\n]*\\tableofcontents", re.MULTILINE) makeindex_re = re.compile(r"^[^%\n]*\\makeindex", re.MULTILINE) bibliography_re = re.compile(r"^[^%\n]*\\bibliography", re.MULTILINE) bibunit_re = re.compile(r"^[^%\n]*\\begin\{bibunit\}", re.MULTILINE) multibib_re = re.compile(r"^[^%\n]*\\newcites\{([^\}]*)\}", re.MULTILINE) addbibresource_re = re.compile(r"^[^%\n]*\\(addbibresource|addglobalbib|addsectionbib)", re.MULTILINE) listoffigures_re = re.compile(r"^[^%\n]*\\listoffigures", re.MULTILINE) listoftables_re = re.compile(r"^[^%\n]*\\listoftables", re.MULTILINE) hyperref_re = re.compile(r"^[^%\n]*\\usepackage.*\{hyperref\}", re.MULTILINE) makenomenclature_re = re.compile(r"^[^%\n]*\\makenomenclature", re.MULTILINE) makeglossary_re = re.compile(r"^[^%\n]*\\makeglossary", re.MULTILINE) makeglossaries_re = re.compile(r"^[^%\n]*\\makeglossaries", re.MULTILINE) makeacronyms_re = re.compile(r"^[^%\n]*\\makeglossaries", re.MULTILINE) beamer_re = re.compile(r"^[^%\n]*\\documentclass\{beamer\}", re.MULTILINE) regex = r'^[^%\n]*\\newglossary\s*\[([^\]]+)\]?\s*\{([^}]*)\}\s*\{([^}]*)\}\s*\{([^}]*)\}\s*\{([^}]*)\}' newglossary_re = re.compile(regex, re.MULTILINE) biblatex_re = re.compile(r"^[^%\n]*\\usepackage.*\{biblatex\}", re.MULTILINE) newglossary_suffix = [] # search to find all files included by Latex include_re = re.compile(r'^[^%\n]*\\(?:include|input){([^}]*)}', re.MULTILINE) includeOnly_re = re.compile(r'^[^%\n]*\\(?:include){([^}]*)}', re.MULTILINE) # search to find all graphics files included by Latex includegraphics_re = re.compile(r'^[^%\n]*\\(?:includegraphics(?:\[[^\]]+\])?){([^}]*)}', re.MULTILINE) # search to find all files opened by Latex (recorded in .log file) openout_re = re.compile(r"OUTPUT *(.*)") # list of graphics file extensions for TeX and LaTeX TexGraphics = SCons.Scanner.LaTeX.TexGraphics LatexGraphics = SCons.Scanner.LaTeX.LatexGraphics # An Action sufficient to build any generic tex file. TeXAction = None # An action to build a latex file. This action might be needed more # than once if we are dealing with labels and bibtex. LaTeXAction = None # An action to run BibTeX on a file. BibTeXAction = None # An action to run Biber on a file. BiberAction = None # An action to run MakeIndex on a file. MakeIndexAction = None # An action to run MakeIndex (for nomencl) on a file. MakeNclAction = None # An action to run MakeIndex (for glossary) on a file. MakeGlossaryAction = None # An action to run MakeIndex (for acronyms) on a file. MakeAcronymsAction = None # An action to run MakeIndex (for newglossary commands) on a file. MakeNewGlossaryAction = None # Used as a return value of modify_env_var if the variable is not set. _null = SCons.Scanner.LaTeX._null modify_env_var = SCons.Scanner.LaTeX.modify_env_var def check_file_error_message(utility, filename='log'): msg = '%s returned an error, check the %s file\n' % (utility, filename) sys.stdout.write(msg) def FindFile(name,suffixes,paths,env,requireExt=False): if requireExt: name,ext = SCons.Util.splitext(name) # if the user gave an extension use it. if ext: name = name + ext if Verbose: print(" searching for '%s' with extensions: " % name,suffixes) for path in paths: testName = os.path.join(path,name) if Verbose: print(" look for '%s'" % testName) if os.path.isfile(testName): if Verbose: print(" found '%s'" % testName) return env.fs.File(testName) else: name_ext = SCons.Util.splitext(testName)[1] if name_ext: continue # if no suffix try adding those passed in for suffix in suffixes: testNameExt = testName + suffix if Verbose: print(" look for '%s'" % testNameExt) if os.path.isfile(testNameExt): if Verbose: print(" found '%s'" % testNameExt) return env.fs.File(testNameExt) if Verbose: print(" did not find '%s'" % name) return None def InternalLaTeXAuxAction(XXXLaTeXAction, target = None, source= None, env=None): """A builder for LaTeX files that checks the output in the aux file and decides how many times to use LaTeXAction, and BibTeXAction.""" global must_rerun_latex # This routine is called with two actions. In this file for DVI builds # with LaTeXAction and from the pdflatex.py with PDFLaTeXAction # set this up now for the case where the user requests a different extension # for the target filename if (XXXLaTeXAction == LaTeXAction): callerSuffix = ".dvi" else: callerSuffix = env['PDFSUFFIX'] basename = SCons.Util.splitext(str(source[0]))[0] basedir = os.path.split(str(source[0]))[0] basefile = os.path.split(str(basename))[1] abspath = os.path.abspath(basedir) targetext = os.path.splitext(str(target[0]))[1] targetdir = os.path.split(str(target[0]))[0] saved_env = {} for var in SCons.Scanner.LaTeX.LaTeX.env_variables: saved_env[var] = modify_env_var(env, var, abspath) # Create base file names with the target directory since the auxiliary files # will be made there. That's because the *COM variables have the cd # command in the prolog. We check # for the existence of files before opening them--even ones like the # aux file that TeX always creates--to make it possible to write tests # with stubs that don't necessarily generate all of the same files. targetbase = os.path.join(targetdir, basefile) # if there is a \makeindex there will be a .idx and thus # we have to run makeindex at least once to keep the build # happy even if there is no index. # Same for glossaries, nomenclature, and acronyms src_content = source[0].get_text_contents() run_makeindex = makeindex_re.search(src_content) and not os.path.isfile(targetbase + '.idx') run_nomenclature = makenomenclature_re.search(src_content) and not os.path.isfile(targetbase + '.nlo') run_glossary = makeglossary_re.search(src_content) and not os.path.isfile(targetbase + '.glo') run_glossaries = makeglossaries_re.search(src_content) and not os.path.isfile(targetbase + '.glo') run_acronyms = makeacronyms_re.search(src_content) and not os.path.isfile(targetbase + '.acn') saved_hashes = {} suffix_nodes = {} for suffix in all_suffixes+sum(newglossary_suffix, []): theNode = env.fs.File(targetbase + suffix) suffix_nodes[suffix] = theNode saved_hashes[suffix] = theNode.get_csig() if Verbose: print("hashes: ",saved_hashes) must_rerun_latex = True # .aux files already processed by BibTex already_bibtexed = [] # # routine to update MD5 hash and compare # def check_MD5(filenode, suffix): global must_rerun_latex # two calls to clear old csig filenode.clear_memoized_values() filenode.ninfo = filenode.new_ninfo() new_md5 = filenode.get_csig() if saved_hashes[suffix] == new_md5: if Verbose: print("file %s not changed" % (targetbase+suffix)) return False # unchanged saved_hashes[suffix] = new_md5 must_rerun_latex = True if Verbose: print("file %s changed, rerunning Latex, new hash = " % (targetbase+suffix), new_md5) return True # changed # generate the file name that latex will generate resultfilename = targetbase + callerSuffix count = 0 while (must_rerun_latex and count < int(env.subst('$LATEXRETRIES'))) : result = XXXLaTeXAction(target, source, env) if result != 0: return result count = count + 1 must_rerun_latex = False # Decide if various things need to be run, or run again. # Read the log file to find warnings/errors logfilename = targetbase + '.log' logContent = '' if os.path.isfile(logfilename): logContent = open(logfilename, "r").read() # Read the fls file to find all .aux files flsfilename = targetbase + '.fls' flsContent = '' auxfiles = [] if os.path.isfile(flsfilename): flsContent = open(flsfilename, "r").read() auxfiles = openout_aux_re.findall(flsContent) # remove duplicates dups = {} for x in auxfiles: dups[x] = 1 auxfiles = list(dups.keys()) bcffiles = [] if os.path.isfile(flsfilename): flsContent = open(flsfilename, "r").read() bcffiles = openout_bcf_re.findall(flsContent) # remove duplicates dups = {} for x in bcffiles: dups[x] = 1 bcffiles = list(dups.keys()) if Verbose: print("auxfiles ",auxfiles) print("bcffiles ",bcffiles) # Now decide if bibtex will need to be run. # The information that bibtex reads from the .aux file is # pass-independent. If we find (below) that the .bbl file is unchanged, # then the last latex saw a correct bibliography. # Therefore only do this once # Go through all .aux files and remember the files already done. for auxfilename in auxfiles: if auxfilename not in already_bibtexed: already_bibtexed.append(auxfilename) target_aux = os.path.join(targetdir, auxfilename) if os.path.isfile(target_aux): content = open(target_aux, "r").read() if content.find("bibdata") != -1: if Verbose: print("Need to run bibtex on ",auxfilename) bibfile = env.fs.File(SCons.Util.splitext(target_aux)[0]) result = BibTeXAction(bibfile, bibfile, env) if result != 0: check_file_error_message(env['BIBTEX'], 'blg') must_rerun_latex = True # Now decide if biber will need to be run. # When the backend for biblatex is biber (by choice or default) the # citation information is put in the .bcf file. # The information that biber reads from the .bcf file is # pass-independent. If we find (below) that the .bbl file is unchanged, # then the last latex saw a correct bibliography. # Therefore only do this once # Go through all .bcf files and remember the files already done. for bcffilename in bcffiles: if bcffilename not in already_bibtexed: already_bibtexed.append(bcffilename) target_bcf = os.path.join(targetdir, bcffilename) if os.path.isfile(target_bcf): content = open(target_bcf, "r").read() if content.find("bibdata") != -1: if Verbose: print("Need to run biber on ",bcffilename) bibfile = env.fs.File(SCons.Util.splitext(target_bcf)[0]) result = BiberAction(bibfile, bibfile, env) if result != 0: check_file_error_message(env['BIBER'], 'blg') must_rerun_latex = True # Now decide if latex will need to be run again due to index. if check_MD5(suffix_nodes['.idx'],'.idx') or (count == 1 and run_makeindex): # We must run makeindex if Verbose: print("Need to run makeindex") idxfile = suffix_nodes['.idx'] result = MakeIndexAction(idxfile, idxfile, env) if result != 0: check_file_error_message(env['MAKEINDEX'], 'ilg') return result # TO-DO: need to add a way for the user to extend this list for whatever # auxiliary files they create in other (or their own) packages # Harder is case is where an action needs to be called -- that should be rare (I hope?) for index in check_suffixes: check_MD5(suffix_nodes[index],index) # Now decide if latex will need to be run again due to nomenclature. if check_MD5(suffix_nodes['.nlo'],'.nlo') or (count == 1 and run_nomenclature): # We must run makeindex if Verbose: print("Need to run makeindex for nomenclature") nclfile = suffix_nodes['.nlo'] result = MakeNclAction(nclfile, nclfile, env) if result != 0: check_file_error_message('%s (nomenclature)' % env['MAKENCL'], 'nlg') #return result # Now decide if latex will need to be run again due to glossary. if check_MD5(suffix_nodes['.glo'],'.glo') or (count == 1 and run_glossaries) or (count == 1 and run_glossary): # We must run makeindex if Verbose: print("Need to run makeindex for glossary") glofile = suffix_nodes['.glo'] result = MakeGlossaryAction(glofile, glofile, env) if result != 0: check_file_error_message('%s (glossary)' % env['MAKEGLOSSARY'], 'glg') #return result # Now decide if latex will need to be run again due to acronyms. if check_MD5(suffix_nodes['.acn'],'.acn') or (count == 1 and run_acronyms): # We must run makeindex if Verbose: print("Need to run makeindex for acronyms") acrfile = suffix_nodes['.acn'] result = MakeAcronymsAction(acrfile, acrfile, env) if result != 0: check_file_error_message('%s (acronyms)' % env['MAKEACRONYMS'], 'alg') return result # Now decide if latex will need to be run again due to newglossary command. for ig in range(len(newglossary_suffix)): if check_MD5(suffix_nodes[newglossary_suffix[ig][2]],newglossary_suffix[ig][2]) or (count == 1): # We must run makeindex if Verbose: print("Need to run makeindex for newglossary") newglfile = suffix_nodes[newglossary_suffix[ig][2]] MakeNewGlossaryAction = SCons.Action.Action("$MAKENEWGLOSSARYCOM ${SOURCE.filebase}%s -s ${SOURCE.filebase}.ist -t ${SOURCE.filebase}%s -o ${SOURCE.filebase}%s" % (newglossary_suffix[ig][2],newglossary_suffix[ig][0],newglossary_suffix[ig][1]), "$MAKENEWGLOSSARYCOMSTR") result = MakeNewGlossaryAction(newglfile, newglfile, env) if result != 0: check_file_error_message('%s (newglossary)' % env['MAKENEWGLOSSARY'], newglossary_suffix[ig][0]) return result # Now decide if latex needs to be run yet again to resolve warnings. if warning_rerun_re.search(logContent): must_rerun_latex = True if Verbose: print("rerun Latex due to latex or package rerun warning") if rerun_citations_re.search(logContent): must_rerun_latex = True if Verbose: print("rerun Latex due to 'Rerun to get citations correct' warning") if undefined_references_re.search(logContent): must_rerun_latex = True if Verbose: print("rerun Latex due to undefined references or citations") if (count >= int(env.subst('$LATEXRETRIES')) and must_rerun_latex): print("reached max number of retries on Latex ,",int(env.subst('$LATEXRETRIES'))) # end of while loop # rename Latex's output to what the target name is if not (str(target[0]) == resultfilename and os.path.isfile(resultfilename)): if os.path.isfile(resultfilename): print("move %s to %s" % (resultfilename, str(target[0]), )) shutil.move(resultfilename,str(target[0])) # Original comment (when TEXPICTS was not restored): # The TEXPICTS enviroment variable is needed by a dvi -> pdf step # later on Mac OSX so leave it # # It is also used when searching for pictures (implicit dependencies). # Why not set the variable again in the respective builder instead # of leaving local modifications in the environment? What if multiple # latex builds in different directories need different TEXPICTS? for var in SCons.Scanner.LaTeX.LaTeX.env_variables: if var == 'TEXPICTS': continue if saved_env[var] is _null: try: del env['ENV'][var] except KeyError: pass # was never set else: env['ENV'][var] = saved_env[var] return result def LaTeXAuxAction(target = None, source= None, env=None): result = InternalLaTeXAuxAction( LaTeXAction, target, source, env ) return result LaTeX_re = re.compile("\\\\document(style|class)") def is_LaTeX(flist,env,abspath): """Scan a file list to decide if it's TeX- or LaTeX-flavored.""" # We need to scan files that are included in case the # \documentclass command is in them. # get path list from both env['TEXINPUTS'] and env['ENV']['TEXINPUTS'] savedpath = modify_env_var(env, 'TEXINPUTS', abspath) paths = env['ENV']['TEXINPUTS'] if SCons.Util.is_List(paths): pass else: # Split at os.pathsep to convert into absolute path paths = paths.split(os.pathsep) # now that we have the path list restore the env if savedpath is _null: try: del env['ENV']['TEXINPUTS'] except KeyError: pass # was never set else: env['ENV']['TEXINPUTS'] = savedpath if Verbose: print("is_LaTeX search path ",paths) print("files to search :",flist) # Now that we have the search path and file list, check each one for f in flist: if Verbose: print(" checking for Latex source ",str(f)) content = f.get_text_contents() if LaTeX_re.search(content): if Verbose: print("file %s is a LaTeX file" % str(f)) return 1 if Verbose: print("file %s is not a LaTeX file" % str(f)) # now find included files inc_files = [ ] inc_files.extend( include_re.findall(content) ) if Verbose: print("files included by '%s': "%str(f),inc_files) # inc_files is list of file names as given. need to find them # using TEXINPUTS paths. # search the included files for src in inc_files: srcNode = FindFile(src,['.tex','.ltx','.latex'],paths,env,requireExt=False) # make this a list since is_LaTeX takes a list. fileList = [srcNode,] if Verbose: print("FindFile found ",srcNode) if srcNode is not None: file_test = is_LaTeX(fileList, env, abspath) # return on first file that finds latex is needed. if file_test: return file_test if Verbose: print(" done scanning ",str(f)) return 0 def TeXLaTeXFunction(target = None, source= None, env=None): """A builder for TeX and LaTeX that scans the source file to decide the "flavor" of the source and then executes the appropriate program.""" # find these paths for use in is_LaTeX to search for included files basedir = os.path.split(str(source[0]))[0] abspath = os.path.abspath(basedir) if is_LaTeX(source,env,abspath): result = LaTeXAuxAction(target,source,env) if result != 0: check_file_error_message(env['LATEX']) else: result = TeXAction(target,source,env) if result != 0: check_file_error_message(env['TEX']) return result def TeXLaTeXStrFunction(target = None, source= None, env=None): """A strfunction for TeX and LaTeX that scans the source file to decide the "flavor" of the source and then returns the appropriate command string.""" if env.GetOption("no_exec"): # find these paths for use in is_LaTeX to search for included files basedir = os.path.split(str(source[0]))[0] abspath = os.path.abspath(basedir) if is_LaTeX(source,env,abspath): result = env.subst('$LATEXCOM',0,target,source)+" ..." else: result = env.subst("$TEXCOM",0,target,source)+" ..." else: result = '' return result def tex_eps_emitter(target, source, env): """An emitter for TeX and LaTeX sources when executing tex or latex. It will accept .ps and .eps graphics files """ (target, source) = tex_emitter_core(target, source, env, TexGraphics) return (target, source) def tex_pdf_emitter(target, source, env): """An emitter for TeX and LaTeX sources when executing pdftex or pdflatex. It will accept graphics files of types .pdf, .jpg, .png, .gif, and .tif """ (target, source) = tex_emitter_core(target, source, env, LatexGraphics) return (target, source) def ScanFiles(theFile, target, paths, file_tests, file_tests_search, env, graphics_extensions, targetdir, aux_files): """ For theFile (a Node) update any file_tests and search for graphics files then find all included files and call ScanFiles recursively for each of them""" content = theFile.get_text_contents() if Verbose: print(" scanning ",str(theFile)) for i in range(len(file_tests_search)): if file_tests[i][0] is None: if Verbose: print("scan i ",i," files_tests[i] ",file_tests[i], file_tests[i][1]) file_tests[i][0] = file_tests_search[i].search(content) if Verbose and file_tests[i][0]: print(" found match for ",file_tests[i][1][-1]) # for newglossary insert the suffixes in file_tests[i] if file_tests[i][0] and file_tests[i][1][-1] == 'newglossary': findresult = file_tests_search[i].findall(content) for l in range(len(findresult)) : (file_tests[i][1]).insert(0,'.'+findresult[l][3]) (file_tests[i][1]).insert(0,'.'+findresult[l][2]) (file_tests[i][1]).insert(0,'.'+findresult[l][0]) suffix_list = ['.'+findresult[l][0],'.'+findresult[l][2],'.'+findresult[l][3] ] newglossary_suffix.append(suffix_list) if Verbose: print(" new suffixes for newglossary ",newglossary_suffix) incResult = includeOnly_re.search(content) if incResult: aux_files.append(os.path.join(targetdir, incResult.group(1))) if Verbose: print("\include file names : ", aux_files) # recursively call this on each of the included files inc_files = [ ] inc_files.extend( include_re.findall(content) ) if Verbose: print("files included by '%s': "%str(theFile),inc_files) # inc_files is list of file names as given. need to find them # using TEXINPUTS paths. for src in inc_files: srcNode = FindFile(src,['.tex','.ltx','.latex'],paths,env,requireExt=False) if srcNode is not None: file_tests = ScanFiles(srcNode, target, paths, file_tests, file_tests_search, env, graphics_extensions, targetdir, aux_files) if Verbose: print(" done scanning ",str(theFile)) return file_tests def tex_emitter_core(target, source, env, graphics_extensions): """An emitter for TeX and LaTeX sources. For LaTeX sources we try and find the common created files that are needed on subsequent runs of latex to finish tables of contents, bibliographies, indices, lists of figures, and hyperlink references. """ basename = SCons.Util.splitext(str(source[0]))[0] basefile = os.path.split(str(basename))[1] targetdir = os.path.split(str(target[0]))[0] targetbase = os.path.join(targetdir, basefile) basedir = os.path.split(str(source[0]))[0] abspath = os.path.abspath(basedir) target[0].attributes.path = abspath # # file names we will make use of in searching the sources and log file # emit_suffixes = ['.aux', '.log', '.ilg', '.blg', '.nls', '.nlg', '.gls', '.glg', '.alg'] + all_suffixes auxfilename = targetbase + '.aux' logfilename = targetbase + '.log' flsfilename = targetbase + '.fls' syncfilename = targetbase + '.synctex.gz' env.SideEffect(auxfilename,target[0]) env.SideEffect(logfilename,target[0]) env.SideEffect(flsfilename,target[0]) env.SideEffect(syncfilename,target[0]) if Verbose: print("side effect :",auxfilename,logfilename,flsfilename,syncfilename) env.Clean(target[0],auxfilename) env.Clean(target[0],logfilename) env.Clean(target[0],flsfilename) env.Clean(target[0],syncfilename) content = source[0].get_text_contents() # set up list with the regular expressions # we use to find features used file_tests_search = [auxfile_re, makeindex_re, bibliography_re, bibunit_re, multibib_re, addbibresource_re, tableofcontents_re, listoffigures_re, listoftables_re, hyperref_re, makenomenclature_re, makeglossary_re, makeglossaries_re, makeacronyms_re, beamer_re, newglossary_re, biblatex_re ] # set up list with the file suffixes that need emitting # when a feature is found file_tests_suff = [['.aux','aux_file'], ['.idx', '.ind', '.ilg','makeindex'], ['.bbl', '.blg','bibliography'], ['.bbl', '.blg','bibunit'], ['.bbl', '.blg','multibib'], ['.bbl', '.blg','.bcf','addbibresource'], ['.toc','contents'], ['.lof','figures'], ['.lot','tables'], ['.out','hyperref'], ['.nlo', '.nls', '.nlg','nomenclature'], ['.glo', '.gls', '.glg','glossary'], ['.glo', '.gls', '.glg','glossaries'], ['.acn', '.acr', '.alg','acronyms'], ['.nav', '.snm', '.out', '.toc','beamer'], ['newglossary',], ['.bcf', '.blg','biblatex'] ] # for newglossary the suffixes are added as we find the command # build the list of lists file_tests = [] for i in range(len(file_tests_search)): file_tests.append( [None, file_tests_suff[i]] ) # TO-DO: need to add a way for the user to extend this list for whatever # auxiliary files they create in other (or their own) packages # get path list from both env['TEXINPUTS'] and env['ENV']['TEXINPUTS'] savedpath = modify_env_var(env, 'TEXINPUTS', abspath) paths = env['ENV']['TEXINPUTS'] if SCons.Util.is_List(paths): pass else: # Split at os.pathsep to convert into absolute path paths = paths.split(os.pathsep) # now that we have the path list restore the env if savedpath is _null: try: del env['ENV']['TEXINPUTS'] except KeyError: pass # was never set else: env['ENV']['TEXINPUTS'] = savedpath if Verbose: print("search path ",paths) # scan all sources for side effect files aux_files = [] file_tests = ScanFiles(source[0], target, paths, file_tests, file_tests_search, env, graphics_extensions, targetdir, aux_files) for (theSearch,suffix_list) in file_tests: # add side effects if feature is present.If file is to be generated,add all side effects if Verbose and theSearch: print("check side effects for ",suffix_list[-1]) if (theSearch != None) or (not source[0].exists() ): file_list = [targetbase,] # for bibunit we need a list of files if suffix_list[-1] == 'bibunit': file_basename = os.path.join(targetdir, 'bu*.aux') file_list = glob.glob(file_basename) # remove the suffix '.aux' for i in range(len(file_list)): file_list.append(SCons.Util.splitext(file_list[i])[0]) # for multibib we need a list of files if suffix_list[-1] == 'multibib': for multibibmatch in multibib_re.finditer(content): if Verbose: print("multibib match ",multibibmatch.group(1)) if multibibmatch != None: baselist = multibibmatch.group(1).split(',') if Verbose: print("multibib list ", baselist) for i in range(len(baselist)): file_list.append(os.path.join(targetdir, baselist[i])) # now define the side effects for file_name in file_list: for suffix in suffix_list[:-1]: env.SideEffect(file_name + suffix,target[0]) if Verbose: print("side effect tst :",file_name + suffix, " target is ",str(target[0])) env.Clean(target[0],file_name + suffix) for aFile in aux_files: aFile_base = SCons.Util.splitext(aFile)[0] env.SideEffect(aFile_base + '.aux',target[0]) if Verbose: print("side effect aux :",aFile_base + '.aux') env.Clean(target[0],aFile_base + '.aux') # read fls file to get all other files that latex creates and will read on the next pass # remove files from list that we explicitly dealt with above if os.path.isfile(flsfilename): content = open(flsfilename, "r").read() out_files = openout_re.findall(content) myfiles = [auxfilename, logfilename, flsfilename, targetbase+'.dvi',targetbase+'.pdf'] for filename in out_files[:]: if filename in myfiles: out_files.remove(filename) env.SideEffect(out_files,target[0]) if Verbose: print("side effect fls :",out_files) env.Clean(target[0],out_files) return (target, source) TeXLaTeXAction = None def generate(env): """Add Builders and construction variables for TeX to an Environment.""" global TeXLaTeXAction if TeXLaTeXAction is None: TeXLaTeXAction = SCons.Action.Action(TeXLaTeXFunction, strfunction=TeXLaTeXStrFunction) env.AppendUnique(LATEXSUFFIXES=SCons.Tool.LaTeXSuffixes) generate_common(env) from . import dvi dvi.generate(env) bld = env['BUILDERS']['DVI'] bld.add_action('.tex', TeXLaTeXAction) bld.add_emitter('.tex', tex_eps_emitter) def generate_darwin(env): try: environ = env['ENV'] except KeyError: environ = {} env['ENV'] = environ if (platform.system() == 'Darwin'): try: ospath = env['ENV']['PATHOSX'] except: ospath = None if ospath: env.AppendENVPath('PATH', ospath) def generate_common(env): """Add internal Builders and construction variables for LaTeX to an Environment.""" # Add OSX system paths so TeX tools can be found # when a list of tools is given the exists() method is not called generate_darwin(env) # A generic tex file Action, sufficient for all tex files. global TeXAction if TeXAction is None: TeXAction = SCons.Action.Action("$TEXCOM", "$TEXCOMSTR") # An Action to build a latex file. This might be needed more # than once if we are dealing with labels and bibtex. global LaTeXAction if LaTeXAction is None: LaTeXAction = SCons.Action.Action("$LATEXCOM", "$LATEXCOMSTR") # Define an action to run BibTeX on a file. global BibTeXAction if BibTeXAction is None: BibTeXAction = SCons.Action.Action("$BIBTEXCOM", "$BIBTEXCOMSTR") # Define an action to run Biber on a file. global BiberAction if BiberAction is None: BiberAction = SCons.Action.Action("$BIBERCOM", "$BIBERCOMSTR") # Define an action to run MakeIndex on a file. global MakeIndexAction if MakeIndexAction is None: MakeIndexAction = SCons.Action.Action("$MAKEINDEXCOM", "$MAKEINDEXCOMSTR") # Define an action to run MakeIndex on a file for nomenclatures. global MakeNclAction if MakeNclAction is None: MakeNclAction = SCons.Action.Action("$MAKENCLCOM", "$MAKENCLCOMSTR") # Define an action to run MakeIndex on a file for glossaries. global MakeGlossaryAction if MakeGlossaryAction is None: MakeGlossaryAction = SCons.Action.Action("$MAKEGLOSSARYCOM", "$MAKEGLOSSARYCOMSTR") # Define an action to run MakeIndex on a file for acronyms. global MakeAcronymsAction if MakeAcronymsAction is None: MakeAcronymsAction = SCons.Action.Action("$MAKEACRONYMSCOM", "$MAKEACRONYMSCOMSTR") try: environ = env['ENV'] except KeyError: environ = {} env['ENV'] = environ # Some Linux platforms have pdflatex set up in a way # that requires that the HOME environment variable be set. # Add it here if defined. v = os.environ.get('HOME') if v: environ['HOME'] = v CDCOM = 'cd ' if platform.system() == 'Windows': # allow cd command to change drives on Windows CDCOM = 'cd /D ' env['TEX'] = 'tex' env['TEXFLAGS'] = SCons.Util.CLVar('-interaction=nonstopmode -recorder') env['TEXCOM'] = CDCOM + '${TARGET.dir} && $TEX $TEXFLAGS ${SOURCE.file}' env['PDFTEX'] = 'pdftex' env['PDFTEXFLAGS'] = SCons.Util.CLVar('-interaction=nonstopmode -recorder') env['PDFTEXCOM'] = CDCOM + '${TARGET.dir} && $PDFTEX $PDFTEXFLAGS ${SOURCE.file}' env['LATEX'] = 'latex' env['LATEXFLAGS'] = SCons.Util.CLVar('-interaction=nonstopmode -recorder') env['LATEXCOM'] = CDCOM + '${TARGET.dir} && $LATEX $LATEXFLAGS ${SOURCE.file}' env['LATEXRETRIES'] = 4 env['PDFLATEX'] = 'pdflatex' env['PDFLATEXFLAGS'] = SCons.Util.CLVar('-interaction=nonstopmode -recorder') env['PDFLATEXCOM'] = CDCOM + '${TARGET.dir} && $PDFLATEX $PDFLATEXFLAGS ${SOURCE.file}' env['BIBTEX'] = 'bibtex' env['BIBTEXFLAGS'] = SCons.Util.CLVar('') env['BIBTEXCOM'] = CDCOM + '${TARGET.dir} && $BIBTEX $BIBTEXFLAGS ${SOURCE.filebase}' env['BIBER'] = 'biber' env['BIBERFLAGS'] = SCons.Util.CLVar('') env['BIBERCOM'] = CDCOM + '${TARGET.dir} && $BIBER $BIBERFLAGS ${SOURCE.filebase}' env['MAKEINDEX'] = 'makeindex' env['MAKEINDEXFLAGS'] = SCons.Util.CLVar('') env['MAKEINDEXCOM'] = CDCOM + '${TARGET.dir} && $MAKEINDEX $MAKEINDEXFLAGS ${SOURCE.file}' env['MAKEGLOSSARY'] = 'makeindex' env['MAKEGLOSSARYSTYLE'] = '${SOURCE.filebase}.ist' env['MAKEGLOSSARYFLAGS'] = SCons.Util.CLVar('-s ${MAKEGLOSSARYSTYLE} -t ${SOURCE.filebase}.glg') env['MAKEGLOSSARYCOM'] = CDCOM + '${TARGET.dir} && $MAKEGLOSSARY ${SOURCE.filebase}.glo $MAKEGLOSSARYFLAGS -o ${SOURCE.filebase}.gls' env['MAKEACRONYMS'] = 'makeindex' env['MAKEACRONYMSSTYLE'] = '${SOURCE.filebase}.ist' env['MAKEACRONYMSFLAGS'] = SCons.Util.CLVar('-s ${MAKEACRONYMSSTYLE} -t ${SOURCE.filebase}.alg') env['MAKEACRONYMSCOM'] = CDCOM + '${TARGET.dir} && $MAKEACRONYMS ${SOURCE.filebase}.acn $MAKEACRONYMSFLAGS -o ${SOURCE.filebase}.acr' env['MAKENCL'] = 'makeindex' env['MAKENCLSTYLE'] = 'nomencl.ist' env['MAKENCLFLAGS'] = '-s ${MAKENCLSTYLE} -t ${SOURCE.filebase}.nlg' env['MAKENCLCOM'] = CDCOM + '${TARGET.dir} && $MAKENCL ${SOURCE.filebase}.nlo $MAKENCLFLAGS -o ${SOURCE.filebase}.nls' env['MAKENEWGLOSSARY'] = 'makeindex' env['MAKENEWGLOSSARYCOM'] = CDCOM + '${TARGET.dir} && $MAKENEWGLOSSARY ' def exists(env): generate_darwin(env) return env.Detect('tex') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/rpcgen.py0000664000175000017500000000547213202656512021211 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.rpcgen Tool-specific initialization for RPCGEN tools. Three normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/rpcgen.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from SCons.Builder import Builder import SCons.Util cmd = "cd ${SOURCE.dir} && $RPCGEN -%s $RPCGENFLAGS %s -o ${TARGET.abspath} ${SOURCE.file}" rpcgen_client = cmd % ('l', '$RPCGENCLIENTFLAGS') rpcgen_header = cmd % ('h', '$RPCGENHEADERFLAGS') rpcgen_service = cmd % ('m', '$RPCGENSERVICEFLAGS') rpcgen_xdr = cmd % ('c', '$RPCGENXDRFLAGS') def generate(env): "Add RPCGEN Builders and construction variables for an Environment." client = Builder(action=rpcgen_client, suffix='_clnt.c', src_suffix='.x') header = Builder(action=rpcgen_header, suffix='.h', src_suffix='.x') service = Builder(action=rpcgen_service, suffix='_svc.c', src_suffix='.x') xdr = Builder(action=rpcgen_xdr, suffix='_xdr.c', src_suffix='.x') env.Append(BUILDERS={'RPCGenClient' : client, 'RPCGenHeader' : header, 'RPCGenService' : service, 'RPCGenXDR' : xdr}) env['RPCGEN'] = 'rpcgen' env['RPCGENFLAGS'] = SCons.Util.CLVar('') env['RPCGENCLIENTFLAGS'] = SCons.Util.CLVar('') env['RPCGENHEADERFLAGS'] = SCons.Util.CLVar('') env['RPCGENSERVICEFLAGS'] = SCons.Util.CLVar('') env['RPCGENXDRFLAGS'] = SCons.Util.CLVar('') def exists(env): return env.Detect('rpcgen') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/dvipdf.py0000664000175000017500000001005713202656511021201 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.dvipdf Tool-specific initialization for dvipdf. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/dvipdf.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Action import SCons.Defaults import SCons.Tool.pdf import SCons.Tool.tex import SCons.Util _null = SCons.Scanner.LaTeX._null def DviPdfPsFunction(XXXDviAction, target = None, source= None, env=None): """A builder for DVI files that sets the TEXPICTS environment variable before running dvi2ps or dvipdf.""" try: abspath = source[0].attributes.path except AttributeError : abspath = '' saved_env = SCons.Scanner.LaTeX.modify_env_var(env, 'TEXPICTS', abspath) result = XXXDviAction(target, source, env) if saved_env is _null: try: del env['ENV']['TEXPICTS'] except KeyError: pass # was never set else: env['ENV']['TEXPICTS'] = saved_env return result def DviPdfFunction(target = None, source= None, env=None): result = DviPdfPsFunction(PDFAction,target,source,env) return result def DviPdfStrFunction(target = None, source= None, env=None): """A strfunction for dvipdf that returns the appropriate command string for the no_exec options.""" if env.GetOption("no_exec"): result = env.subst('$DVIPDFCOM',0,target,source) else: result = '' return result PDFAction = None DVIPDFAction = None def PDFEmitter(target, source, env): """Strips any .aux or .log files from the input source list. These are created by the TeX Builder that in all likelihood was used to generate the .dvi file we're using as input, and we only care about the .dvi file. """ def strip_suffixes(n): return not SCons.Util.splitext(str(n))[1] in ['.aux', '.log'] source = [src for src in source if strip_suffixes(src)] return (target, source) def generate(env): """Add Builders and construction variables for dvipdf to an Environment.""" global PDFAction if PDFAction is None: PDFAction = SCons.Action.Action('$DVIPDFCOM', '$DVIPDFCOMSTR') global DVIPDFAction if DVIPDFAction is None: DVIPDFAction = SCons.Action.Action(DviPdfFunction, strfunction = DviPdfStrFunction) from . import pdf pdf.generate(env) bld = env['BUILDERS']['PDF'] bld.add_action('.dvi', DVIPDFAction) bld.add_emitter('.dvi', PDFEmitter) env['DVIPDF'] = 'dvipdf' env['DVIPDFFLAGS'] = SCons.Util.CLVar('') env['DVIPDFCOM'] = 'cd ${TARGET.dir} && $DVIPDF $DVIPDFFLAGS ${SOURCE.file} ${TARGET.file}' # Deprecated synonym. env['PDFCOM'] = ['$DVIPDFCOM'] def exists(env): SCons.Tool.tex.generate_darwin(env) return env.Detect('dvipdf') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/pdflatex.py0000664000175000017500000000560313202656512021536 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.pdflatex Tool-specific initialization for pdflatex. Generates .pdf files from .latex or .ltx files There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/pdflatex.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Action import SCons.Util import SCons.Tool.pdf import SCons.Tool.tex PDFLaTeXAction = None def PDFLaTeXAuxFunction(target = None, source= None, env=None): result = SCons.Tool.tex.InternalLaTeXAuxAction( PDFLaTeXAction, target, source, env ) if result != 0: SCons.Tool.tex.check_file_error_message(env['PDFLATEX']) return result PDFLaTeXAuxAction = None def generate(env): """Add Builders and construction variables for pdflatex to an Environment.""" global PDFLaTeXAction if PDFLaTeXAction is None: PDFLaTeXAction = SCons.Action.Action('$PDFLATEXCOM', '$PDFLATEXCOMSTR') global PDFLaTeXAuxAction if PDFLaTeXAuxAction is None: PDFLaTeXAuxAction = SCons.Action.Action(PDFLaTeXAuxFunction, strfunction=SCons.Tool.tex.TeXLaTeXStrFunction) env.AppendUnique(LATEXSUFFIXES=SCons.Tool.LaTeXSuffixes) from . import pdf pdf.generate(env) bld = env['BUILDERS']['PDF'] bld.add_action('.ltx', PDFLaTeXAuxAction) bld.add_action('.latex', PDFLaTeXAuxAction) bld.add_emitter('.ltx', SCons.Tool.tex.tex_pdf_emitter) bld.add_emitter('.latex', SCons.Tool.tex.tex_pdf_emitter) SCons.Tool.tex.generate_common(env) def exists(env): SCons.Tool.tex.generate_darwin(env) return env.Detect('pdflatex') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/wix.py0000664000175000017500000000727613202656512020546 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.wix Tool-specific initialization for wix, the Windows Installer XML Tool. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/wix.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Builder import SCons.Action import os def generate(env): """Add Builders and construction variables for WiX to an Environment.""" if not exists(env): return env['WIXCANDLEFLAGS'] = ['-nologo'] env['WIXCANDLEINCLUDE'] = [] env['WIXCANDLECOM'] = '$WIXCANDLE $WIXCANDLEFLAGS -I $WIXCANDLEINCLUDE -o ${TARGET} ${SOURCE}' env['WIXLIGHTFLAGS'].append( '-nologo' ) env['WIXLIGHTCOM'] = "$WIXLIGHT $WIXLIGHTFLAGS -out ${TARGET} ${SOURCES}" env['WIXSRCSUF'] = '.wxs' env['WIXOBJSUF'] = '.wixobj' object_builder = SCons.Builder.Builder( action = '$WIXCANDLECOM', suffix = '$WIXOBJSUF', src_suffix = '$WIXSRCSUF') linker_builder = SCons.Builder.Builder( action = '$WIXLIGHTCOM', src_suffix = '$WIXOBJSUF', src_builder = object_builder) env['BUILDERS']['WiX'] = linker_builder def exists(env): env['WIXCANDLE'] = 'candle.exe' env['WIXLIGHT'] = 'light.exe' # try to find the candle.exe and light.exe tools and # add the install directory to light libpath. for path in os.environ['PATH'].split(os.pathsep): if not path: continue # workaround for some weird python win32 bug. if path[0] == '"' and path[-1:]=='"': path = path[1:-1] # normalize the path path = os.path.normpath(path) # search for the tools in the PATH environment variable try: files = os.listdir(path) if env['WIXCANDLE'] in files and env['WIXLIGHT'] in files: env.PrependENVPath('PATH', path) # include appropriate flags if running WiX 2.0 if 'wixui.wixlib' in files and 'WixUI_en-us.wxl' in files: env['WIXLIGHTFLAGS'] = [ os.path.join( path, 'wixui.wixlib' ), '-loc', os.path.join( path, 'WixUI_en-us.wxl' ) ] else: env['WIXLIGHTFLAGS'] = [] return 1 except OSError: pass # ignore this, could be a stale PATH entry. return None # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/filesystem.py0000664000175000017500000000662113202656511022113 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.filesystem Tool-specific initialization for the filesystem tools. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/filesystem.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons from SCons.Tool.install import copyFunc copyToBuilder, copyAsBuilder = None, None def copyto_emitter(target, source, env): """ changes the path of the source to be under the target (which are assumed to be directories. """ n_target = [] for t in target: n_target = n_target + [t.File( str( s ) ) for s in source] return (n_target, source) def copy_action_func(target, source, env): assert( len(target) == len(source) ), "\ntarget: %s\nsource: %s" %(list(map(str, target)),list(map(str, source))) for t, s in zip(target, source): if copyFunc(t.get_path(), s.get_path(), env): return 1 return 0 def copy_action_str(target, source, env): return env.subst_target_source(env['COPYSTR'], 0, target, source) copy_action = SCons.Action.Action( copy_action_func, copy_action_str ) def generate(env): try: env['BUILDERS']['CopyTo'] env['BUILDERS']['CopyAs'] except KeyError as e: global copyToBuilder if copyToBuilder is None: copyToBuilder = SCons.Builder.Builder( action = copy_action, target_factory = env.fs.Dir, source_factory = env.fs.Entry, multi = 1, emitter = [ copyto_emitter, ] ) global copyAsBuilder if copyAsBuilder is None: copyAsBuilder = SCons.Builder.Builder( action = copy_action, target_factory = env.fs.Entry, source_factory = env.fs.Entry ) env['BUILDERS']['CopyTo'] = copyToBuilder env['BUILDERS']['CopyAs'] = copyAsBuilder env['COPYSTR'] = 'Copy file(s): "$SOURCES" to "$TARGETS"' def exists(env): return 1 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sunf95.py0000664000175000017500000000416113202656512021056 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sunf95 Tool-specific initialization for sunf95, the Sun Studio F95 compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sunf95.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util from .FortranCommon import add_all_to_env compilers = ['sunf95', 'f95'] def generate(env): """Add Builders and construction variables for sunf95 to an Environment.""" add_all_to_env(env) fcomp = env.Detect(compilers) or 'f95' env['FORTRAN'] = fcomp env['F95'] = fcomp env['SHFORTRAN'] = '$FORTRAN' env['SHF95'] = '$F95' env['SHFORTRANFLAGS'] = SCons.Util.CLVar('$FORTRANFLAGS -KPIC') env['SHF95FLAGS'] = SCons.Util.CLVar('$F95FLAGS -KPIC') def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/fortran.py0000664000175000017500000000377013202656511021404 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.fortran Tool-specific initialization for a generic Posix f77/f90 Fortran compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/fortran.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import re import SCons.Action import SCons.Defaults import SCons.Scanner.Fortran import SCons.Tool import SCons.Util from SCons.Tool.FortranCommon import add_all_to_env, add_fortran_to_env compilers = ['f95', 'f90', 'f77'] def generate(env): add_all_to_env(env) add_fortran_to_env(env) fc = env.Detect(compilers) or 'f77' env['SHFORTRAN'] = fc env['FORTRAN'] = fc def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/midl.py0000664000175000017500000000603113202656512020650 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.midl Tool-specific initialization for midl (Microsoft IDL compiler). There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/midl.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Action import SCons.Builder import SCons.Defaults import SCons.Scanner.IDL import SCons.Util from .MSCommon import msvc_exists def midl_emitter(target, source, env): """Produces a list of outputs from the MIDL compiler""" base, _ = SCons.Util.splitext(str(target[0])) tlb = target[0] incl = base + '.h' interface = base + '_i.c' targets = [tlb, incl, interface] midlcom = env['MIDLCOM'] if midlcom.find('/proxy') != -1: proxy = base + '_p.c' targets.append(proxy) if midlcom.find('/dlldata') != -1: dlldata = base + '_data.c' targets.append(dlldata) return (targets, source) idl_scanner = SCons.Scanner.IDL.IDLScan() midl_action = SCons.Action.Action('$MIDLCOM', '$MIDLCOMSTR') midl_builder = SCons.Builder.Builder(action = midl_action, src_suffix = '.idl', suffix='.tlb', emitter = midl_emitter, source_scanner = idl_scanner) def generate(env): """Add Builders and construction variables for midl to an Environment.""" env['MIDL'] = 'MIDL.EXE' env['MIDLFLAGS'] = SCons.Util.CLVar('/nologo') env['MIDLCOM'] = '$MIDL $MIDLFLAGS /tlb ${TARGETS[0]} /h ${TARGETS[1]} /iid ${TARGETS[2]} /proxy ${TARGETS[3]} /dlldata ${TARGETS[4]} $SOURCE 2> NUL' env['BUILDERS']['TypeLibrary'] = midl_builder def exists(env): return msvc_exists() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/JavaCommon.py0000664000175000017500000003076313202656511021765 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.JavaCommon Stuff for processing Java. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/JavaCommon.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import re java_parsing = 1 default_java_version = '1.4' if java_parsing: # Parse Java files for class names. # # This is a really cool parser from Charles Crain # that finds appropriate class names in Java source. # A regular expression that will find, in a java file: # newlines; # double-backslashes; # a single-line comment "//"; # single or double quotes preceeded by a backslash; # single quotes, double quotes, open or close braces, semi-colons, # periods, open or close parentheses; # floating-point numbers; # any alphanumeric token (keyword, class name, specifier); # any alphanumeric token surrounded by angle brackets (generics); # the multi-line comment begin and end tokens /* and */; # array declarations "[]". _reToken = re.compile(r'(\n|\\\\|//|\\[\'"]|[\'"\{\}\;\.\(\)]|' + r'\d*\.\d*|[A-Za-z_][\w\$\.]*|<[A-Za-z_]\w+>|' + r'/\*|\*/|\[\])') class OuterState(object): """The initial state for parsing a Java file for classes, interfaces, and anonymous inner classes.""" def __init__(self, version=default_java_version): if not version in ('1.1', '1.2', '1.3','1.4', '1.5', '1.6', '1.7', '1.8', '5', '6'): msg = "Java version %s not supported" % version raise NotImplementedError(msg) self.version = version self.listClasses = [] self.listOutputs = [] self.stackBrackets = [] self.brackets = 0 self.nextAnon = 1 self.localClasses = [] self.stackAnonClassBrackets = [] self.anonStacksStack = [[0]] self.package = None def trace(self): pass def __getClassState(self): try: return self.classState except AttributeError: ret = ClassState(self) self.classState = ret return ret def __getPackageState(self): try: return self.packageState except AttributeError: ret = PackageState(self) self.packageState = ret return ret def __getAnonClassState(self): try: return self.anonState except AttributeError: self.outer_state = self ret = SkipState(1, AnonClassState(self)) self.anonState = ret return ret def __getSkipState(self): try: return self.skipState except AttributeError: ret = SkipState(1, self) self.skipState = ret return ret def __getAnonStack(self): return self.anonStacksStack[-1] def openBracket(self): self.brackets = self.brackets + 1 def closeBracket(self): self.brackets = self.brackets - 1 if len(self.stackBrackets) and \ self.brackets == self.stackBrackets[-1]: self.listOutputs.append('$'.join(self.listClasses)) self.localClasses.pop() self.listClasses.pop() self.anonStacksStack.pop() self.stackBrackets.pop() if len(self.stackAnonClassBrackets) and \ self.brackets == self.stackAnonClassBrackets[-1]: self.__getAnonStack().pop() self.stackAnonClassBrackets.pop() def parseToken(self, token): if token[:2] == '//': return IgnoreState('\n', self) elif token == '/*': return IgnoreState('*/', self) elif token == '{': self.openBracket() elif token == '}': self.closeBracket() elif token in [ '"', "'" ]: return IgnoreState(token, self) elif token == "new": # anonymous inner class if len(self.listClasses) > 0: return self.__getAnonClassState() return self.__getSkipState() # Skip the class name elif token in ['class', 'interface', 'enum']: if len(self.listClasses) == 0: self.nextAnon = 1 self.stackBrackets.append(self.brackets) return self.__getClassState() elif token == 'package': return self.__getPackageState() elif token == '.': # Skip the attribute, it might be named "class", in which # case we don't want to treat the following token as # an inner class name... return self.__getSkipState() return self def addAnonClass(self): """Add an anonymous inner class""" if self.version in ('1.1', '1.2', '1.3', '1.4'): clazz = self.listClasses[0] self.listOutputs.append('%s$%d' % (clazz, self.nextAnon)) elif self.version in ('1.5', '1.6', '1.7', '1.8', '5', '6'): self.stackAnonClassBrackets.append(self.brackets) className = [] className.extend(self.listClasses) self.__getAnonStack()[-1] = self.__getAnonStack()[-1] + 1 for anon in self.__getAnonStack(): className.append(str(anon)) self.listOutputs.append('$'.join(className)) self.nextAnon = self.nextAnon + 1 self.__getAnonStack().append(0) def setPackage(self, package): self.package = package class AnonClassState(object): """A state that looks for anonymous inner classes.""" def __init__(self, old_state): # outer_state is always an instance of OuterState self.outer_state = old_state.outer_state self.old_state = old_state self.brace_level = 0 def parseToken(self, token): # This is an anonymous class if and only if the next # non-whitespace token is a bracket. Everything between # braces should be parsed as normal java code. if token[:2] == '//': return IgnoreState('\n', self) elif token == '/*': return IgnoreState('*/', self) elif token == '\n': return self elif token[0] == '<' and token[-1] == '>': return self elif token == '(': self.brace_level = self.brace_level + 1 return self if self.brace_level > 0: if token == 'new': # look further for anonymous inner class return SkipState(1, AnonClassState(self)) elif token in [ '"', "'" ]: return IgnoreState(token, self) elif token == ')': self.brace_level = self.brace_level - 1 return self if token == '{': self.outer_state.addAnonClass() return self.old_state.parseToken(token) class SkipState(object): """A state that will skip a specified number of tokens before reverting to the previous state.""" def __init__(self, tokens_to_skip, old_state): self.tokens_to_skip = tokens_to_skip self.old_state = old_state def parseToken(self, token): self.tokens_to_skip = self.tokens_to_skip - 1 if self.tokens_to_skip < 1: return self.old_state return self class ClassState(object): """A state we go into when we hit a class or interface keyword.""" def __init__(self, outer_state): # outer_state is always an instance of OuterState self.outer_state = outer_state def parseToken(self, token): # the next non-whitespace token should be the name of the class if token == '\n': return self # If that's an inner class which is declared in a method, it # requires an index prepended to the class-name, e.g. # 'Foo$1Inner' # http://scons.tigris.org/issues/show_bug.cgi?id=2087 if self.outer_state.localClasses and \ self.outer_state.stackBrackets[-1] > \ self.outer_state.stackBrackets[-2]+1: locals = self.outer_state.localClasses[-1] try: idx = locals[token] locals[token] = locals[token]+1 except KeyError: locals[token] = 1 token = str(locals[token]) + token self.outer_state.localClasses.append({}) self.outer_state.listClasses.append(token) self.outer_state.anonStacksStack.append([0]) return self.outer_state class IgnoreState(object): """A state that will ignore all tokens until it gets to a specified token.""" def __init__(self, ignore_until, old_state): self.ignore_until = ignore_until self.old_state = old_state def parseToken(self, token): if self.ignore_until == token: return self.old_state return self class PackageState(object): """The state we enter when we encounter the package keyword. We assume the next token will be the package name.""" def __init__(self, outer_state): # outer_state is always an instance of OuterState self.outer_state = outer_state def parseToken(self, token): self.outer_state.setPackage(token) return self.outer_state def parse_java_file(fn, version=default_java_version): return parse_java(open(fn, 'r').read(), version) def parse_java(contents, version=default_java_version, trace=None): """Parse a .java file and return a double of package directory, plus a list of .class files that compiling that .java file will produce""" package = None initial = OuterState(version) currstate = initial for token in _reToken.findall(contents): # The regex produces a bunch of groups, but only one will # have anything in it. currstate = currstate.parseToken(token) if trace: trace(token, currstate) if initial.package: package = initial.package.replace('.', os.sep) return (package, initial.listOutputs) else: # Don't actually parse Java files for class names. # # We might make this a configurable option in the future if # Java-file parsing takes too long (although it shouldn't relative # to how long the Java compiler itself seems to take...). def parse_java_file(fn): """ "Parse" a .java file. This actually just splits the file name, so the assumption here is that the file name matches the public class name, and that the path to the file is the same as the package name. """ return os.path.split(file) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sgilink.py0000664000175000017500000000420113202656512021360 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sgilink Tool-specific initialization for the SGI MIPSPro linker on SGI. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sgilink.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util from . import link linkers = ['CC', 'cc'] def generate(env): """Add Builders and construction variables for MIPSPro to an Environment.""" link.generate(env) env['LINK'] = env.Detect(linkers) or 'cc' env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -shared') # __RPATH is set to $_RPATH in the platform specification if that # platform supports it. env['RPATHPREFIX'] = '-rpath ' env['RPATHSUFFIX'] = '' env['_RPATH'] = '${_concat(RPATHPREFIX, RPATH, RPATHSUFFIX, __env__)}' def exists(env): return env.Detect(linkers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/clangxx.py0000664000175000017500000000615013202656511021370 0ustar bdbaddogbdbaddog00000000000000# -*- coding: utf-8; -*- """SCons.Tool.clang++ Tool-specific initialization for clang++. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # # __revision__ = "src/engine/SCons/Tool/clangxx.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" # Based on SCons/Tool/g++.py by Paweł Tomulik 2014 as a separate tool. # Brought into the SCons mainline by Russel Winder 2017. import os.path import re import subprocess import sys import SCons.Tool import SCons.Util import SCons.Tool.cxx compilers = ['clang++'] def generate(env): """Add Builders and construction variables for clang++ to an Environment.""" static_obj, shared_obj = SCons.Tool.createObjBuilders(env) SCons.Tool.cxx.generate(env) env['CXX'] = env.Detect(compilers) or 'clang++' # platform specific settings if env['PLATFORM'] == 'aix': env['SHCXXFLAGS'] = SCons.Util.CLVar('$CXXFLAGS -mminimal-toc') env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 1 env['SHOBJSUFFIX'] = '$OBJSUFFIX' elif env['PLATFORM'] == 'hpux': env['SHOBJSUFFIX'] = '.pic.o' elif env['PLATFORM'] == 'sunos': env['SHOBJSUFFIX'] = '.pic.o' # determine compiler version if env['CXX']: pipe = SCons.Action._subproc(env, [env['CXX'], '--version'], stdin='devnull', stderr='devnull', stdout=subprocess.PIPE) if pipe.wait() != 0: return # clang -dumpversion is of no use line = pipe.stdout.readline() if sys.version_info[0] > 2: line = line.decode() match = re.search(r'clang +version +([0-9]+(?:\.[0-9]+)+)', line) if match: env['CXXVERSION'] = match.group(1) def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/dvips.py0000664000175000017500000000663413202656511021060 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.dvips Tool-specific initialization for dvips. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/dvips.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Action import SCons.Builder import SCons.Tool.dvipdf import SCons.Util def DviPsFunction(target = None, source= None, env=None): result = SCons.Tool.dvipdf.DviPdfPsFunction(PSAction,target,source,env) return result def DviPsStrFunction(target = None, source= None, env=None): """A strfunction for dvipdf that returns the appropriate command string for the no_exec options.""" if env.GetOption("no_exec"): result = env.subst('$PSCOM',0,target,source) else: result = '' return result PSAction = None DVIPSAction = None PSBuilder = None def generate(env): """Add Builders and construction variables for dvips to an Environment.""" global PSAction if PSAction is None: PSAction = SCons.Action.Action('$PSCOM', '$PSCOMSTR') global DVIPSAction if DVIPSAction is None: DVIPSAction = SCons.Action.Action(DviPsFunction, strfunction = DviPsStrFunction) global PSBuilder if PSBuilder is None: PSBuilder = SCons.Builder.Builder(action = PSAction, prefix = '$PSPREFIX', suffix = '$PSSUFFIX', src_suffix = '.dvi', src_builder = 'DVI', single_source=True) env['BUILDERS']['PostScript'] = PSBuilder env['DVIPS'] = 'dvips' env['DVIPSFLAGS'] = SCons.Util.CLVar('') # I'm not quite sure I got the directories and filenames right for variant_dir # We need to be in the correct directory for the sake of latex \includegraphics eps included files. env['PSCOM'] = 'cd ${TARGET.dir} && $DVIPS $DVIPSFLAGS -o ${TARGET.file} ${SOURCE.file}' env['PSPREFIX'] = '' env['PSSUFFIX'] = '.ps' def exists(env): SCons.Tool.tex.generate_darwin(env) return env.Detect('dvips') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/aixcc.py0000664000175000017500000000441513202656511021015 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.aixcc Tool-specific initialization for IBM xlc / Visual Age C compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/aixcc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Platform.aix from . import cc packages = ['vac.C', 'ibmcxx.cmp'] def get_xlc(env): xlc = env.get('CC', 'xlc') return SCons.Platform.aix.get_xlc(env, xlc, packages) def generate(env): """Add Builders and construction variables for xlc / Visual Age suite to an Environment.""" path, _cc, version = get_xlc(env) if path and _cc: _cc = os.path.join(path, _cc) if 'CC' not in env: env['CC'] = _cc cc.generate(env) if version: env['CCVERSION'] = version def exists(env): path, _cc, version = get_xlc(env) if path and _cc: xlc = os.path.join(path, _cc) if os.path.exists(xlc): return xlc return None # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/aixlink.py0000664000175000017500000000543113202656511021364 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.aixlink Tool-specific initialization for the IBM Visual Age linker. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/aixlink.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import SCons.Util from . import aixcc from . import link import SCons.Tool.cxx cplusplus = SCons.Tool.cxx #cplusplus = __import__('cxx', globals(), locals(), []) def smart_linkflags(source, target, env, for_signature): if cplusplus.iscplusplus(source): build_dir = env.subst('$BUILDDIR', target=target, source=source) if build_dir: return '-qtempinc=' + os.path.join(build_dir, 'tempinc') return '' def generate(env): """ Add Builders and construction variables for Visual Age linker to an Environment. """ link.generate(env) env['SMARTLINKFLAGS'] = smart_linkflags env['LINKFLAGS'] = SCons.Util.CLVar('$SMARTLINKFLAGS') env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -qmkshrobj -qsuppress=1501-218') env['SHLIBSUFFIX'] = '.a' def exists(env): # TODO: sync with link.smart_link() to choose a linker linkers = { 'CXX': ['aixc++'], 'CC': ['aixcc'] } alltools = [] for langvar, linktools in linkers.items(): if langvar in env: # use CC over CXX when user specified CC but not CXX return SCons.Tool.FindTool(linktools, env) alltools.extend(linktools) return SCons.Tool.FindTool(alltools, env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/f08.py0000664000175000017500000000404013202656511020315 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.f08 Tool-specific initialization for the generic Posix f08 Fortran compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ from __future__ import absolute_import # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/f08.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util from . import fortran from SCons.Tool.FortranCommon import add_all_to_env, add_f08_to_env compilers = ['f08'] def generate(env): add_all_to_env(env) add_f08_to_env(env) fcomp = env.Detect(compilers) or 'f08' env['F08'] = fcomp env['SHF08'] = fcomp env['FORTRAN'] = fcomp env['SHFORTRAN'] = fcomp def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/qt.py0000664000175000017500000003224713202656512020357 0ustar bdbaddogbdbaddog00000000000000 """SCons.Tool.qt Tool-specific initialization for Qt. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/Tool/qt.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import re import SCons.Action import SCons.Builder import SCons.Defaults import SCons.Scanner import SCons.Tool import SCons.Util class ToolQtWarning(SCons.Warnings.Warning): pass class GeneratedMocFileNotIncluded(ToolQtWarning): pass class QtdirNotFound(ToolQtWarning): pass SCons.Warnings.enableWarningClass(ToolQtWarning) header_extensions = [".h", ".hxx", ".hpp", ".hh"] if SCons.Util.case_sensitive_suffixes('.h', '.H'): header_extensions.append('.H') import SCons.Tool.cxx cplusplus = SCons.Tool.cxx #cplusplus = __import__('cxx', globals(), locals(), []) cxx_suffixes = cplusplus.CXXSuffixes def checkMocIncluded(target, source, env): moc = target[0] cpp = source[0] # looks like cpp.includes is cleared before the build stage :-( # not really sure about the path transformations (moc.cwd? cpp.cwd?) :-/ path = SCons.Defaults.CScan.path(env, moc.cwd) includes = SCons.Defaults.CScan(cpp, env, path) if not moc in includes: SCons.Warnings.warn( GeneratedMocFileNotIncluded, "Generated moc file '%s' is not included by '%s'" % (str(moc), str(cpp))) def find_file(filename, paths, node_factory): for dir in paths: node = node_factory(filename, dir) if node.rexists(): return node return None class _Automoc(object): """ Callable class, which works as an emitter for Programs, SharedLibraries and StaticLibraries. """ def __init__(self, objBuilderName): self.objBuilderName = objBuilderName def __call__(self, target, source, env): """ Smart autoscan function. Gets the list of objects for the Program or Lib. Adds objects and builders for the special qt files. """ try: if int(env.subst('$QT_AUTOSCAN')) == 0: return target, source except ValueError: pass try: debug = int(env.subst('$QT_DEBUG')) except ValueError: debug = 0 # some shortcuts used in the scanner splitext = SCons.Util.splitext objBuilder = getattr(env, self.objBuilderName) # some regular expressions: # Q_OBJECT detection q_object_search = re.compile(r'[^A-Za-z0-9]Q_OBJECT[^A-Za-z0-9]') # cxx and c comment 'eater' #comment = re.compile(r'(//.*)|(/\*(([^*])|(\*[^/]))*\*/)') # CW: something must be wrong with the regexp. See also bug #998222 # CURRENTLY THERE IS NO TEST CASE FOR THAT # The following is kind of hacky to get builders working properly (FIXME) objBuilderEnv = objBuilder.env objBuilder.env = env mocBuilderEnv = env.Moc.env env.Moc.env = env # make a deep copy for the result; MocH objects will be appended out_sources = source[:] for obj in source: if not obj.has_builder(): # binary obj file provided if debug: print("scons: qt: '%s' seems to be a binary. Discarded." % str(obj)) continue cpp = obj.sources[0] if not splitext(str(cpp))[1] in cxx_suffixes: if debug: print("scons: qt: '%s' is no cxx file. Discarded." % str(cpp)) # c or fortran source continue #cpp_contents = comment.sub('', cpp.get_text_contents()) if debug: print("scons: qt: Getting contents of %s" % cpp) cpp_contents = cpp.get_text_contents() h=None for h_ext in header_extensions: # try to find the header file in the corresponding source # directory hname = splitext(cpp.name)[0] + h_ext h = find_file(hname, (cpp.get_dir(),), env.File) if h: if debug: print("scons: qt: Scanning '%s' (header of '%s')" % (str(h), str(cpp))) #h_contents = comment.sub('', h.get_text_contents()) h_contents = h.get_text_contents() break if not h and debug: print("scons: qt: no header for '%s'." % (str(cpp))) if h and q_object_search.search(h_contents): # h file with the Q_OBJECT macro found -> add moc_cpp moc_cpp = env.Moc(h) moc_o = objBuilder(moc_cpp) out_sources.append(moc_o) #moc_cpp.target_scanner = SCons.Defaults.CScan if debug: print("scons: qt: found Q_OBJECT macro in '%s', moc'ing to '%s'" % (str(h), str(moc_cpp))) if cpp and q_object_search.search(cpp_contents): # cpp file with Q_OBJECT macro found -> add moc # (to be included in cpp) moc = env.Moc(cpp) env.Ignore(moc, moc) if debug: print("scons: qt: found Q_OBJECT macro in '%s', moc'ing to '%s'" % (str(cpp), str(moc))) #moc.source_scanner = SCons.Defaults.CScan # restore the original env attributes (FIXME) objBuilder.env = objBuilderEnv env.Moc.env = mocBuilderEnv return (target, out_sources) AutomocShared = _Automoc('SharedObject') AutomocStatic = _Automoc('StaticObject') def _detect(env): """Not really safe, but fast method to detect the QT library""" QTDIR = None if not QTDIR: QTDIR = env.get('QTDIR',None) if not QTDIR: QTDIR = os.environ.get('QTDIR',None) if not QTDIR: moc = env.WhereIs('moc') if moc: QTDIR = os.path.dirname(os.path.dirname(moc)) SCons.Warnings.warn( QtdirNotFound, "Could not detect qt, using moc executable as a hint (QTDIR=%s)" % QTDIR) else: QTDIR = None SCons.Warnings.warn( QtdirNotFound, "Could not detect qt, using empty QTDIR") return QTDIR def uicEmitter(target, source, env): adjustixes = SCons.Util.adjustixes bs = SCons.Util.splitext(str(source[0].name))[0] bs = os.path.join(str(target[0].get_dir()),bs) # first target (header) is automatically added by builder if len(target) < 2: # second target is implementation target.append(adjustixes(bs, env.subst('$QT_UICIMPLPREFIX'), env.subst('$QT_UICIMPLSUFFIX'))) if len(target) < 3: # third target is moc file target.append(adjustixes(bs, env.subst('$QT_MOCHPREFIX'), env.subst('$QT_MOCHSUFFIX'))) return target, source def uicScannerFunc(node, env, path): lookout = [] lookout.extend(env['CPPPATH']) lookout.append(str(node.rfile().dir)) includes = re.findall("(.*?)", node.get_text_contents()) result = [] for incFile in includes: dep = env.FindFile(incFile,lookout) if dep: result.append(dep) return result uicScanner = SCons.Scanner.Base(uicScannerFunc, name = "UicScanner", node_class = SCons.Node.FS.File, node_factory = SCons.Node.FS.File, recursive = 0) def generate(env): """Add Builders and construction variables for qt to an Environment.""" CLVar = SCons.Util.CLVar Action = SCons.Action.Action Builder = SCons.Builder.Builder env.SetDefault(QTDIR = _detect(env), QT_BINPATH = os.path.join('$QTDIR', 'bin'), QT_CPPPATH = os.path.join('$QTDIR', 'include'), QT_LIBPATH = os.path.join('$QTDIR', 'lib'), QT_MOC = os.path.join('$QT_BINPATH','moc'), QT_UIC = os.path.join('$QT_BINPATH','uic'), QT_LIB = 'qt', # may be set to qt-mt QT_AUTOSCAN = 1, # scan for moc'able sources # Some QT specific flags. I don't expect someone wants to # manipulate those ... QT_UICIMPLFLAGS = CLVar(''), QT_UICDECLFLAGS = CLVar(''), QT_MOCFROMHFLAGS = CLVar(''), QT_MOCFROMCXXFLAGS = CLVar('-i'), # suffixes/prefixes for the headers / sources to generate QT_UICDECLPREFIX = '', QT_UICDECLSUFFIX = '.h', QT_UICIMPLPREFIX = 'uic_', QT_UICIMPLSUFFIX = '$CXXFILESUFFIX', QT_MOCHPREFIX = 'moc_', QT_MOCHSUFFIX = '$CXXFILESUFFIX', QT_MOCCXXPREFIX = '', QT_MOCCXXSUFFIX = '.moc', QT_UISUFFIX = '.ui', # Commands for the qt support ... # command to generate header, implementation and moc-file # from a .ui file QT_UICCOM = [ CLVar('$QT_UIC $QT_UICDECLFLAGS -o ${TARGETS[0]} $SOURCE'), CLVar('$QT_UIC $QT_UICIMPLFLAGS -impl ${TARGETS[0].file} ' '-o ${TARGETS[1]} $SOURCE'), CLVar('$QT_MOC $QT_MOCFROMHFLAGS -o ${TARGETS[2]} ${TARGETS[0]}')], # command to generate meta object information for a class # declarated in a header QT_MOCFROMHCOM = ( '$QT_MOC $QT_MOCFROMHFLAGS -o ${TARGETS[0]} $SOURCE'), # command to generate meta object information for a class # declarated in a cpp file QT_MOCFROMCXXCOM = [ CLVar('$QT_MOC $QT_MOCFROMCXXFLAGS -o ${TARGETS[0]} $SOURCE'), Action(checkMocIncluded,None)]) # ... and the corresponding builders uicBld = Builder(action=SCons.Action.Action('$QT_UICCOM', '$QT_UICCOMSTR'), emitter=uicEmitter, src_suffix='$QT_UISUFFIX', suffix='$QT_UICDECLSUFFIX', prefix='$QT_UICDECLPREFIX', source_scanner=uicScanner) mocBld = Builder(action={}, prefix={}, suffix={}) for h in header_extensions: act = SCons.Action.Action('$QT_MOCFROMHCOM', '$QT_MOCFROMHCOMSTR') mocBld.add_action(h, act) mocBld.prefix[h] = '$QT_MOCHPREFIX' mocBld.suffix[h] = '$QT_MOCHSUFFIX' for cxx in cxx_suffixes: act = SCons.Action.Action('$QT_MOCFROMCXXCOM', '$QT_MOCFROMCXXCOMSTR') mocBld.add_action(cxx, act) mocBld.prefix[cxx] = '$QT_MOCCXXPREFIX' mocBld.suffix[cxx] = '$QT_MOCCXXSUFFIX' # register the builders env['BUILDERS']['Uic'] = uicBld env['BUILDERS']['Moc'] = mocBld static_obj, shared_obj = SCons.Tool.createObjBuilders(env) static_obj.add_src_builder('Uic') shared_obj.add_src_builder('Uic') # We use the emitters of Program / StaticLibrary / SharedLibrary # to scan for moc'able files # We can't refer to the builders directly, we have to fetch them # as Environment attributes because that sets them up to be called # correctly later by our emitter. env.AppendUnique(PROGEMITTER =[AutomocStatic], SHLIBEMITTER=[AutomocShared], LDMODULEEMITTER=[AutomocShared], LIBEMITTER =[AutomocStatic], # Of course, we need to link against the qt libraries CPPPATH=["$QT_CPPPATH"], LIBPATH=["$QT_LIBPATH"], LIBS=['$QT_LIB']) def exists(env): return _detect(env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/tar.py0000664000175000017500000000472413202656512020520 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.tar Tool-specific initialization for tar. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/tar.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Action import SCons.Builder import SCons.Defaults import SCons.Node.FS import SCons.Util tars = ['tar', 'gtar'] TarAction = SCons.Action.Action('$TARCOM', '$TARCOMSTR') TarBuilder = SCons.Builder.Builder(action = TarAction, source_factory = SCons.Node.FS.Entry, source_scanner = SCons.Defaults.DirScanner, suffix = '$TARSUFFIX', multi = 1) def generate(env): """Add Builders and construction variables for tar to an Environment.""" try: bld = env['BUILDERS']['Tar'] except KeyError: bld = TarBuilder env['BUILDERS']['Tar'] = bld env['TAR'] = env.Detect(tars) or 'gtar' env['TARFLAGS'] = SCons.Util.CLVar('-c') env['TARCOM'] = '$TAR $TARFLAGS -f $TARGET $SOURCES' env['TARSUFFIX'] = '.tar' def exists(env): return env.Detect(tars) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/MSCommon/0000775000175000017500000000000013202656646021051 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Tool/MSCommon/common.py0000664000175000017500000002171313202656511022706 0ustar bdbaddogbdbaddog00000000000000""" Common helper functions for working with the Microsoft tool chain. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/Tool/MSCommon/common.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import copy import os import subprocess import re import SCons.Util LOGFILE = os.environ.get('SCONS_MSCOMMON_DEBUG') if LOGFILE == '-': def debug(message): print(message) elif LOGFILE: try: import logging except ImportError: debug = lambda message: open(LOGFILE, 'a').write(message + '\n') else: logging.basicConfig(filename=LOGFILE, level=logging.DEBUG) debug = logging.debug else: debug = lambda x: None _is_win64 = None def is_win64(): """Return true if running on windows 64 bits. Works whether python itself runs in 64 bits or 32 bits.""" # Unfortunately, python does not provide a useful way to determine # if the underlying Windows OS is 32-bit or 64-bit. Worse, whether # the Python itself is 32-bit or 64-bit affects what it returns, # so nothing in sys.* or os.* help. # Apparently the best solution is to use env vars that Windows # sets. If PROCESSOR_ARCHITECTURE is not x86, then the python # process is running in 64 bit mode (on a 64-bit OS, 64-bit # hardware, obviously). # If this python is 32-bit but the OS is 64, Windows will set # ProgramW6432 and PROCESSOR_ARCHITEW6432 to non-null. # (Checking for HKLM\Software\Wow6432Node in the registry doesn't # work, because some 32-bit installers create it.) global _is_win64 if _is_win64 is None: # I structured these tests to make it easy to add new ones or # add exceptions in the future, because this is a bit fragile. _is_win64 = False if os.environ.get('PROCESSOR_ARCHITECTURE', 'x86') != 'x86': _is_win64 = True if os.environ.get('PROCESSOR_ARCHITEW6432'): _is_win64 = True if os.environ.get('ProgramW6432'): _is_win64 = True return _is_win64 def read_reg(value, hkroot=SCons.Util.HKEY_LOCAL_MACHINE): return SCons.Util.RegGetValue(hkroot, value)[0] def has_reg(value): """Return True if the given key exists in HKEY_LOCAL_MACHINE, False otherwise.""" try: SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, value) ret = True except SCons.Util.WinError: ret = False return ret # Functions for fetching environment variable settings from batch files. def normalize_env(env, keys, force=False): """Given a dictionary representing a shell environment, add the variables from os.environ needed for the processing of .bat files; the keys are controlled by the keys argument. It also makes sure the environment values are correctly encoded. If force=True, then all of the key values that exist are copied into the returned dictionary. If force=false, values are only copied if the key does not already exist in the copied dictionary. Note: the environment is copied.""" normenv = {} if env: for k in list(env.keys()): normenv[k] = copy.deepcopy(env[k]) for k in keys: if k in os.environ and (force or not k in normenv): normenv[k] = os.environ[k] # This shouldn't be necessary, since the default environment should include system32, # but keep this here to be safe, since it's needed to find reg.exe which the MSVC # bat scripts use. sys32_dir = os.path.join(os.environ.get("SystemRoot", os.environ.get("windir", r"C:\Windows\system32")), "System32") if sys32_dir not in normenv['PATH']: normenv['PATH'] = normenv['PATH'] + os.pathsep + sys32_dir # Without Wbem in PATH, vcvarsall.bat has a "'wmic' is not recognized" # error starting with Visual Studio 2017, although the script still # seems to work anyway. sys32_wbem_dir = os.path.join(sys32_dir, 'Wbem') if sys32_wbem_dir not in normenv['PATH']: normenv['PATH'] = normenv['PATH'] + os.pathsep + sys32_wbem_dir debug("PATH: %s"%normenv['PATH']) return normenv def get_output(vcbat, args = None, env = None): """Parse the output of given bat file, with given args.""" if env is None: # Create a blank environment, for use in launching the tools env = SCons.Environment.Environment(tools=[]) # TODO: This is a hard-coded list of the variables that (may) need # to be imported from os.environ[] for v[sc]*vars*.bat file # execution to work. This list should really be either directly # controlled by vc.py, or else derived from the common_tools_var # settings in vs.py. vs_vc_vars = [ 'COMSPEC', # VS100 and VS110: Still set, but modern MSVC setup scripts will # discard these if registry has values. However Intel compiler setup # script still requires these as of 2013/2014. 'VS140COMNTOOLS', 'VS120COMNTOOLS', 'VS110COMNTOOLS', 'VS100COMNTOOLS', 'VS90COMNTOOLS', 'VS80COMNTOOLS', 'VS71COMNTOOLS', 'VS70COMNTOOLS', 'VS60COMNTOOLS', ] env['ENV'] = normalize_env(env['ENV'], vs_vc_vars, force=False) if args: debug("Calling '%s %s'" % (vcbat, args)) popen = SCons.Action._subproc(env, '"%s" %s & set' % (vcbat, args), stdin='devnull', stdout=subprocess.PIPE, stderr=subprocess.PIPE) else: debug("Calling '%s'" % vcbat) popen = SCons.Action._subproc(env, '"%s" & set' % vcbat, stdin='devnull', stdout=subprocess.PIPE, stderr=subprocess.PIPE) # Use the .stdout and .stderr attributes directly because the # .communicate() method uses the threading module on Windows # and won't work under Pythons not built with threading. stdout = popen.stdout.read() stderr = popen.stderr.read() # Extra debug logic, uncomment if necessary # debug('get_output():stdout:%s'%stdout) # debug('get_output():stderr:%s'%stderr) if stderr: # TODO: find something better to do with stderr; # this at least prevents errors from getting swallowed. import sys sys.stderr.write(stderr) if popen.wait() != 0: raise IOError(stderr.decode("mbcs")) output = stdout.decode("mbcs") return output def parse_output(output, keep=("INCLUDE", "LIB", "LIBPATH", "PATH")): """ Parse output from running visual c++/studios vcvarsall.bat and running set To capture the values listed in keep """ # dkeep is a dict associating key: path_list, where key is one item from # keep, and pat_list the associated list of paths dkeep = dict([(i, []) for i in keep]) # rdk will keep the regex to match the .bat file output line starts rdk = {} for i in keep: rdk[i] = re.compile('%s=(.*)' % i, re.I) def add_env(rmatch, key, dkeep=dkeep): path_list = rmatch.group(1).split(os.pathsep) for path in path_list: # Do not add empty paths (when a var ends with ;) if path: # XXX: For some reason, VC98 .bat file adds "" around the PATH # values, and it screws up the environment later, so we strip # it. path = path.strip('"') dkeep[key].append(str(path)) for line in output.splitlines(): for k, value in rdk.items(): match = value.match(line) if match: add_env(match, k) return dkeep # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/MSCommon/vc.py0000664000175000017500000005275713202656511022042 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # # TODO: # * supported arch for versions: for old versions of batch file without # argument, giving bogus argument cannot be detected, so we have to hardcode # this here # * print warning when msvc version specified but not found # * find out why warning do not print # * test on 64 bits XP + VS 2005 (and VS 6 if possible) # * SDK # * Assembly __revision__ = "src/engine/SCons/Tool/MSCommon/vc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Module for Visual C/C++ detection and configuration. """ import SCons.compat import SCons.Util import subprocess import os import platform from string import digits as string_digits import SCons.Warnings from . import common debug = common.debug from . import sdk get_installed_sdks = sdk.get_installed_sdks class VisualCException(Exception): pass class UnsupportedVersion(VisualCException): pass class UnsupportedArch(VisualCException): pass class MissingConfiguration(VisualCException): pass class NoVersionFound(VisualCException): pass class BatchFileExecutionError(VisualCException): pass # Dict to 'canonalize' the arch _ARCH_TO_CANONICAL = { "amd64" : "amd64", "emt64" : "amd64", "i386" : "x86", "i486" : "x86", "i586" : "x86", "i686" : "x86", "ia64" : "ia64", "itanium" : "ia64", "x86" : "x86", "x86_64" : "amd64", "x86_amd64" : "x86_amd64", # Cross compile to 64 bit from 32bits } # Given a (host, target) tuple, return the argument for the bat file. Both host # and targets should be canonalized. _HOST_TARGET_ARCH_TO_BAT_ARCH = { ("x86", "x86"): "x86", ("x86", "amd64"): "x86_amd64", ("x86", "x86_amd64"): "x86_amd64", ("amd64", "x86_amd64"): "x86_amd64", # This is present in (at least) VS2012 express ("amd64", "amd64"): "amd64", ("amd64", "x86"): "x86", ("x86", "ia64"): "x86_ia64" } def get_host_target(env): debug('vc.py:get_host_target()') host_platform = env.get('HOST_ARCH') if not host_platform: host_platform = platform.machine() # TODO(2.5): the native Python platform.machine() function returns # '' on all Python versions before 2.6, after which it also uses # PROCESSOR_ARCHITECTURE. if not host_platform: host_platform = os.environ.get('PROCESSOR_ARCHITECTURE', '') # Retain user requested TARGET_ARCH req_target_platform = env.get('TARGET_ARCH') debug('vc.py:get_host_target() req_target_platform:%s'%req_target_platform) if req_target_platform: # If user requested a specific platform then only try that one. target_platform = req_target_platform else: target_platform = host_platform try: host = _ARCH_TO_CANONICAL[host_platform.lower()] except KeyError as e: msg = "Unrecognized host architecture %s" raise ValueError(msg % repr(host_platform)) try: target = _ARCH_TO_CANONICAL[target_platform.lower()] except KeyError as e: all_archs = str(list(_ARCH_TO_CANONICAL.keys())) raise ValueError("Unrecognized target architecture %s\n\tValid architectures: %s" % (target_platform, all_archs)) return (host, target,req_target_platform) # If you update this, update SupportedVSList in Tool/MSCommon/vs.py, and the # MSVC_VERSION documentation in Tool/msvc.xml. _VCVER = ["14.1", "14.0", "14.0Exp", "12.0", "12.0Exp", "11.0", "11.0Exp", "10.0", "10.0Exp", "9.0", "9.0Exp","8.0", "8.0Exp","7.1", "7.0", "6.0"] _VCVER_TO_PRODUCT_DIR = { '14.1' : [ (SCons.Util.HKEY_LOCAL_MACHINE, r'')], # Visual Studio 2017 doesn't set this registry key anymore '14.0' : [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VisualStudio\14.0\Setup\VC\ProductDir')], '14.0Exp' : [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VCExpress\14.0\Setup\VC\ProductDir')], '12.0' : [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VisualStudio\12.0\Setup\VC\ProductDir'), ], '12.0Exp' : [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VCExpress\12.0\Setup\VC\ProductDir'), ], '11.0': [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VisualStudio\11.0\Setup\VC\ProductDir'), ], '11.0Exp' : [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VCExpress\11.0\Setup\VC\ProductDir'), ], '10.0': [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VisualStudio\10.0\Setup\VC\ProductDir'), ], '10.0Exp' : [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VCExpress\10.0\Setup\VC\ProductDir'), ], '9.0': [ (SCons.Util.HKEY_CURRENT_USER, r'Microsoft\DevDiv\VCForPython\9.0\installdir',), (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VisualStudio\9.0\Setup\VC\ProductDir',), ], '9.0Exp' : [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VCExpress\9.0\Setup\VC\ProductDir'), ], '8.0': [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VisualStudio\8.0\Setup\VC\ProductDir'), ], '8.0Exp': [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VCExpress\8.0\Setup\VC\ProductDir'), ], '7.1': [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VisualStudio\7.1\Setup\VC\ProductDir'), ], '7.0': [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VisualStudio\7.0\Setup\VC\ProductDir'), ], '6.0': [ (SCons.Util.HKEY_LOCAL_MACHINE, r'Microsoft\VisualStudio\6.0\Setup\Microsoft Visual C++\ProductDir'), ] } def msvc_version_to_maj_min(msvc_version): msvc_version_numeric = ''.join([x for x in msvc_version if x in string_digits + '.']) t = msvc_version_numeric.split(".") if not len(t) == 2: raise ValueError("Unrecognized version %s (%s)" % (msvc_version,msvc_version_numeric)) try: maj = int(t[0]) min = int(t[1]) return maj, min except ValueError as e: raise ValueError("Unrecognized version %s (%s)" % (msvc_version,msvc_version_numeric)) def is_host_target_supported(host_target, msvc_version): """Return True if the given (host, target) tuple is supported given the msvc version. Parameters ---------- host_target: tuple tuple of (canonalized) host-target, e.g. ("x86", "amd64") for cross compilation from 32 bits windows to 64 bits. msvc_version: str msvc version (major.minor, e.g. 10.0) Note ---- This only check whether a given version *may* support the given (host, target), not that the toolchain is actually present on the machine. """ # We assume that any Visual Studio version supports x86 as a target if host_target[1] != "x86": maj, min = msvc_version_to_maj_min(msvc_version) if maj < 8: return False return True def find_vc_pdir_vswhere(msvc_version): """ Find the MSVC product directory using vswhere.exe . Run it asking for specified version and get MSVS install location :param msvc_version: :return: MSVC install dir """ vswhere_path = os.path.join( 'C:\\', 'Program Files (x86)', 'Microsoft Visual Studio', 'Installer', 'vswhere.exe' ) vswhere_cmd = [vswhere_path, '-version', msvc_version, '-property', 'installationPath'] if os.path.exists(vswhere_path): sp = subprocess.Popen(vswhere_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) vsdir, err = sp.communicate() vsdir = vsdir.decode("mbcs") vsdir = vsdir.rstrip() vc_pdir = os.path.join(vsdir, 'VC') return vc_pdir else: # No vswhere on system, no install info available return None def find_vc_pdir(msvc_version): """Try to find the product directory for the given version. Note ---- If for some reason the requested version could not be found, an exception which inherits from VisualCException will be raised.""" root = 'Software\\' try: hkeys = _VCVER_TO_PRODUCT_DIR[msvc_version] except KeyError: debug("Unknown version of MSVC: %s" % msvc_version) raise UnsupportedVersion("Unknown version %s" % msvc_version) for hkroot, key in hkeys: try: comps = None if not key: comps = find_vc_pdir_vswhere(msvc_version) if not comps: debug('find_vc_dir(): no VC found via vswhere for version {}'.format(repr(key))) raise SCons.Util.WinError else: if common.is_win64(): try: # ordinally at win64, try Wow6432Node first. comps = common.read_reg(root + 'Wow6432Node\\' + key, hkroot) except SCons.Util.WinError as e: # at Microsoft Visual Studio for Python 2.7, value is not in Wow6432Node pass if not comps: # not Win64, or Microsoft Visual Studio for Python 2.7 comps = common.read_reg(root + key, hkroot) except SCons.Util.WinError as e: debug('find_vc_dir(): no VC registry key {}'.format(repr(key))) else: debug('find_vc_dir(): found VC in registry: {}'.format(comps)) if os.path.exists(comps): return comps else: debug('find_vc_dir(): reg says dir is {}, but it does not exist. (ignoring)'.format(comps)) raise MissingConfiguration("registry dir {} not found on the filesystem".format(comps)) return None def find_batch_file(env,msvc_version,host_arch,target_arch): """ Find the location of the batch script which should set up the compiler for any TARGET_ARCH whose compilers were installed by Visual Studio/VCExpress """ pdir = find_vc_pdir(msvc_version) if pdir is None: raise NoVersionFound("No version of Visual Studio found") debug('vc.py: find_batch_file() pdir:{}'.format(pdir)) # filter out e.g. "Exp" from the version name msvc_ver_numeric = ''.join([x for x in msvc_version if x in string_digits + "."]) vernum = float(msvc_ver_numeric) if 7 <= vernum < 8: pdir = os.path.join(pdir, os.pardir, "Common7", "Tools") batfilename = os.path.join(pdir, "vsvars32.bat") elif vernum < 7: pdir = os.path.join(pdir, "Bin") batfilename = os.path.join(pdir, "vcvars32.bat") elif 8 <= vernum <= 14: batfilename = os.path.join(pdir, "vcvarsall.bat") else: # vernum >= 14.1 VS2017 and above batfilename = os.path.join(pdir, "Auxiliary", "Build", "vcvarsall.bat") if not os.path.exists(batfilename): debug("Not found: %s" % batfilename) batfilename = None installed_sdks=get_installed_sdks() for _sdk in installed_sdks: sdk_bat_file = _sdk.get_sdk_vc_script(host_arch,target_arch) if not sdk_bat_file: debug("vc.py:find_batch_file() not found:%s"%_sdk) else: sdk_bat_file_path = os.path.join(pdir,sdk_bat_file) if os.path.exists(sdk_bat_file_path): debug('vc.py:find_batch_file() sdk_bat_file_path:%s'%sdk_bat_file_path) return (batfilename,sdk_bat_file_path) return (batfilename,None) __INSTALLED_VCS_RUN = None def cached_get_installed_vcs(): global __INSTALLED_VCS_RUN if __INSTALLED_VCS_RUN is None: ret = get_installed_vcs() __INSTALLED_VCS_RUN = ret return __INSTALLED_VCS_RUN def get_installed_vcs(): installed_versions = [] for ver in _VCVER: debug('trying to find VC %s' % ver) try: if find_vc_pdir(ver): debug('found VC %s' % ver) installed_versions.append(ver) else: debug('find_vc_pdir return None for ver %s' % ver) except VisualCException as e: debug('did not find VC %s: caught exception %s' % (ver, str(e))) return installed_versions def reset_installed_vcs(): """Make it try again to find VC. This is just for the tests.""" __INSTALLED_VCS_RUN = None # Running these batch files isn't cheap: most of the time spent in # msvs.generate() is due to vcvars*.bat. In a build that uses "tools='msvs'" # in multiple environments, for example: # env1 = Environment(tools='msvs') # env2 = Environment(tools='msvs') # we can greatly improve the speed of the second and subsequent Environment # (or Clone) calls by memoizing the environment variables set by vcvars*.bat. script_env_stdout_cache = {} def script_env(script, args=None): cache_key = (script, args) stdout = script_env_stdout_cache.get(cache_key, None) if stdout is None: stdout = common.get_output(script, args) script_env_stdout_cache[cache_key] = stdout # Stupid batch files do not set return code: we take a look at the # beginning of the output for an error message instead olines = stdout.splitlines() if olines[0].startswith("The specified configuration type is missing"): raise BatchFileExecutionError("\n".join(olines[:2])) return common.parse_output(stdout) def get_default_version(env): debug('get_default_version()') msvc_version = env.get('MSVC_VERSION') msvs_version = env.get('MSVS_VERSION') debug('get_default_version(): msvc_version:%s msvs_version:%s'%(msvc_version,msvs_version)) if msvs_version and not msvc_version: SCons.Warnings.warn( SCons.Warnings.DeprecatedWarning, "MSVS_VERSION is deprecated: please use MSVC_VERSION instead ") return msvs_version elif msvc_version and msvs_version: if not msvc_version == msvs_version: SCons.Warnings.warn( SCons.Warnings.VisualVersionMismatch, "Requested msvc version (%s) and msvs version (%s) do " \ "not match: please use MSVC_VERSION only to request a " \ "visual studio version, MSVS_VERSION is deprecated" \ % (msvc_version, msvs_version)) return msvs_version if not msvc_version: installed_vcs = cached_get_installed_vcs() debug('installed_vcs:%s' % installed_vcs) if not installed_vcs: #msg = 'No installed VCs' #debug('msv %s\n' % repr(msg)) #SCons.Warnings.warn(SCons.Warnings.VisualCMissingWarning, msg) debug('msvc_setup_env: No installed VCs') return None msvc_version = installed_vcs[0] debug('msvc_setup_env: using default installed MSVC version %s\n' % repr(msvc_version)) return msvc_version def msvc_setup_env_once(env): try: has_run = env["MSVC_SETUP_RUN"] except KeyError: has_run = False if not has_run: msvc_setup_env(env) env["MSVC_SETUP_RUN"] = True def msvc_find_valid_batch_script(env,version): debug('vc.py:msvc_find_valid_batch_script()') # Find the host platform, target platform, and if present the requested # target platform (host_platform, target_platform,req_target_platform) = get_host_target(env) try_target_archs = [target_platform] debug("msvs_find_valid_batch_script(): req_target_platform %s target_platform:%s"%(req_target_platform,target_platform)) # VS2012 has a "cross compile" environment to build 64 bit # with x86_amd64 as the argument to the batch setup script if req_target_platform in ('amd64','x86_64'): try_target_archs.append('x86_amd64') elif not req_target_platform and target_platform in ['amd64','x86_64']: # There may not be "native" amd64, but maybe "cross" x86_amd64 tools try_target_archs.append('x86_amd64') # If the user hasn't specifically requested a TARGET_ARCH, and # The TARGET_ARCH is amd64 then also try 32 bits if there are no viable # 64 bit tools installed try_target_archs.append('x86') debug("msvs_find_valid_batch_script(): host_platform: %s try_target_archs:%s"%(host_platform, try_target_archs)) d = None for tp in try_target_archs: # Set to current arch. env['TARGET_ARCH']=tp debug("vc.py:msvc_find_valid_batch_script() trying target_platform:%s"%tp) host_target = (host_platform, tp) if not is_host_target_supported(host_target, version): warn_msg = "host, target = %s not supported for MSVC version %s" % \ (host_target, version) SCons.Warnings.warn(SCons.Warnings.VisualCMissingWarning, warn_msg) arg = _HOST_TARGET_ARCH_TO_BAT_ARCH[host_target] # Get just version numbers maj, min = msvc_version_to_maj_min(version) # VS2015+ if maj >= 14: if env.get('MSVC_UWP_APP') == '1': # Initialize environment variables with store/universal paths arg += ' store' # Try to locate a batch file for this host/target platform combo try: (vc_script,sdk_script) = find_batch_file(env,version,host_platform,tp) debug('vc.py:msvc_find_valid_batch_script() vc_script:%s sdk_script:%s'%(vc_script,sdk_script)) except VisualCException as e: msg = str(e) debug('Caught exception while looking for batch file (%s)' % msg) warn_msg = "VC version %s not installed. " + \ "C/C++ compilers are most likely not set correctly.\n" + \ " Installed versions are: %s" warn_msg = warn_msg % (version, cached_get_installed_vcs()) SCons.Warnings.warn(SCons.Warnings.VisualCMissingWarning, warn_msg) continue # Try to use the located batch file for this host/target platform combo debug('vc.py:msvc_find_valid_batch_script() use_script 2 %s, args:%s\n' % (repr(vc_script), arg)) if vc_script: try: d = script_env(vc_script, args=arg) except BatchFileExecutionError as e: debug('vc.py:msvc_find_valid_batch_script() use_script 3: failed running VC script %s: %s: Error:%s'%(repr(vc_script),arg,e)) vc_script=None continue if not vc_script and sdk_script: debug('vc.py:msvc_find_valid_batch_script() use_script 4: trying sdk script: %s'%(sdk_script)) try: d = script_env(sdk_script) except BatchFileExecutionError as e: debug('vc.py:msvc_find_valid_batch_script() use_script 5: failed running SDK script %s: Error:%s'%(repr(sdk_script),e)) continue elif not vc_script and not sdk_script: debug('vc.py:msvc_find_valid_batch_script() use_script 6: Neither VC script nor SDK script found') continue debug("vc.py:msvc_find_valid_batch_script() Found a working script/target: %s %s"%(repr(sdk_script),arg)) break # We've found a working target_platform, so stop looking # If we cannot find a viable installed compiler, reset the TARGET_ARCH # To it's initial value if not d: env['TARGET_ARCH']=req_target_platform return d def msvc_setup_env(env): debug('msvc_setup_env()') version = get_default_version(env) if version is None: warn_msg = "No version of Visual Studio compiler found - C/C++ " \ "compilers most likely not set correctly" SCons.Warnings.warn(SCons.Warnings.VisualCMissingWarning, warn_msg) return None debug('msvc_setup_env: using specified MSVC version %s\n' % repr(version)) # XXX: we set-up both MSVS version for backward # compatibility with the msvs tool env['MSVC_VERSION'] = version env['MSVS_VERSION'] = version env['MSVS'] = {} use_script = env.get('MSVC_USE_SCRIPT', True) if SCons.Util.is_String(use_script): debug('vc.py:msvc_setup_env() use_script 1 %s\n' % repr(use_script)) d = script_env(use_script) elif use_script: d = msvc_find_valid_batch_script(env,version) debug('vc.py:msvc_setup_env() use_script 2 %s\n' % d) if not d: return d else: debug('MSVC_USE_SCRIPT set to False') warn_msg = "MSVC_USE_SCRIPT set to False, assuming environment " \ "set correctly." SCons.Warnings.warn(SCons.Warnings.VisualCMissingWarning, warn_msg) return None for k, v in d.items(): debug('vc.py:msvc_setup_env() env:%s -> %s'%(k,v)) env.PrependENVPath(k, v, delete_existing=True) def msvc_exists(version=None): vcs = cached_get_installed_vcs() if version is None: return len(vcs) > 0 return version in vcs scons-3.0.1/engine/SCons/Tool/MSCommon/arch.py0000664000175000017500000000405213202656511022330 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/MSCommon/arch.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Module to define supported Windows chip architectures. """ import os class ArchDefinition(object): """ A class for defining architecture-specific settings and logic. """ def __init__(self, arch, synonyms=[]): self.arch = arch self.synonyms = synonyms SupportedArchitectureList = [ ArchitectureDefinition( 'x86', ['i386', 'i486', 'i586', 'i686'], ), ArchitectureDefinition( 'x86_64', ['AMD64', 'amd64', 'em64t', 'EM64T', 'x86_64'], ), ArchitectureDefinition( 'ia64', ['IA64'], ), ArchitectureDefinition( 'arm', ['ARM'], ), ] SupportedArchitectureMap = {} for a in SupportedArchitectureList: SupportedArchitectureMap[a.arch] = a for s in a.synonyms: SupportedArchitectureMap[s] = a scons-3.0.1/engine/SCons/Tool/MSCommon/netframework.py0000664000175000017500000000543313202656511024123 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/MSCommon/netframework.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """ """ import os import re import SCons.Util from .common import read_reg, debug # Original value recorded by dcournapeau _FRAMEWORKDIR_HKEY_ROOT = r'Software\Microsoft\.NETFramework\InstallRoot' # On SGK's system _FRAMEWORKDIR_HKEY_ROOT = r'Software\Microsoft\Microsoft SDKs\.NETFramework\v2.0\InstallationFolder' def find_framework_root(): # XXX: find it from environment (FrameworkDir) try: froot = read_reg(_FRAMEWORKDIR_HKEY_ROOT) debug("Found framework install root in registry: {}".format(froot)) except SCons.Util.WinError as e: debug("Could not read reg key {}".format(_FRAMEWORKDIR_HKEY_ROOT)) return None if not os.path.exists(froot): debug("{} not found on fs".format(froot)) return None return froot def query_versions(): froot = find_framework_root() if froot: contents = os.listdir(froot) l = re.compile('v[0-9]+.*') versions = [e for e in contents if l.match(e)] def versrt(a,b): # since version numbers aren't really floats... aa = a[1:] bb = b[1:] aal = aa.split('.') bbl = bb.split('.') # sequence comparison in python is lexicographical # which is exactly what we want. # Note we sort backwards so the highest version is first. return cmp(bbl,aal) versions.sort(versrt) else: versions = [] return versions # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/MSCommon/sdk.py0000664000175000017500000003511013202656511022173 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/MSCommon/sdk.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Module to detect the Platform/Windows SDK PSDK 2003 R1 is the earliest version detected. """ import os import SCons.Errors import SCons.Util from . import common debug = common.debug # SDK Checks. This is of course a mess as everything else on MS platforms. Here # is what we do to detect the SDK: # # For Windows SDK >= 6.0: just look into the registry entries: # HKLM\Software\Microsoft\Microsoft SDKs\Windows # All the keys in there are the available versions. # # For Platform SDK before 6.0 (2003 server R1 and R2, etc...), there does not # seem to be any sane registry key, so the precise location is hardcoded. # # For versions below 2003R1, it seems the PSDK is included with Visual Studio? # # Also, per the following: # http://benjamin.smedbergs.us/blog/tag/atl/ # VC++ Professional comes with the SDK, VC++ Express does not. # Location of the SDK (checked for 6.1 only) _CURINSTALLED_SDK_HKEY_ROOT = \ r"Software\Microsoft\Microsoft SDKs\Windows\CurrentInstallFolder" class SDKDefinition(object): """ An abstract base class for trying to find installed SDK directories. """ def __init__(self, version, **kw): self.version = version self.__dict__.update(kw) def find_sdk_dir(self): """Try to find the MS SDK from the registry. Return None if failed or the directory does not exist. """ if not SCons.Util.can_read_reg: debug('find_sdk_dir(): can not read registry') return None hkey = self.HKEY_FMT % self.hkey_data debug('find_sdk_dir(): checking registry:{}'.format(hkey)) try: sdk_dir = common.read_reg(hkey) except SCons.Util.WinError as e: debug('find_sdk_dir(): no SDK registry key {}'.format(repr(hkey))) return None debug('find_sdk_dir(): Trying SDK Dir: {}'.format(sdk_dir)) if not os.path.exists(sdk_dir): debug('find_sdk_dir(): {} not on file system'.format(sdk_dir)) return None ftc = os.path.join(sdk_dir, self.sanity_check_file) if not os.path.exists(ftc): debug("find_sdk_dir(): sanity check {} not found".format(ftc)) return None return sdk_dir def get_sdk_dir(self): """Return the MSSSDK given the version string.""" try: return self._sdk_dir except AttributeError: sdk_dir = self.find_sdk_dir() self._sdk_dir = sdk_dir return sdk_dir def get_sdk_vc_script(self,host_arch, target_arch): """ Return the script to initialize the VC compiler installed by SDK """ if (host_arch == 'amd64' and target_arch == 'x86'): # No cross tools needed compiling 32 bits on 64 bit machine host_arch=target_arch arch_string=target_arch if (host_arch != target_arch): arch_string='%s_%s'%(host_arch,target_arch) debug("sdk.py: get_sdk_vc_script():arch_string:%s host_arch:%s target_arch:%s"%(arch_string, host_arch, target_arch)) file=self.vc_setup_scripts.get(arch_string,None) debug("sdk.py: get_sdk_vc_script():file:%s"%file) return file class WindowsSDK(SDKDefinition): """ A subclass for trying to find installed Windows SDK directories. """ HKEY_FMT = r'Software\Microsoft\Microsoft SDKs\Windows\v%s\InstallationFolder' def __init__(self, *args, **kw): SDKDefinition.__init__(self, *args, **kw) self.hkey_data = self.version class PlatformSDK(SDKDefinition): """ A subclass for trying to find installed Platform SDK directories. """ HKEY_FMT = r'Software\Microsoft\MicrosoftSDK\InstalledSDKS\%s\Install Dir' def __init__(self, *args, **kw): SDKDefinition.__init__(self, *args, **kw) self.hkey_data = self.uuid # # The list of VC initialization scripts installed by the SDK # These should be tried if the vcvarsall.bat TARGET_ARCH fails preSDK61VCSetupScripts = { 'x86' : r'bin\vcvars32.bat', 'amd64' : r'bin\vcvarsamd64.bat', 'x86_amd64': r'bin\vcvarsx86_amd64.bat', 'x86_ia64' : r'bin\vcvarsx86_ia64.bat', 'ia64' : r'bin\vcvarsia64.bat'} SDK61VCSetupScripts = {'x86' : r'bin\vcvars32.bat', 'amd64' : r'bin\amd64\vcvarsamd64.bat', 'x86_amd64': r'bin\x86_amd64\vcvarsx86_amd64.bat', 'x86_ia64' : r'bin\x86_ia64\vcvarsx86_ia64.bat', 'ia64' : r'bin\ia64\vcvarsia64.bat'} SDK70VCSetupScripts = { 'x86' : r'bin\vcvars32.bat', 'amd64' : r'bin\vcvars64.bat', 'x86_amd64': r'bin\vcvarsx86_amd64.bat', 'x86_ia64' : r'bin\vcvarsx86_ia64.bat', 'ia64' : r'bin\vcvarsia64.bat'} SDK100VCSetupScripts = {'x86' : r'bin\vcvars32.bat', 'amd64' : r'bin\vcvars64.bat', 'x86_amd64': r'bin\x86_amd64\vcvarsx86_amd64.bat', 'x86_arm' : r'bin\x86_arm\vcvarsx86_arm.bat'} # The list of support SDKs which we know how to detect. # # The first SDK found in the list is the one used by default if there # are multiple SDKs installed. Barring good reasons to the contrary, # this means we should list SDKs from most recent to oldest. # # If you update this list, update the documentation in Tool/mssdk.xml. SupportedSDKList = [ WindowsSDK('10.0', sanity_check_file=r'bin\SetEnv.Cmd', include_subdir='include', lib_subdir={ 'x86' : ['lib'], 'x86_64' : [r'lib\x64'], 'ia64' : [r'lib\ia64'], }, vc_setup_scripts = SDK70VCSetupScripts, ), WindowsSDK('7.1', sanity_check_file=r'bin\SetEnv.Cmd', include_subdir='include', lib_subdir={ 'x86' : ['lib'], 'x86_64' : [r'lib\x64'], 'ia64' : [r'lib\ia64'], }, vc_setup_scripts = SDK70VCSetupScripts, ), WindowsSDK('7.0A', sanity_check_file=r'bin\SetEnv.Cmd', include_subdir='include', lib_subdir={ 'x86' : ['lib'], 'x86_64' : [r'lib\x64'], 'ia64' : [r'lib\ia64'], }, vc_setup_scripts = SDK70VCSetupScripts, ), WindowsSDK('7.0', sanity_check_file=r'bin\SetEnv.Cmd', include_subdir='include', lib_subdir={ 'x86' : ['lib'], 'x86_64' : [r'lib\x64'], 'ia64' : [r'lib\ia64'], }, vc_setup_scripts = SDK70VCSetupScripts, ), WindowsSDK('6.1', sanity_check_file=r'bin\SetEnv.Cmd', include_subdir='include', lib_subdir={ 'x86' : ['lib'], 'x86_64' : [r'lib\x64'], 'ia64' : [r'lib\ia64'], }, vc_setup_scripts = SDK61VCSetupScripts, ), WindowsSDK('6.0A', sanity_check_file=r'include\windows.h', include_subdir='include', lib_subdir={ 'x86' : ['lib'], 'x86_64' : [r'lib\x64'], 'ia64' : [r'lib\ia64'], }, vc_setup_scripts = preSDK61VCSetupScripts, ), WindowsSDK('6.0', sanity_check_file=r'bin\gacutil.exe', include_subdir='include', lib_subdir='lib', vc_setup_scripts = preSDK61VCSetupScripts, ), PlatformSDK('2003R2', sanity_check_file=r'SetEnv.Cmd', uuid="D2FF9F89-8AA2-4373-8A31-C838BF4DBBE1", vc_setup_scripts = preSDK61VCSetupScripts, ), PlatformSDK('2003R1', sanity_check_file=r'SetEnv.Cmd', uuid="8F9E5EF3-A9A5-491B-A889-C58EFFECE8B3", vc_setup_scripts = preSDK61VCSetupScripts, ), ] SupportedSDKMap = {} for sdk in SupportedSDKList: SupportedSDKMap[sdk.version] = sdk # Finding installed SDKs isn't cheap, because it goes not only to the # registry but also to the disk to sanity-check that there is, in fact, # an SDK installed there and that the registry entry isn't just stale. # Find this information once, when requested, and cache it. InstalledSDKList = None InstalledSDKMap = None def get_installed_sdks(): global InstalledSDKList global InstalledSDKMap debug('sdk.py:get_installed_sdks()') if InstalledSDKList is None: InstalledSDKList = [] InstalledSDKMap = {} for sdk in SupportedSDKList: debug('MSCommon/sdk.py: trying to find SDK %s' % sdk.version) if sdk.get_sdk_dir(): debug('MSCommon/sdk.py:found SDK %s' % sdk.version) InstalledSDKList.append(sdk) InstalledSDKMap[sdk.version] = sdk return InstalledSDKList # We may be asked to update multiple construction environments with # SDK information. When doing this, we check on-disk for whether # the SDK has 'mfc' and 'atl' subdirectories. Since going to disk # is expensive, cache results by directory. SDKEnvironmentUpdates = {} def set_sdk_by_directory(env, sdk_dir): global SDKEnvironmentUpdates debug('set_sdk_by_directory: Using dir:%s'%sdk_dir) try: env_tuple_list = SDKEnvironmentUpdates[sdk_dir] except KeyError: env_tuple_list = [] SDKEnvironmentUpdates[sdk_dir] = env_tuple_list include_path = os.path.join(sdk_dir, 'include') mfc_path = os.path.join(include_path, 'mfc') atl_path = os.path.join(include_path, 'atl') if os.path.exists(mfc_path): env_tuple_list.append(('INCLUDE', mfc_path)) if os.path.exists(atl_path): env_tuple_list.append(('INCLUDE', atl_path)) env_tuple_list.append(('INCLUDE', include_path)) env_tuple_list.append(('LIB', os.path.join(sdk_dir, 'lib'))) env_tuple_list.append(('LIBPATH', os.path.join(sdk_dir, 'lib'))) env_tuple_list.append(('PATH', os.path.join(sdk_dir, 'bin'))) for variable, directory in env_tuple_list: env.PrependENVPath(variable, directory) def get_sdk_by_version(mssdk): if mssdk not in SupportedSDKMap: raise SCons.Errors.UserError("SDK version {} is not supported".format(repr(mssdk))) get_installed_sdks() return InstalledSDKMap.get(mssdk) def get_default_sdk(): """Set up the default Platform/Windows SDK.""" get_installed_sdks() if not InstalledSDKList: return None return InstalledSDKList[0] def mssdk_setup_env(env): debug('sdk.py:mssdk_setup_env()') if 'MSSDK_DIR' in env: sdk_dir = env['MSSDK_DIR'] if sdk_dir is None: return sdk_dir = env.subst(sdk_dir) debug('sdk.py:mssdk_setup_env: Using MSSDK_DIR:{}'.format(sdk_dir)) elif 'MSSDK_VERSION' in env: sdk_version = env['MSSDK_VERSION'] if sdk_version is None: msg = "SDK version is specified as None" raise SCons.Errors.UserError(msg) sdk_version = env.subst(sdk_version) mssdk = get_sdk_by_version(sdk_version) if mssdk is None: msg = "SDK version %s is not installed" % sdk_version raise SCons.Errors.UserError(msg) sdk_dir = mssdk.get_sdk_dir() debug('sdk.py:mssdk_setup_env: Using MSSDK_VERSION:%s'%sdk_dir) elif 'MSVS_VERSION' in env: msvs_version = env['MSVS_VERSION'] debug('sdk.py:mssdk_setup_env:Getting MSVS_VERSION from env:%s'%msvs_version) if msvs_version is None: debug('sdk.py:mssdk_setup_env thinks msvs_version is None') return msvs_version = env.subst(msvs_version) from . import vs msvs = vs.get_vs_by_version(msvs_version) debug('sdk.py:mssdk_setup_env:msvs is :%s'%msvs) if not msvs: debug('sdk.py:mssdk_setup_env: no VS version detected, bailingout:%s'%msvs) return sdk_version = msvs.sdk_version debug('sdk.py:msvs.sdk_version is %s'%sdk_version) if not sdk_version: return mssdk = get_sdk_by_version(sdk_version) if not mssdk: mssdk = get_default_sdk() if not mssdk: return sdk_dir = mssdk.get_sdk_dir() debug('sdk.py:mssdk_setup_env: Using MSVS_VERSION:%s'%sdk_dir) else: mssdk = get_default_sdk() if not mssdk: return sdk_dir = mssdk.get_sdk_dir() debug('sdk.py:mssdk_setup_env: not using any env values. sdk_dir:%s'%sdk_dir) set_sdk_by_directory(env, sdk_dir) #print "No MSVS_VERSION: this is likely to be a bug" def mssdk_exists(version=None): sdks = get_installed_sdks() if version is None: return len(sdks) > 0 return version in sdks # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/MSCommon/vs.py0000664000175000017500000005143013202656511022045 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/MSCommon/vs.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """Module to detect Visual Studio and/or Visual C/C++ """ import os import SCons.Errors import SCons.Util from .common import debug, \ get_output, \ is_win64, \ normalize_env, \ parse_output, \ read_reg import SCons.Tool.MSCommon.vc class VisualStudio(object): """ An abstract base class for trying to find installed versions of Visual Studio. """ def __init__(self, version, **kw): self.version = version kw['vc_version'] = kw.get('vc_version', version) kw['sdk_version'] = kw.get('sdk_version', version) self.__dict__.update(kw) self._cache = {} def find_batch_file(self): vs_dir = self.get_vs_dir() if not vs_dir: debug('find_executable(): no vs_dir') return None batch_file = os.path.join(vs_dir, self.batch_file_path) batch_file = os.path.normpath(batch_file) if not os.path.isfile(batch_file): debug('find_batch_file(): %s not on file system' % batch_file) return None return batch_file def find_vs_dir_by_vc(self): SCons.Tool.MSCommon.vc.get_installed_vcs() dir = SCons.Tool.MSCommon.vc.find_vc_pdir(self.vc_version) if not dir: debug('find_vs_dir(): no installed VC %s' % self.vc_version) return None return dir def find_vs_dir_by_reg(self): root = 'Software\\' if is_win64(): root = root + 'Wow6432Node\\' for key in self.hkeys: if key=='use_dir': return self.find_vs_dir_by_vc() key = root + key try: comps = read_reg(key) except SCons.Util.WinError as e: debug('find_vs_dir_by_reg(): no VS registry key {}'.format(repr(key))) else: debug('find_vs_dir_by_reg(): found VS in registry: {}'.format(comps)) return comps return None def find_vs_dir(self): """ Can use registry or location of VC to find vs dir First try to find by registry, and if that fails find via VC dir """ if True: vs_dir=self.find_vs_dir_by_reg() return vs_dir else: return self.find_vs_dir_by_vc() def find_executable(self): vs_dir = self.get_vs_dir() if not vs_dir: debug('find_executable(): no vs_dir ({})'.format(vs_dir)) return None executable = os.path.join(vs_dir, self.executable_path) executable = os.path.normpath(executable) if not os.path.isfile(executable): debug('find_executable(): {} not on file system'.format(executable)) return None return executable def get_batch_file(self): try: return self._cache['batch_file'] except KeyError: batch_file = self.find_batch_file() self._cache['batch_file'] = batch_file return batch_file def get_executable(self): try: debug('get_executable using cache:%s'%self._cache['executable']) return self._cache['executable'] except KeyError: executable = self.find_executable() self._cache['executable'] = executable debug('get_executable not in cache:%s'%executable) return executable def get_vs_dir(self): try: return self._cache['vs_dir'] except KeyError: vs_dir = self.find_vs_dir() self._cache['vs_dir'] = vs_dir return vs_dir def get_supported_arch(self): try: return self._cache['supported_arch'] except KeyError: # RDEVE: for the time being use hardcoded lists # supported_arch = self.find_supported_arch() self._cache['supported_arch'] = self.supported_arch return self.supported_arch def reset(self): self._cache = {} # The list of supported Visual Studio versions we know how to detect. # # How to look for .bat file ? # - VS 2008 Express (x86): # * from registry key productdir, gives the full path to vsvarsall.bat. In # HKEY_LOCAL_MACHINE): # Software\Microsoft\VCEpress\9.0\Setup\VC\productdir # * from environmnent variable VS90COMNTOOLS: the path is then ..\..\VC # relatively to the path given by the variable. # # - VS 2008 Express (WoW6432: 32 bits on windows x64): # Software\Wow6432Node\Microsoft\VCEpress\9.0\Setup\VC\productdir # # - VS 2005 Express (x86): # * from registry key productdir, gives the full path to vsvarsall.bat. In # HKEY_LOCAL_MACHINE): # Software\Microsoft\VCEpress\8.0\Setup\VC\productdir # * from environmnent variable VS80COMNTOOLS: the path is then ..\..\VC # relatively to the path given by the variable. # # - VS 2005 Express (WoW6432: 32 bits on windows x64): does not seem to have a # productdir ? # # - VS 2003 .Net (pro edition ? x86): # * from registry key productdir. The path is then ..\Common7\Tools\ # relatively to the key. The key is in HKEY_LOCAL_MACHINE): # Software\Microsoft\VisualStudio\7.1\Setup\VC\productdir # * from environmnent variable VS71COMNTOOLS: the path is the full path to # vsvars32.bat # # - VS 98 (VS 6): # * from registry key productdir. The path is then Bin # relatively to the key. The key is in HKEY_LOCAL_MACHINE): # Software\Microsoft\VisualStudio\6.0\Setup\VC98\productdir # # The first version found in the list is the one used by default if # there are multiple versions installed. Barring good reasons to # the contrary, this means we should list versions from most recent # to oldest. Pro versions get listed before Express versions on the # assumption that, by default, you'd rather use the version you paid # good money for in preference to whatever Microsoft makes available # for free. # # If you update this list, update _VCVER and _VCVER_TO_PRODUCT_DIR in # Tool/MSCommon/vc.py, and the MSVC_VERSION documentation in Tool/msvc.xml. SupportedVSList = [ # Visual Studio 2017 VisualStudio('14.1', vc_version='14.1', sdk_version='10.0A', hkeys=[], common_tools_var='VS150COMNTOOLS', executable_path=r'Common7\IDE\devenv.com', batch_file_path=r'VC\Auxiliary\Build\vsvars32.bat', supported_arch=['x86', 'amd64', "arm"], ), # Visual Studio 2015 VisualStudio('14.0', vc_version='14.0', sdk_version='10.0', hkeys=[r'Microsoft\VisualStudio\14.0\Setup\VS\ProductDir'], common_tools_var='VS140COMNTOOLS', executable_path=r'Common7\IDE\devenv.com', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86', 'amd64', "arm"], ), # Visual C++ 2015 Express Edition (for Desktop) VisualStudio('14.0Exp', vc_version='14.0', sdk_version='10.0A', hkeys=[r'Microsoft\VisualStudio\14.0\Setup\VS\ProductDir'], common_tools_var='VS140COMNTOOLS', executable_path=r'Common7\IDE\WDExpress.exe', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86', 'amd64', "arm"], ), # Visual Studio 2013 VisualStudio('12.0', vc_version='12.0', sdk_version='8.1A', hkeys=[r'Microsoft\VisualStudio\12.0\Setup\VS\ProductDir'], common_tools_var='VS120COMNTOOLS', executable_path=r'Common7\IDE\devenv.com', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86', 'amd64'], ), # Visual C++ 2013 Express Edition (for Desktop) VisualStudio('12.0Exp', vc_version='12.0', sdk_version='8.1A', hkeys=[r'Microsoft\VisualStudio\12.0\Setup\VS\ProductDir'], common_tools_var='VS120COMNTOOLS', executable_path=r'Common7\IDE\WDExpress.exe', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86', 'amd64'], ), # Visual Studio 2012 VisualStudio('11.0', sdk_version='8.0A', hkeys=[r'Microsoft\VisualStudio\11.0\Setup\VS\ProductDir'], common_tools_var='VS110COMNTOOLS', executable_path=r'Common7\IDE\devenv.com', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86', 'amd64'], ), # Visual C++ 2012 Express Edition (for Desktop) VisualStudio('11.0Exp', vc_version='11.0', sdk_version='8.0A', hkeys=[r'Microsoft\VisualStudio\11.0\Setup\VS\ProductDir'], common_tools_var='VS110COMNTOOLS', executable_path=r'Common7\IDE\WDExpress.exe', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86', 'amd64'], ), # Visual Studio 2010 VisualStudio('10.0', sdk_version='7.0A', hkeys=[r'Microsoft\VisualStudio\10.0\Setup\VS\ProductDir'], common_tools_var='VS100COMNTOOLS', executable_path=r'Common7\IDE\devenv.com', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86', 'amd64'], ), # Visual C++ 2010 Express Edition VisualStudio('10.0Exp', vc_version='10.0', sdk_version='7.0A', hkeys=[r'Microsoft\VCExpress\10.0\Setup\VS\ProductDir'], common_tools_var='VS100COMNTOOLS', executable_path=r'Common7\IDE\VCExpress.exe', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86'], ), # Visual Studio 2008 VisualStudio('9.0', sdk_version='6.0A', hkeys=[r'Microsoft\VisualStudio\9.0\Setup\VS\ProductDir'], common_tools_var='VS90COMNTOOLS', executable_path=r'Common7\IDE\devenv.com', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86', 'amd64'], ), # Visual C++ 2008 Express Edition VisualStudio('9.0Exp', vc_version='9.0', sdk_version='6.0A', hkeys=[r'Microsoft\VCExpress\9.0\Setup\VS\ProductDir'], common_tools_var='VS90COMNTOOLS', executable_path=r'Common7\IDE\VCExpress.exe', batch_file_path=r'Common7\Tools\vsvars32.bat', supported_arch=['x86'], ), # Visual Studio 2005 VisualStudio('8.0', sdk_version='6.0A', hkeys=[r'Microsoft\VisualStudio\8.0\Setup\VS\ProductDir'], common_tools_var='VS80COMNTOOLS', executable_path=r'Common7\IDE\devenv.com', batch_file_path=r'Common7\Tools\vsvars32.bat', default_dirname='Microsoft Visual Studio 8', supported_arch=['x86', 'amd64'], ), # Visual C++ 2005 Express Edition VisualStudio('8.0Exp', vc_version='8.0Exp', sdk_version='6.0A', hkeys=[r'Microsoft\VCExpress\8.0\Setup\VS\ProductDir'], common_tools_var='VS80COMNTOOLS', executable_path=r'Common7\IDE\VCExpress.exe', batch_file_path=r'Common7\Tools\vsvars32.bat', default_dirname='Microsoft Visual Studio 8', supported_arch=['x86'], ), # Visual Studio .NET 2003 VisualStudio('7.1', sdk_version='6.0', hkeys=[r'Microsoft\VisualStudio\7.1\Setup\VS\ProductDir'], common_tools_var='VS71COMNTOOLS', executable_path=r'Common7\IDE\devenv.com', batch_file_path=r'Common7\Tools\vsvars32.bat', default_dirname='Microsoft Visual Studio .NET 2003', supported_arch=['x86'], ), # Visual Studio .NET VisualStudio('7.0', sdk_version='2003R2', hkeys=[r'Microsoft\VisualStudio\7.0\Setup\VS\ProductDir'], common_tools_var='VS70COMNTOOLS', executable_path=r'IDE\devenv.com', batch_file_path=r'Common7\Tools\vsvars32.bat', default_dirname='Microsoft Visual Studio .NET', supported_arch=['x86'], ), # Visual Studio 6.0 VisualStudio('6.0', sdk_version='2003R1', hkeys=[r'Microsoft\VisualStudio\6.0\Setup\Microsoft Visual Studio\ProductDir', 'use_dir'], common_tools_var='VS60COMNTOOLS', executable_path=r'Common\MSDev98\Bin\MSDEV.COM', batch_file_path=r'Common7\Tools\vsvars32.bat', default_dirname='Microsoft Visual Studio', supported_arch=['x86'], ), ] SupportedVSMap = {} for vs in SupportedVSList: SupportedVSMap[vs.version] = vs # Finding installed versions of Visual Studio isn't cheap, because it # goes not only to the registry but also to the disk to sanity-check # that there is, in fact, a Visual Studio directory there and that the # registry entry isn't just stale. Find this information once, when # requested, and cache it. InstalledVSList = None InstalledVSMap = None def get_installed_visual_studios(): global InstalledVSList global InstalledVSMap if InstalledVSList is None: InstalledVSList = [] InstalledVSMap = {} for vs in SupportedVSList: debug('trying to find VS %s' % vs.version) if vs.get_executable(): debug('found VS %s' % vs.version) InstalledVSList.append(vs) InstalledVSMap[vs.version] = vs return InstalledVSList def reset_installed_visual_studios(): global InstalledVSList global InstalledVSMap InstalledVSList = None InstalledVSMap = None for vs in SupportedVSList: vs.reset() # Need to clear installed VC's as well as they are used in finding # installed VS's SCons.Tool.MSCommon.vc.reset_installed_vcs() # We may be asked to update multiple construction environments with # SDK information. When doing this, we check on-disk for whether # the SDK has 'mfc' and 'atl' subdirectories. Since going to disk # is expensive, cache results by directory. #SDKEnvironmentUpdates = {} # #def set_sdk_by_directory(env, sdk_dir): # global SDKEnvironmentUpdates # try: # env_tuple_list = SDKEnvironmentUpdates[sdk_dir] # except KeyError: # env_tuple_list = [] # SDKEnvironmentUpdates[sdk_dir] = env_tuple_list # # include_path = os.path.join(sdk_dir, 'include') # mfc_path = os.path.join(include_path, 'mfc') # atl_path = os.path.join(include_path, 'atl') # # if os.path.exists(mfc_path): # env_tuple_list.append(('INCLUDE', mfc_path)) # if os.path.exists(atl_path): # env_tuple_list.append(('INCLUDE', atl_path)) # env_tuple_list.append(('INCLUDE', include_path)) # # env_tuple_list.append(('LIB', os.path.join(sdk_dir, 'lib'))) # env_tuple_list.append(('LIBPATH', os.path.join(sdk_dir, 'lib'))) # env_tuple_list.append(('PATH', os.path.join(sdk_dir, 'bin'))) # # for variable, directory in env_tuple_list: # env.PrependENVPath(variable, directory) def msvs_exists(): return (len(get_installed_visual_studios()) > 0) def get_vs_by_version(msvs): global InstalledVSMap global SupportedVSMap debug('vs.py:get_vs_by_version()') if msvs not in SupportedVSMap: msg = "Visual Studio version %s is not supported" % repr(msvs) raise SCons.Errors.UserError(msg) get_installed_visual_studios() vs = InstalledVSMap.get(msvs) debug('InstalledVSMap:%s'%InstalledVSMap) debug('vs.py:get_vs_by_version: found vs:%s'%vs) # Some check like this would let us provide a useful error message # if they try to set a Visual Studio version that's not installed. # However, we also want to be able to run tests (like the unit # tests) on systems that don't, or won't ever, have it installed. # It might be worth resurrecting this, with some configurable # setting that the tests can use to bypass the check. #if not vs: # msg = "Visual Studio version %s is not installed" % repr(msvs) # raise SCons.Errors.UserError, msg return vs def get_default_version(env): """Returns the default version string to use for MSVS. If no version was requested by the user through the MSVS environment variable, query all the available visual studios through get_installed_visual_studios, and take the highest one. Return ------ version: str the default version. """ if 'MSVS' not in env or not SCons.Util.is_Dict(env['MSVS']): # get all versions, and remember them for speed later versions = [vs.version for vs in get_installed_visual_studios()] env['MSVS'] = {'VERSIONS' : versions} else: versions = env['MSVS'].get('VERSIONS', []) if 'MSVS_VERSION' not in env: if versions: env['MSVS_VERSION'] = versions[0] #use highest version by default else: debug('get_default_version: WARNING: no installed versions found, ' 'using first in SupportedVSList (%s)'%SupportedVSList[0].version) env['MSVS_VERSION'] = SupportedVSList[0].version env['MSVS']['VERSION'] = env['MSVS_VERSION'] return env['MSVS_VERSION'] def get_default_arch(env): """Return the default arch to use for MSVS if no version was requested by the user through the MSVS_ARCH environment variable, select x86 Return ------ arch: str """ arch = env.get('MSVS_ARCH', 'x86') msvs = InstalledVSMap.get(env['MSVS_VERSION']) if not msvs: arch = 'x86' elif not arch in msvs.get_supported_arch(): fmt = "Visual Studio version %s does not support architecture %s" raise SCons.Errors.UserError(fmt % (env['MSVS_VERSION'], arch)) return arch def merge_default_version(env): version = get_default_version(env) arch = get_default_arch(env) def msvs_setup_env(env): batfilename = msvs.get_batch_file() msvs = get_vs_by_version(version) if msvs is None: return # XXX: I think this is broken. This will silently set a bogus tool instead # of failing, but there is no other way with the current scons tool # framework if batfilename is not None: vars = ('LIB', 'LIBPATH', 'PATH', 'INCLUDE') msvs_list = get_installed_visual_studios() vscommonvarnames = [vs.common_tools_var for vs in msvs_list] save_ENV = env['ENV'] nenv = normalize_env(env['ENV'], ['COMSPEC'] + vscommonvarnames, force=True) try: output = get_output(batfilename, arch, env=nenv) finally: env['ENV'] = save_ENV vars = parse_output(output, vars) for k, v in vars.items(): env.PrependENVPath(k, v, delete_existing=1) def query_versions(): """Query the system to get available versions of VS. A version is considered when a batfile is found.""" msvs_list = get_installed_visual_studios() versions = [msvs.version for msvs in msvs_list] return versions # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/MSCommon/__init__.py0000664000175000017500000000415113202656511023152 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/MSCommon/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """ Common functions for Microsoft Visual Studio and Visual C/C++. """ import copy import os import re import subprocess import SCons.Errors import SCons.Platform.win32 import SCons.Util from SCons.Tool.MSCommon.sdk import mssdk_exists, \ mssdk_setup_env from SCons.Tool.MSCommon.vc import msvc_exists, \ msvc_setup_env, \ msvc_setup_env_once, \ msvc_version_to_maj_min from SCons.Tool.MSCommon.vs import get_default_version, \ get_vs_by_version, \ merge_default_version, \ msvs_exists, \ query_versions # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/gfortran.py0000664000175000017500000000441113202656511021544 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.gfortran Tool-specific initialization for gfortran, the GNU Fortran 95/Fortran 2003 compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/gfortran.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util from . import fortran def generate(env): """Add Builders and construction variables for gfortran to an Environment.""" fortran.generate(env) for dialect in ['F77', 'F90', 'FORTRAN', 'F95', 'F03', 'F08']: env['%s' % dialect] = 'gfortran' env['SH%s' % dialect] = '$%s' % dialect if env['PLATFORM'] in ['cygwin', 'win32']: env['SH%sFLAGS' % dialect] = SCons.Util.CLVar('$%sFLAGS' % dialect) else: env['SH%sFLAGS' % dialect] = SCons.Util.CLVar('$%sFLAGS -fPIC' % dialect) env['INC%sPREFIX' % dialect] = "-I" env['INC%sSUFFIX' % dialect] = "" def exists(env): return env.Detect('gfortran') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/mslib.py0000664000175000017500000000426013202656512021033 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.mslib Tool-specific initialization for lib (MicroSoft library archiver). There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/mslib.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Tool.msvs import SCons.Tool.msvc import SCons.Util from .MSCommon import msvc_exists, msvc_setup_env_once def generate(env): """Add Builders and construction variables for lib to an Environment.""" SCons.Tool.createStaticLibBuilder(env) # Set-up ms tools paths msvc_setup_env_once(env) env['AR'] = 'lib' env['ARFLAGS'] = SCons.Util.CLVar('/nologo') env['ARCOM'] = "${TEMPFILE('$AR $ARFLAGS /OUT:$TARGET $SOURCES','$ARCOMSTR')}" env['LIBPREFIX'] = '' env['LIBSUFFIX'] = '.lib' def exists(env): return msvc_exists() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/nasm.py0000664000175000017500000000514513202656512020666 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.nasm Tool-specific initialization for nasm, the famous Netwide Assembler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/nasm.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util ASSuffixes = ['.s', '.asm', '.ASM'] ASPPSuffixes = ['.spp', '.SPP', '.sx'] if SCons.Util.case_sensitive_suffixes('.s', '.S'): ASPPSuffixes.extend(['.S']) else: ASSuffixes.extend(['.S']) def generate(env): """Add Builders and construction variables for nasm to an Environment.""" static_obj, shared_obj = SCons.Tool.createObjBuilders(env) for suffix in ASSuffixes: static_obj.add_action(suffix, SCons.Defaults.ASAction) static_obj.add_emitter(suffix, SCons.Defaults.StaticObjectEmitter) for suffix in ASPPSuffixes: static_obj.add_action(suffix, SCons.Defaults.ASPPAction) static_obj.add_emitter(suffix, SCons.Defaults.StaticObjectEmitter) env['AS'] = 'nasm' env['ASFLAGS'] = SCons.Util.CLVar('') env['ASPPFLAGS'] = '$ASFLAGS' env['ASCOM'] = '$AS $ASFLAGS -o $TARGET $SOURCES' env['ASPPCOM'] = '$CC $ASPPFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS -c -o $TARGET $SOURCES' def exists(env): return env.Detect('nasm') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/c++.py0000664000175000017500000000316613202656511020300 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.c++ Tool-specific initialization for generic Posix C++ compilers. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/c++.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" #forward proxy to the preffered cxx version from SCons.Tool.cxx import * # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/msginit.py0000664000175000017500000001113213202656512021373 0ustar bdbaddogbdbaddog00000000000000""" msginit tool Tool specific initialization of msginit tool. """ # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/msginit.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Warnings import SCons.Builder import re ############################################################################# def _optional_no_translator_flag(env): """ Return '--no-translator' flag if we run *msginit(1)* in non-interactive mode.""" import SCons.Util if 'POAUTOINIT' in env: autoinit = env['POAUTOINIT'] else: autoinit = False if autoinit: return [SCons.Util.CLVar('--no-translator')] else: return [SCons.Util.CLVar('')] ############################################################################# ############################################################################# def _POInitBuilder(env, **kw): """ Create builder object for `POInit` builder. """ import SCons.Action from SCons.Tool.GettextCommon import _init_po_files, _POFileBuilder action = SCons.Action.Action(_init_po_files, None) return _POFileBuilder(env, action=action, target_alias='$POCREATE_ALIAS') ############################################################################# ############################################################################# from SCons.Environment import _null ############################################################################# def _POInitBuilderWrapper(env, target=None, source=_null, **kw): """ Wrapper for _POFileBuilder. We use it to make user's life easier. This wrapper checks for `$POTDOMAIN` construction variable (or override in `**kw`) and treats it appropriatelly. """ if source is _null: if 'POTDOMAIN' in kw: domain = kw['POTDOMAIN'] elif 'POTDOMAIN' in env: domain = env['POTDOMAIN'] else: domain = 'messages' source = [ domain ] # NOTE: Suffix shall be appended automatically return env._POInitBuilder(target, source, **kw) ############################################################################# ############################################################################# def generate(env,**kw): """ Generate the `msginit` tool """ import SCons.Util from SCons.Tool.GettextCommon import _detect_msginit try: env['MSGINIT'] = _detect_msginit(env) except: env['MSGINIT'] = 'msginit' msginitcom = '$MSGINIT ${_MSGNoTranslator(__env__)} -l ${_MSGINITLOCALE}' \ + ' $MSGINITFLAGS -i $SOURCE -o $TARGET' # NOTE: We set POTSUFFIX here, in case the 'xgettext' is not loaded # (sometimes we really don't need it) env.SetDefault( POSUFFIX = ['.po'], POTSUFFIX = ['.pot'], _MSGINITLOCALE = '${TARGET.filebase}', _MSGNoTranslator = _optional_no_translator_flag, MSGINITCOM = msginitcom, MSGINITCOMSTR = '', MSGINITFLAGS = [ ], POAUTOINIT = False, POCREATE_ALIAS = 'po-create' ) env.Append( BUILDERS = { '_POInitBuilder' : _POInitBuilder(env) } ) env.AddMethod(_POInitBuilderWrapper, 'POInit') env.AlwaysBuild(env.Alias('$POCREATE_ALIAS')) ############################################################################# ############################################################################# def exists(env): """ Check if the tool exists """ from SCons.Tool.GettextCommon import _msginit_exists try: return _msginit_exists(env) except: return False ############################################################################# # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/rmic.py0000664000175000017500000001050213202656512020653 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.rmic Tool-specific initialization for rmic. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/rmic.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Action import SCons.Builder import SCons.Node.FS import SCons.Util def emit_rmic_classes(target, source, env): """Create and return lists of Java RMI stub and skeleton class files to be created from a set of class files. """ class_suffix = env.get('JAVACLASSSUFFIX', '.class') classdir = env.get('JAVACLASSDIR') if not classdir: try: s = source[0] except IndexError: classdir = '.' else: try: classdir = s.attributes.java_classdir except AttributeError: classdir = '.' classdir = env.Dir(classdir).rdir() if str(classdir) == '.': c_ = None else: c_ = str(classdir) + os.sep slist = [] for src in source: try: classname = src.attributes.java_classname except AttributeError: classname = str(src) if c_ and classname[:len(c_)] == c_: classname = classname[len(c_):] if class_suffix and classname[:-len(class_suffix)] == class_suffix: classname = classname[-len(class_suffix):] s = src.rfile() s.attributes.java_classdir = classdir s.attributes.java_classname = classname slist.append(s) stub_suffixes = ['_Stub'] if env.get('JAVAVERSION') == '1.4': stub_suffixes.append('_Skel') tlist = [] for s in source: for suff in stub_suffixes: fname = s.attributes.java_classname.replace('.', os.sep) + \ suff + class_suffix t = target[0].File(fname) t.attributes.java_lookupdir = target[0] tlist.append(t) return tlist, source RMICAction = SCons.Action.Action('$RMICCOM', '$RMICCOMSTR') RMICBuilder = SCons.Builder.Builder(action = RMICAction, emitter = emit_rmic_classes, src_suffix = '$JAVACLASSSUFFIX', target_factory = SCons.Node.FS.Dir, source_factory = SCons.Node.FS.File) def generate(env): """Add Builders and construction variables for rmic to an Environment.""" env['BUILDERS']['RMIC'] = RMICBuilder env['RMIC'] = 'rmic' env['RMICFLAGS'] = SCons.Util.CLVar('') env['RMICCOM'] = '$RMIC $RMICFLAGS -d ${TARGET.attributes.java_lookupdir} -classpath ${SOURCE.attributes.java_classdir} ${SOURCES.attributes.java_classname}' env['JAVACLASSSUFFIX'] = '.class' def exists(env): # As reported by Jan Nijtmans in issue #2730, the simple # return env.Detect('rmic') # doesn't always work during initialization. For now, we # stop trying to detect an executable (analogous to the # javac Builder). # TODO: Come up with a proper detect() routine...and enable it. return 1 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/mwcc.py0000664000175000017500000001534413202656512020663 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.mwcc Tool-specific initialization for the Metrowerks CodeWarrior compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/mwcc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import SCons.Util def set_vars(env): """Set MWCW_VERSION, MWCW_VERSIONS, and some codewarrior environment vars MWCW_VERSIONS is set to a list of objects representing installed versions MWCW_VERSION is set to the version object that will be used for building. MWCW_VERSION can be set to a string during Environment construction to influence which version is chosen, otherwise the latest one from MWCW_VERSIONS is used. Returns true if at least one version is found, false otherwise """ desired = env.get('MWCW_VERSION', '') # return right away if the variables are already set if isinstance(desired, MWVersion): return 1 elif desired is None: return 0 versions = find_versions() version = None if desired: for v in versions: if str(v) == desired: version = v elif versions: version = versions[-1] env['MWCW_VERSIONS'] = versions env['MWCW_VERSION'] = version if version is None: return 0 env.PrependENVPath('PATH', version.clpath) env.PrependENVPath('PATH', version.dllpath) ENV = env['ENV'] ENV['CWFolder'] = version.path ENV['LM_LICENSE_FILE'] = version.license plus = lambda x: '+%s' % x ENV['MWCIncludes'] = os.pathsep.join(map(plus, version.includes)) ENV['MWLibraries'] = os.pathsep.join(map(plus, version.libs)) return 1 def find_versions(): """Return a list of MWVersion objects representing installed versions""" versions = [] ### This function finds CodeWarrior by reading from the registry on ### Windows. Some other method needs to be implemented for other ### platforms, maybe something that calls env.WhereIs('mwcc') if SCons.Util.can_read_reg: try: HLM = SCons.Util.HKEY_LOCAL_MACHINE product = 'SOFTWARE\\Metrowerks\\CodeWarrior\\Product Versions' product_key = SCons.Util.RegOpenKeyEx(HLM, product) i = 0 while True: name = product + '\\' + SCons.Util.RegEnumKey(product_key, i) name_key = SCons.Util.RegOpenKeyEx(HLM, name) try: version = SCons.Util.RegQueryValueEx(name_key, 'VERSION') path = SCons.Util.RegQueryValueEx(name_key, 'PATH') mwv = MWVersion(version[0], path[0], 'Win32-X86') versions.append(mwv) except SCons.Util.RegError: pass i = i + 1 except SCons.Util.RegError: pass return versions class MWVersion(object): def __init__(self, version, path, platform): self.version = version self.path = path self.platform = platform self.clpath = os.path.join(path, 'Other Metrowerks Tools', 'Command Line Tools') self.dllpath = os.path.join(path, 'Bin') # The Metrowerks tools don't store any configuration data so they # are totally dumb when it comes to locating standard headers, # libraries, and other files, expecting all the information # to be handed to them in environment variables. The members set # below control what information scons injects into the environment ### The paths below give a normal build environment in CodeWarrior for ### Windows, other versions of CodeWarrior might need different paths. msl = os.path.join(path, 'MSL') support = os.path.join(path, '%s Support' % platform) self.license = os.path.join(path, 'license.dat') self.includes = [msl, support] self.libs = [msl, support] def __str__(self): return self.version CSuffixes = ['.c', '.C'] CXXSuffixes = ['.cc', '.cpp', '.cxx', '.c++', '.C++'] def generate(env): """Add Builders and construction variables for the mwcc to an Environment.""" import SCons.Defaults import SCons.Tool set_vars(env) static_obj, shared_obj = SCons.Tool.createObjBuilders(env) for suffix in CSuffixes: static_obj.add_action(suffix, SCons.Defaults.CAction) shared_obj.add_action(suffix, SCons.Defaults.ShCAction) for suffix in CXXSuffixes: static_obj.add_action(suffix, SCons.Defaults.CXXAction) shared_obj.add_action(suffix, SCons.Defaults.ShCXXAction) env['CCCOMFLAGS'] = '$CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS -nolink -o $TARGET $SOURCES' env['CC'] = 'mwcc' env['CCCOM'] = '$CC $CFLAGS $CCFLAGS $CCCOMFLAGS' env['CXX'] = 'mwcc' env['CXXCOM'] = '$CXX $CXXFLAGS $CCCOMFLAGS' env['SHCC'] = '$CC' env['SHCCFLAGS'] = '$CCFLAGS' env['SHCFLAGS'] = '$CFLAGS' env['SHCCCOM'] = '$SHCC $SHCFLAGS $SHCCFLAGS $CCCOMFLAGS' env['SHCXX'] = '$CXX' env['SHCXXFLAGS'] = '$CXXFLAGS' env['SHCXXCOM'] = '$SHCXX $SHCXXFLAGS $CCCOMFLAGS' env['CFILESUFFIX'] = '.c' env['CXXFILESUFFIX'] = '.cpp' env['CPPDEFPREFIX'] = '-D' env['CPPDEFSUFFIX'] = '' env['INCPREFIX'] = '-I' env['INCSUFFIX'] = '' #env['PCH'] = ? #env['PCHSTOP'] = ? def exists(env): return set_vars(env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/ipkg.py0000664000175000017500000000475213202656511020664 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.ipkg Tool-specific initialization for ipkg. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. The ipkg tool calls the ipkg-build. Its only argument should be the packages fake_root. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/ipkg.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import SCons.Builder def generate(env): """Add Builders and construction variables for ipkg to an Environment.""" try: bld = env['BUILDERS']['Ipkg'] except KeyError: bld = SCons.Builder.Builder(action='$IPKGCOM', suffix='$IPKGSUFFIX', source_scanner=None, target_scanner=None) env['BUILDERS']['Ipkg'] = bld env['IPKG'] = 'ipkg-build' env['IPKGCOM'] = '$IPKG $IPKGFLAGS ${SOURCE}' if env.WhereIs('id'): env['IPKGUSER'] = os.popen('id -un').read().strip() env['IPKGGROUP'] = os.popen('id -gn').read().strip() env['IPKGFLAGS'] = SCons.Util.CLVar('-o $IPKGUSER -g $IPKGGROUP') env['IPKGSUFFIX'] = '.ipk' def exists(env): """ Can we find the tool """ return env.Detect('ipkg-build') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/cyglink.py0000664000175000017500000002045513202656511021370 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.cyglink Customization of gnulink for Cygwin (http://www.cygwin.com/) There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ from __future__ import absolute_import, print_function import re import os import SCons.Action import SCons.Util import SCons.Tool #MAYBE: from . import gnulink from . import gnulink from . import link def _lib_generator(target, source, env, for_signature, **kw): try: cmd = kw['cmd'] except KeyError: cmd = SCons.Util.CLVar(['$SHLINK']) try: vp = kw['varprefix'] except KeyError: vp = 'SHLIB' dll = env.FindIxes(target, '%sPREFIX' % vp, '%sSUFFIX' % vp) if dll: cmd.extend(['-o', dll]) cmd.extend(['$SHLINKFLAGS', '$__%sVERSIONFLAGS' % vp, '$__RPATH']) implib = env.FindIxes(target, 'IMPLIBPREFIX', 'IMPLIBSUFFIX') if implib: cmd.extend([ '-Wl,--out-implib='+implib.get_string(for_signature), '-Wl,--export-all-symbols', '-Wl,--enable-auto-import', '-Wl,--whole-archive', '$SOURCES', '-Wl,--no-whole-archive', '$_LIBDIRFLAGS', '$_LIBFLAGS' ]) else: cmd.extend(['$SOURCES', '$_LIBDIRFLAGS', '$_LIBFLAGS']) return [cmd] def shlib_generator(target, source, env, for_signature): return _lib_generator(target, source, env, for_signature, varprefix='SHLIB', cmd = SCons.Util.CLVar(['$SHLINK'])) def ldmod_generator(target, source, env, for_signature): return _lib_generator(target, source, env, for_signature, varprefix='LDMODULE', cmd = SCons.Util.CLVar(['$LDMODULE'])) def _lib_emitter(target, source, env, **kw): Verbose = False if Verbose: print("_lib_emitter: target[0]=%r" % target[0].get_path()) try: vp = kw['varprefix'] except KeyError: vp = 'SHLIB' try: libtype = kw['libtype'] except KeyError: libtype = 'ShLib' dll = env.FindIxes(target, '%sPREFIX' % vp, '%sSUFFIX' % vp) no_import_lib = env.get('no_import_lib', 0) if Verbose: print("_lib_emitter: dll=%r" % dll.get_path()) if not dll or len(target) > 1: raise SCons.Errors.UserError("A shared library should have exactly one target with the suffix: %s" % env.subst("$%sSUFFIX" % vp)) # Remove any "lib" after the prefix pre = env.subst('$%sPREFIX' % vp) if dll.name[len(pre):len(pre)+3] == 'lib': dll.name = pre + dll.name[len(pre)+3:] if Verbose: print("_lib_emitter: dll.name=%r" % dll.name) orig_target = target target = [env.fs.File(dll)] target[0].attributes.shared = 1 if Verbose: print("_lib_emitter: after target=[env.fs.File(dll)]: target[0]=%r" % target[0].get_path()) # Append an import lib target if not no_import_lib: # Create list of target libraries as strings target_strings = env.ReplaceIxes(orig_target[0], '%sPREFIX' % vp, '%sSUFFIX' % vp, 'IMPLIBPREFIX', 'IMPLIBSUFFIX') if Verbose: print("_lib_emitter: target_strings=%r" % target_strings) implib_target = env.fs.File(target_strings) if Verbose: print("_lib_emitter: implib_target=%r" % implib_target.get_path()) implib_target.attributes.shared = 1 target.append(implib_target) symlinks = SCons.Tool.ImpLibSymlinkGenerator(env, implib_target, implib_libtype=libtype, generator_libtype=libtype+'ImpLib') if Verbose: print("_lib_emitter: implib symlinks=%r" % SCons.Tool.StringizeLibSymlinks(symlinks)) if symlinks: SCons.Tool.EmitLibSymlinks(env, symlinks, implib_target, clean_targets = target[0]) implib_target.attributes.shliblinks = symlinks return (target, source) def shlib_emitter(target, source, env): return _lib_emitter(target, source, env, varprefix='SHLIB', libtype='ShLib') def ldmod_emitter(target, source, env): return _lib_emitter(target, source, env, varprefix='LDMODULE', libtype='LdMod') def _versioned_lib_suffix(env, suffix, version): """Generate versioned shared library suffix from a unversioned one. If suffix='.dll', and version='0.1.2', then it returns '-0-1-2.dll'""" Verbose = False if Verbose: print("_versioned_lib_suffix: suffix= ", suffix) print("_versioned_lib_suffix: version= ", version) cygversion = re.sub('\.', '-', version) if not suffix.startswith('-' + cygversion): suffix = '-' + cygversion + suffix if Verbose: print("_versioned_lib_suffix: return suffix= ", suffix) return suffix def _versioned_implib_name(env, libnode, version, prefix, suffix, **kw): return link._versioned_lib_name(env, libnode, version, prefix, suffix, SCons.Tool.ImpLibPrefixGenerator, SCons.Tool.ImpLibSuffixGenerator, implib_libtype=kw['libtype']) def _versioned_implib_symlinks(env, libnode, version, prefix, suffix, **kw): """Generate link names that should be created for a versioned shared library. Returns a list in the form [ (link, linktarget), ... ] """ Verbose = False if Verbose: print("_versioned_implib_symlinks: libnode=%r" % libnode.get_path()) print("_versioned_implib_symlinks: version=%r" % version) try: libtype = kw['libtype'] except KeyError: libtype = 'ShLib' linkdir = os.path.dirname(libnode.get_path()) if Verbose: print("_versioned_implib_symlinks: linkdir=%r" % linkdir) name = SCons.Tool.ImpLibNameGenerator(env, libnode, implib_libtype=libtype, generator_libtype=libtype+'ImpLib') if Verbose: print("_versioned_implib_symlinks: name=%r" % name) major = version.split('.')[0] link0 = env.fs.File(os.path.join(linkdir, name)) symlinks = [(link0, libnode)] if Verbose: print("_versioned_implib_symlinks: return symlinks=%r" % SCons.Tool.StringizeLibSymlinks(symlinks)) return symlinks shlib_action = SCons.Action.Action(shlib_generator, generator=1) ldmod_action = SCons.Action.Action(ldmod_generator, generator=1) def generate(env): """Add Builders and construction variables for cyglink to an Environment.""" gnulink.generate(env) env['LINKFLAGS'] = SCons.Util.CLVar('-Wl,-no-undefined') env['SHLINKCOM'] = shlib_action env['LDMODULECOM'] = ldmod_action env.Append(SHLIBEMITTER = [shlib_emitter]) env.Append(LDMODULEEMITTER = [ldmod_emitter]) env['SHLIBPREFIX'] = 'cyg' env['SHLIBSUFFIX'] = '.dll' env['IMPLIBPREFIX'] = 'lib' env['IMPLIBSUFFIX'] = '.dll.a' # Variables used by versioned shared libraries env['_SHLIBVERSIONFLAGS'] = '$SHLIBVERSIONFLAGS' env['_LDMODULEVERSIONFLAGS'] = '$LDMODULEVERSIONFLAGS' # SHLIBVERSIONFLAGS and LDMODULEVERSIONFLAGS are same as in gnulink... # LINKCALLBACKS are NOT inherited from gnulink env['LINKCALLBACKS'] = { 'VersionedShLibSuffix' : _versioned_lib_suffix, 'VersionedLdModSuffix' : _versioned_lib_suffix, 'VersionedImpLibSuffix' : _versioned_lib_suffix, 'VersionedShLibName' : link._versioned_shlib_name, 'VersionedLdModName' : link._versioned_ldmod_name, 'VersionedShLibImpLibName' : lambda *args: _versioned_implib_name(*args, libtype='ShLib'), 'VersionedLdModImpLibName' : lambda *args: _versioned_implib_name(*args, libtype='LdMod'), 'VersionedShLibImpLibSymlinks' : lambda *args: _versioned_implib_symlinks(*args, libtype='ShLib'), 'VersionedLdModImpLibSymlinks' : lambda *args: _versioned_implib_symlinks(*args, libtype='LdMod'), } # these variables were set by gnulink but are not used in cyglink try: del env['_SHLIBSONAME'] except KeyError: pass try: del env['_LDMODULESONAME'] except KeyError: pass def exists(env): return gnulink.exists(env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/mssdk.py0000664000175000017500000000347013202656512021050 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/mssdk.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" """engine.SCons.Tool.mssdk Tool-specific initialization for Microsoft SDKs, both Platform SDKs and Windows SDKs. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ from .MSCommon import mssdk_exists, \ mssdk_setup_env def generate(env): """Add construction variables for an MS SDK to an Environment.""" mssdk_setup_env(env) def exists(env): return mssdk_exists() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/javah.py0000664000175000017500000001106013202656511021011 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.javah Tool-specific initialization for javah. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/javah.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Action import SCons.Builder import SCons.Node.FS import SCons.Tool.javac import SCons.Util def emit_java_headers(target, source, env): """Create and return lists of Java stub header files that will be created from a set of class files. """ class_suffix = env.get('JAVACLASSSUFFIX', '.class') classdir = env.get('JAVACLASSDIR') if not classdir: try: s = source[0] except IndexError: classdir = '.' else: try: classdir = s.attributes.java_classdir except AttributeError: classdir = '.' classdir = env.Dir(classdir).rdir() if str(classdir) == '.': c_ = None else: c_ = str(classdir) + os.sep slist = [] for src in source: try: classname = src.attributes.java_classname except AttributeError: classname = str(src) if c_ and classname[:len(c_)] == c_: classname = classname[len(c_):] if class_suffix and classname[-len(class_suffix):] == class_suffix: classname = classname[:-len(class_suffix)] classname = SCons.Tool.javac.classname(classname) s = src.rfile() s.attributes.java_classname = classname slist.append(s) s = source[0].rfile() if not hasattr(s.attributes, 'java_classdir'): s.attributes.java_classdir = classdir if target[0].__class__ is SCons.Node.FS.File: tlist = target else: if not isinstance(target[0], SCons.Node.FS.Dir): target[0].__class__ = SCons.Node.FS.Dir target[0]._morph() tlist = [] for s in source: fname = s.attributes.java_classname.replace('.', '_') + '.h' t = target[0].File(fname) t.attributes.java_lookupdir = target[0] tlist.append(t) return tlist, source def JavaHOutFlagGenerator(target, source, env, for_signature): try: t = target[0] except (AttributeError, IndexError, TypeError): t = target try: return '-d ' + str(t.attributes.java_lookupdir) except AttributeError: return '-o ' + str(t) def getJavaHClassPath(env,target, source, for_signature): path = "${SOURCE.attributes.java_classdir}" if 'JAVACLASSPATH' in env and env['JAVACLASSPATH']: path = SCons.Util.AppendPath(path, env['JAVACLASSPATH']) return "-classpath %s" % (path) def generate(env): """Add Builders and construction variables for javah to an Environment.""" java_javah = SCons.Tool.CreateJavaHBuilder(env) java_javah.emitter = emit_java_headers env['_JAVAHOUTFLAG'] = JavaHOutFlagGenerator env['JAVAH'] = 'javah' env['JAVAHFLAGS'] = SCons.Util.CLVar('') env['_JAVAHCLASSPATH'] = getJavaHClassPath env['JAVAHCOM'] = '$JAVAH $JAVAHFLAGS $_JAVAHOUTFLAG $_JAVAHCLASSPATH ${SOURCES.attributes.java_classname}' env['JAVACLASSSUFFIX'] = '.class' def exists(env): return env.Detect('javah') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/latex.py0000664000175000017500000000530713202656511021044 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.latex Tool-specific initialization for LaTeX. Generates .dvi files from .latex or .ltx files There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/latex.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Action import SCons.Defaults import SCons.Scanner.LaTeX import SCons.Util import SCons.Tool import SCons.Tool.tex def LaTeXAuxFunction(target = None, source= None, env=None): result = SCons.Tool.tex.InternalLaTeXAuxAction( SCons.Tool.tex.LaTeXAction, target, source, env ) if result != 0: SCons.Tool.tex.check_file_error_message(env['LATEX']) return result LaTeXAuxAction = SCons.Action.Action(LaTeXAuxFunction, strfunction=SCons.Tool.tex.TeXLaTeXStrFunction) def generate(env): """Add Builders and construction variables for LaTeX to an Environment.""" env.AppendUnique(LATEXSUFFIXES=SCons.Tool.LaTeXSuffixes) from . import dvi dvi.generate(env) from . import pdf pdf.generate(env) bld = env['BUILDERS']['DVI'] bld.add_action('.ltx', LaTeXAuxAction) bld.add_action('.latex', LaTeXAuxAction) bld.add_emitter('.ltx', SCons.Tool.tex.tex_eps_emitter) bld.add_emitter('.latex', SCons.Tool.tex.tex_eps_emitter) SCons.Tool.tex.generate_common(env) def exists(env): SCons.Tool.tex.generate_darwin(env) return env.Detect('latex') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/ifl.py0000664000175000017500000000536113202656511020501 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.ifl Tool-specific initialization for the Intel Fortran compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/ifl.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults from SCons.Scanner.Fortran import FortranScan from .FortranCommon import add_all_to_env def generate(env): """Add Builders and construction variables for ifl to an Environment.""" fscan = FortranScan("FORTRANPATH") SCons.Tool.SourceFileScanner.add_scanner('.i', fscan) SCons.Tool.SourceFileScanner.add_scanner('.i90', fscan) if 'FORTRANFILESUFFIXES' not in env: env['FORTRANFILESUFFIXES'] = ['.i'] else: env['FORTRANFILESUFFIXES'].append('.i') if 'F90FILESUFFIXES' not in env: env['F90FILESUFFIXES'] = ['.i90'] else: env['F90FILESUFFIXES'].append('.i90') add_all_to_env(env) env['FORTRAN'] = 'ifl' env['SHFORTRAN'] = '$FORTRAN' env['FORTRANCOM'] = '$FORTRAN $FORTRANFLAGS $_FORTRANINCFLAGS /c $SOURCES /Fo$TARGET' env['FORTRANPPCOM'] = '$FORTRAN $FORTRANFLAGS $CPPFLAGS $_CPPDEFFLAGS $_FORTRANINCFLAGS /c $SOURCES /Fo$TARGET' env['SHFORTRANCOM'] = '$SHFORTRAN $SHFORTRANFLAGS $_FORTRANINCFLAGS /c $SOURCES /Fo$TARGET' env['SHFORTRANPPCOM'] = '$SHFORTRAN $SHFORTRANFLAGS $CPPFLAGS $_CPPDEFFLAGS $_FORTRANINCFLAGS /c $SOURCES /Fo$TARGET' def exists(env): return env.Detect('ifl') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/f95.py0000664000175000017500000000377013202656511020334 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.f95 Tool-specific initialization for the generic Posix f95 Fortran compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/f95.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util from . import fortran from SCons.Tool.FortranCommon import add_all_to_env, add_f95_to_env compilers = ['f95'] def generate(env): add_all_to_env(env) add_f95_to_env(env) fcomp = env.Detect(compilers) or 'f95' env['F95'] = fcomp env['SHF95'] = fcomp env['FORTRAN'] = fcomp env['SHFORTRAN'] = fcomp def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/as.py0000664000175000017500000000564313202656511020335 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.as Tool-specific initialization for as, the generic Posix assembler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/as.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util assemblers = ['as'] ASSuffixes = ['.s', '.asm', '.ASM'] ASPPSuffixes = ['.spp', '.SPP', '.sx'] if SCons.Util.case_sensitive_suffixes('.s', '.S'): ASPPSuffixes.extend(['.S']) else: ASSuffixes.extend(['.S']) def generate(env): """Add Builders and construction variables for as to an Environment.""" static_obj, shared_obj = SCons.Tool.createObjBuilders(env) for suffix in ASSuffixes: static_obj.add_action(suffix, SCons.Defaults.ASAction) shared_obj.add_action(suffix, SCons.Defaults.ASAction) static_obj.add_emitter(suffix, SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter(suffix, SCons.Defaults.SharedObjectEmitter) for suffix in ASPPSuffixes: static_obj.add_action(suffix, SCons.Defaults.ASPPAction) shared_obj.add_action(suffix, SCons.Defaults.ASPPAction) static_obj.add_emitter(suffix, SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter(suffix, SCons.Defaults.SharedObjectEmitter) env['AS'] = env.Detect(assemblers) or 'as' env['ASFLAGS'] = SCons.Util.CLVar('') env['ASCOM'] = '$AS $ASFLAGS -o $TARGET $SOURCES' env['ASPPFLAGS'] = '$ASFLAGS' env['ASPPCOM'] = '$CC $ASPPFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS -c -o $TARGET $SOURCES' def exists(env): return env.Detect(assemblers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/386asm.py0000664000175000017500000000424413202656511020747 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.386asm Tool specification for the 386ASM assembler for the Phar Lap ETS embedded operating system. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/386asm.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" from SCons.Tool.PharLapCommon import addPharLapPaths import SCons.Util as_module = __import__('as', globals(), locals(), [], 1) def generate(env): """Add Builders and construction variables for ar to an Environment.""" as_module.generate(env) env['AS'] = '386asm' env['ASFLAGS'] = SCons.Util.CLVar('') env['ASPPFLAGS'] = '$ASFLAGS' env['ASCOM'] = '$AS $ASFLAGS $SOURCES -o $TARGET' env['ASPPCOM'] = '$CC $ASPPFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS $SOURCES -o $TARGET' addPharLapPaths(env) def exists(env): return env.Detect('386asm') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/tlib.py0000664000175000017500000000352213202656512020657 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.tlib XXX """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/tlib.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Tool import SCons.Tool.bcc32 import SCons.Util def generate(env): SCons.Tool.bcc32.findIt('tlib', env) """Add Builders and construction variables for ar to an Environment.""" SCons.Tool.createStaticLibBuilder(env) env['AR'] = 'tlib' env['ARFLAGS'] = SCons.Util.CLVar('') env['ARCOM'] = '$AR $TARGET $ARFLAGS /a $SOURCES' env['LIBPREFIX'] = '' env['LIBSUFFIX'] = '.lib' def exists(env): return SCons.Tool.bcc32.findIt('tlib', env) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/DCommon.py0000664000175000017500000000423313202656511021260 0ustar bdbaddogbdbaddog00000000000000from __future__ import print_function """SCons.Tool.DCommon Common code for the various D tools. Coded by Russel Winder (russel@winder.org.uk) 2012-09-06 """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/DCommon.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path def isD(env, source): if not source: return 0 for s in source: if s.sources: ext = os.path.splitext(str(s.sources[0]))[1] if ext == '.d': return 1 return 0 def addDPATHToEnv(env, executable): dPath = env.WhereIs(executable) if dPath: phobosDir = dPath[:dPath.rindex(executable)] + '/../src/phobos' if os.path.isdir(phobosDir): env.Append(DPATH=[phobosDir]) def allAtOnceEmitter(target, source, env): if env['DC'] in ('ldc2', 'dmd'): env.SideEffect(str(target[0]) + '.o', target[0]) env.Clean(target[0], str(target[0]) + '.o') return target, source # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/dvi.py0000664000175000017500000000451213202656511020506 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.dvi Common DVI Builder definition for various other Tool modules that use it. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/dvi.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Builder import SCons.Tool DVIBuilder = None def generate(env): try: env['BUILDERS']['DVI'] except KeyError: global DVIBuilder if DVIBuilder is None: # The suffix is hard-coded to '.dvi', not configurable via a # construction variable like $DVISUFFIX, because the output # file name is hard-coded within TeX. DVIBuilder = SCons.Builder.Builder(action = {}, source_scanner = SCons.Tool.LaTeXScanner, suffix = '.dvi', emitter = {}, source_ext_match = None) env['BUILDERS']['DVI'] = DVIBuilder def exists(env): # This only puts a skeleton Builder in place, so if someone # references this Tool directly, it's always "available." return 1 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/xgettext.py0000664000175000017500000003306713202656512021610 0ustar bdbaddogbdbaddog00000000000000""" xgettext tool Tool specific initialization of `xgettext` tool. """ # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/xgettext.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" ############################################################################# class _CmdRunner(object): """ Callable object, which runs shell command storing its stdout and stderr to variables. It also provides `strfunction()` method, which shall be used by scons Action objects to print command string. """ def __init__(self, command, commandstr=None): self.out = None self.err = None self.status = None self.command = command self.commandstr = commandstr def __call__(self, target, source, env): import SCons.Action import subprocess import os import sys kw = { 'stdin': 'devnull', 'stdout': subprocess.PIPE, 'stderr': subprocess.PIPE, 'universal_newlines': True, 'shell': True } command = env.subst(self.command, target=target, source=source) proc = SCons.Action._subproc(env, command, **kw) self.out, self.err = proc.communicate() self.status = proc.wait() if self.err: sys.stderr.write(unicode(self.err)) return self.status def strfunction(self, target, source, env): import os comstr = self.commandstr if env.subst(comstr, target=target, source=source) == "": comstr = self.command s = env.subst(comstr, target=target, source=source) return s ############################################################################# ############################################################################# def _update_pot_file(target, source, env): """ Action function for `POTUpdate` builder """ import re import os import SCons.Action nop = lambda target, source, env: 0 # Save scons cwd and os cwd (NOTE: they may be different. After the job, we # revert each one to its original state). save_cwd = env.fs.getcwd() save_os_cwd = os.getcwd() chdir = target[0].dir chdir_str = repr(chdir.get_abspath()) # Print chdir message (employ SCons.Action.Action for that. It knows better # than me how to to this correctly). env.Execute(SCons.Action.Action(nop, "Entering " + chdir_str)) # Go to target's directory and do our job env.fs.chdir(chdir, 1) # Go into target's directory try: cmd = _CmdRunner('$XGETTEXTCOM', '$XGETTEXTCOMSTR') action = SCons.Action.Action(cmd, strfunction=cmd.strfunction) status = action([target[0]], source, env) except: # Something went wrong. env.Execute(SCons.Action.Action(nop, "Leaving " + chdir_str)) # Revert working dirs to previous state and re-throw exception. env.fs.chdir(save_cwd, 0) os.chdir(save_os_cwd) raise # Print chdir message. env.Execute(SCons.Action.Action(nop, "Leaving " + chdir_str)) # Revert working dirs to previous state. env.fs.chdir(save_cwd, 0) os.chdir(save_os_cwd) # If the command was not successfull, return error code. if status: return status new_content = cmd.out if not new_content: # When xgettext finds no internationalized messages, no *.pot is created # (because we don't want to bother translators with empty POT files). needs_update = False explain = "no internationalized messages encountered" else: if target[0].exists(): # If the file already exists, it's left unaltered unless its messages # are outdated (w.r.t. to these recovered by xgettext from sources). old_content = target[0].get_text_contents() re_cdate = re.compile(r'^"POT-Creation-Date: .*"$[\r\n]?', re.M) old_content_nocdate = re.sub(re_cdate, "", old_content) new_content_nocdate = re.sub(re_cdate, "", new_content) if (old_content_nocdate == new_content_nocdate): # Messages are up-to-date needs_update = False explain = "messages in file found to be up-to-date" else: # Messages are outdated needs_update = True explain = "messages in file were outdated" else: # No POT file found, create new one needs_update = True explain = "new file" if needs_update: # Print message employing SCons.Action.Action for that. msg = "Writing " + repr(str(target[0])) + " (" + explain + ")" env.Execute(SCons.Action.Action(nop, msg)) f = open(str(target[0]), "w") f.write(new_content) f.close() return 0 else: # Print message employing SCons.Action.Action for that. msg = "Not writing " + repr(str(target[0])) + " (" + explain + ")" env.Execute(SCons.Action.Action(nop, msg)) return 0 ############################################################################# ############################################################################# from SCons.Builder import BuilderBase ############################################################################# class _POTBuilder(BuilderBase): def _execute(self, env, target, source, *args): if not target: if 'POTDOMAIN' in env and env['POTDOMAIN']: domain = env['POTDOMAIN'] else: domain = 'messages' target = [domain] return BuilderBase._execute(self, env, target, source, *args) ############################################################################# ############################################################################# def _scan_xgettext_from_files(target, source, env, files=None, path=None): """ Parses `POTFILES.in`-like file and returns list of extracted file names. """ import re import SCons.Util import SCons.Node.FS if files is None: return 0 if not SCons.Util.is_List(files): files = [files] if path is None: if 'XGETTEXTPATH' in env: path = env['XGETTEXTPATH'] else: path = [] if not SCons.Util.is_List(path): path = [path] path = SCons.Util.flatten(path) dirs = () for p in path: if not isinstance(p, SCons.Node.FS.Base): if SCons.Util.is_String(p): p = env.subst(p, source=source, target=target) p = env.arg2nodes(p, env.fs.Dir) dirs += tuple(p) # cwd is the default search path (when no path is defined by user) if not dirs: dirs = (env.fs.getcwd(),) # Parse 'POTFILE.in' files. re_comment = re.compile(r'^#[^\n\r]*$\r?\n?', re.M) re_emptyln = re.compile(r'^[ \t\r]*$\r?\n?', re.M) re_trailws = re.compile(r'[ \t\r]+$') for f in files: # Find files in search path $XGETTEXTPATH if isinstance(f, SCons.Node.FS.Base) and f.rexists(): contents = f.get_text_contents() contents = re_comment.sub("", contents) contents = re_emptyln.sub("", contents) contents = re_trailws.sub("", contents) depnames = contents.splitlines() for depname in depnames: depfile = SCons.Node.FS.find_file(depname, dirs) if not depfile: depfile = env.arg2nodes(depname, dirs[0].File) env.Depends(target, depfile) return 0 ############################################################################# ############################################################################# def _pot_update_emitter(target, source, env): """ Emitter function for `POTUpdate` builder """ from SCons.Tool.GettextCommon import _POTargetFactory import SCons.Util import SCons.Node.FS if 'XGETTEXTFROM' in env: xfrom = env['XGETTEXTFROM'] else: return target, source if not SCons.Util.is_List(xfrom): xfrom = [xfrom] xfrom = SCons.Util.flatten(xfrom) # Prepare list of 'POTFILE.in' files. files = [] for xf in xfrom: if not isinstance(xf, SCons.Node.FS.Base): if SCons.Util.is_String(xf): # Interpolate variables in strings xf = env.subst(xf, source=source, target=target) xf = env.arg2nodes(xf) files.extend(xf) if files: env.Depends(target, files) _scan_xgettext_from_files(target, source, env, files) return target, source ############################################################################# ############################################################################# from SCons.Environment import _null ############################################################################# def _POTUpdateBuilderWrapper(env, target=None, source=_null, **kw): return env._POTUpdateBuilder(target, source, **kw) ############################################################################# ############################################################################# def _POTUpdateBuilder(env, **kw): """ Creates `POTUpdate` builder object """ import SCons.Action from SCons.Tool.GettextCommon import _POTargetFactory kw['action'] = SCons.Action.Action(_update_pot_file, None) kw['suffix'] = '$POTSUFFIX' kw['target_factory'] = _POTargetFactory(env, alias='$POTUPDATE_ALIAS').File kw['emitter'] = _pot_update_emitter return _POTBuilder(**kw) ############################################################################# ############################################################################# def generate(env, **kw): """ Generate `xgettext` tool """ import SCons.Util from SCons.Tool.GettextCommon import RPaths, _detect_xgettext try: env['XGETTEXT'] = _detect_xgettext(env) except: env['XGETTEXT'] = 'xgettext' # NOTE: sources="$SOURCES" would work as well. However, we use following # construction to convert absolute paths provided by scons onto paths # relative to current working dir. Note, that scons expands $SOURCE(S) to # absolute paths for sources $SOURCE(s) outside of current subtree (e.g. in # "../"). With source=$SOURCE these absolute paths would be written to the # resultant *.pot file (and its derived *.po files) as references to lines in # source code (e.g. referring lines in *.c files). Such references would be # correct (e.g. in poedit) only on machine on which *.pot was generated and # would be of no use on other hosts (having a copy of source code located # in different place in filesystem). sources = '$( ${_concat( "", SOURCES, "", __env__, XgettextRPaths, TARGET' \ + ', SOURCES)} $)' # NOTE: the output from $XGETTEXTCOM command must go to stdout, not to a file. # This is required by the POTUpdate builder's action. xgettextcom = '$XGETTEXT $XGETTEXTFLAGS $_XGETTEXTPATHFLAGS' \ + ' $_XGETTEXTFROMFLAGS -o - ' + sources xgettextpathflags = '$( ${_concat( XGETTEXTPATHPREFIX, XGETTEXTPATH' \ + ', XGETTEXTPATHSUFFIX, __env__, RDirs, TARGET, SOURCES)} $)' xgettextfromflags = '$( ${_concat( XGETTEXTFROMPREFIX, XGETTEXTFROM' \ + ', XGETTEXTFROMSUFFIX, __env__, target=TARGET, source=SOURCES)} $)' env.SetDefault( _XGETTEXTDOMAIN='${TARGET.filebase}', XGETTEXTFLAGS=[], XGETTEXTCOM=xgettextcom, XGETTEXTCOMSTR='', XGETTEXTPATH=[], XGETTEXTPATHPREFIX='-D', XGETTEXTPATHSUFFIX='', XGETTEXTFROM=None, XGETTEXTFROMPREFIX='-f', XGETTEXTFROMSUFFIX='', _XGETTEXTPATHFLAGS=xgettextpathflags, _XGETTEXTFROMFLAGS=xgettextfromflags, POTSUFFIX=['.pot'], POTUPDATE_ALIAS='pot-update', XgettextRPaths=RPaths(env) ) env.Append(BUILDERS={ '_POTUpdateBuilder': _POTUpdateBuilder(env) }) env.AddMethod(_POTUpdateBuilderWrapper, 'POTUpdate') env.AlwaysBuild(env.Alias('$POTUPDATE_ALIAS')) ############################################################################# ############################################################################# def exists(env): """ Check, whether the tool exists """ from SCons.Tool.GettextCommon import _xgettext_exists try: return _xgettext_exists(env) except: return False ############################################################################# # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/g77.py0000664000175000017500000000465413202656511020337 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.g77 Tool-specific initialization for g77. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/g77.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util from SCons.Tool.FortranCommon import add_all_to_env, add_f77_to_env compilers = ['g77', 'f77'] def generate(env): """Add Builders and construction variables for g77 to an Environment.""" add_all_to_env(env) add_f77_to_env(env) fcomp = env.Detect(compilers) or 'g77' if env['PLATFORM'] in ['cygwin', 'win32']: env['SHFORTRANFLAGS'] = SCons.Util.CLVar('$FORTRANFLAGS') env['SHF77FLAGS'] = SCons.Util.CLVar('$F77FLAGS') else: env['SHFORTRANFLAGS'] = SCons.Util.CLVar('$FORTRANFLAGS -fPIC') env['SHF77FLAGS'] = SCons.Util.CLVar('$F77FLAGS -fPIC') env['FORTRAN'] = fcomp env['SHFORTRAN'] = '$FORTRAN' env['F77'] = fcomp env['SHF77'] = '$F77' env['INCFORTRANPREFIX'] = "-I" env['INCFORTRANSUFFIX'] = "" env['INCF77PREFIX'] = "-I" env['INCF77SUFFIX'] = "" def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/GettextCommon.py0000664000175000017500000004355213202656512022531 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.GettextCommon module Used by several tools of `gettext` toolset. """ # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/GettextCommon.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Warnings import re ############################################################################# class XgettextToolWarning(SCons.Warnings.Warning): pass class XgettextNotFound(XgettextToolWarning): pass class MsginitToolWarning(SCons.Warnings.Warning): pass class MsginitNotFound(MsginitToolWarning): pass class MsgmergeToolWarning(SCons.Warnings.Warning): pass class MsgmergeNotFound(MsgmergeToolWarning): pass class MsgfmtToolWarning(SCons.Warnings.Warning): pass class MsgfmtNotFound(MsgfmtToolWarning): pass ############################################################################# SCons.Warnings.enableWarningClass(XgettextToolWarning) SCons.Warnings.enableWarningClass(XgettextNotFound) SCons.Warnings.enableWarningClass(MsginitToolWarning) SCons.Warnings.enableWarningClass(MsginitNotFound) SCons.Warnings.enableWarningClass(MsgmergeToolWarning) SCons.Warnings.enableWarningClass(MsgmergeNotFound) SCons.Warnings.enableWarningClass(MsgfmtToolWarning) SCons.Warnings.enableWarningClass(MsgfmtNotFound) ############################################################################# ############################################################################# class _POTargetFactory(object): """ A factory of `PO` target files. Factory defaults differ from these of `SCons.Node.FS.FS`. We set `precious` (this is required by builders and actions gettext) and `noclean` flags by default for all produced nodes. """ def __init__(self, env, nodefault=True, alias=None, precious=True , noclean=True): """ Object constructor. **Arguments** - *env* (`SCons.Environment.Environment`) - *nodefault* (`boolean`) - if `True`, produced nodes will be ignored from default target `'.'` - *alias* (`string`) - if provided, produced nodes will be automatically added to this alias, and alias will be set as `AlwaysBuild` - *precious* (`boolean`) - if `True`, the produced nodes will be set as `Precious`. - *noclen* (`boolean`) - if `True`, the produced nodes will be excluded from `Clean`. """ self.env = env self.alias = alias self.precious = precious self.noclean = noclean self.nodefault = nodefault def _create_node(self, name, factory, directory=None, create=1): """ Create node, and set it up to factory settings. """ import SCons.Util node = factory(name, directory, create) node.set_noclean(self.noclean) node.set_precious(self.precious) if self.nodefault: self.env.Ignore('.', node) if self.alias: self.env.AlwaysBuild(self.env.Alias(self.alias, node)) return node def Entry(self, name, directory=None, create=1): """ Create `SCons.Node.FS.Entry` """ return self._create_node(name, self.env.fs.Entry, directory, create) def File(self, name, directory=None, create=1): """ Create `SCons.Node.FS.File` """ return self._create_node(name, self.env.fs.File, directory, create) ############################################################################# ############################################################################# _re_comment = re.compile(r'(#[^\n\r]+)$', re.M) _re_lang = re.compile(r'([a-zA-Z0-9_]+)', re.M) ############################################################################# def _read_linguas_from_files(env, linguas_files=None): """ Parse `LINGUAS` file and return list of extracted languages """ import SCons.Util import SCons.Environment global _re_comment global _re_lang if not SCons.Util.is_List(linguas_files) \ and not SCons.Util.is_String(linguas_files) \ and not isinstance(linguas_files, SCons.Node.FS.Base) \ and linguas_files: # If, linguas_files==True or such, then read 'LINGUAS' file. linguas_files = ['LINGUAS'] if linguas_files is None: return [] fnodes = env.arg2nodes(linguas_files) linguas = [] for fnode in fnodes: contents = _re_comment.sub("", fnode.get_text_contents()) ls = [l for l in _re_lang.findall(contents) if l] linguas.extend(ls) return linguas ############################################################################# ############################################################################# from SCons.Builder import BuilderBase ############################################################################# class _POFileBuilder(BuilderBase): """ `PO` file builder. This is multi-target single-source builder. In typical situation the source is single `POT` file, e.g. `messages.pot`, and there are multiple `PO` targets to be updated from this `POT`. We must run `SCons.Builder.BuilderBase._execute()` separatelly for each target to track dependencies separatelly for each target file. **NOTE**: if we call `SCons.Builder.BuilderBase._execute(.., target, ...)` with target being list of all targets, all targets would be rebuilt each time one of the targets from this list is missing. This would happen, for example, when new language `ll` enters `LINGUAS_FILE` (at this moment there is no `ll.po` file yet). To avoid this, we override `SCons.Builder.BuilerBase._execute()` and call it separatelly for each target. Here we also append to the target list the languages read from `LINGUAS_FILE`. """ # # * The argument for overriding _execute(): We must use environment with # builder overrides applied (see BuilderBase.__init__(). Here it comes for # free. # * The argument against using 'emitter': The emitter is called too late # by BuilderBase._execute(). If user calls, for example: # # env.POUpdate(LINGUAS_FILE = 'LINGUAS') # # the builder throws error, because it is called with target=None, # source=None and is trying to "generate" sources or target list first. # If user calls # # env.POUpdate(['foo', 'baz'], LINGUAS_FILE = 'LINGUAS') # # the env.BuilderWrapper() calls our builder with target=None, # source=['foo', 'baz']. The BuilderBase._execute() then splits execution # and execute iterativelly (recursion) self._execute(None, source[i]). # After that it calls emitter (which is quite too late). The emitter is # also called in each iteration, what makes things yet worse. def __init__(self, env, **kw): if not 'suffix' in kw: kw['suffix'] = '$POSUFFIX' if not 'src_suffix' in kw: kw['src_suffix'] = '$POTSUFFIX' if not 'src_builder' in kw: kw['src_builder'] = '_POTUpdateBuilder' if not 'single_source' in kw: kw['single_source'] = True alias = None if 'target_alias' in kw: alias = kw['target_alias'] del kw['target_alias'] if not 'target_factory' in kw: kw['target_factory'] = _POTargetFactory(env, alias=alias).File BuilderBase.__init__(self, **kw) def _execute(self, env, target, source, *args, **kw): """ Execute builder's actions. Here we append to `target` the languages read from `$LINGUAS_FILE` and apply `SCons.Builder.BuilderBase._execute()` separatelly to each target. The arguments and return value are same as for `SCons.Builder.BuilderBase._execute()`. """ import SCons.Util import SCons.Node linguas_files = None if 'LINGUAS_FILE' in env and env['LINGUAS_FILE']: linguas_files = env['LINGUAS_FILE'] # This prevents endless recursion loop (we'll be invoked once for # each target appended here, we must not extend the list again). env['LINGUAS_FILE'] = None linguas = _read_linguas_from_files(env, linguas_files) if SCons.Util.is_List(target): target.extend(linguas) elif target is not None: target = [target] + linguas else: target = linguas if not target: # Let the SCons.BuilderBase to handle this patologic situation return BuilderBase._execute(self, env, target, source, *args, **kw) # The rest is ours if not SCons.Util.is_List(target): target = [target] result = [] for tgt in target: r = BuilderBase._execute(self, env, [tgt], source, *args, **kw) result.extend(r) if linguas_files is not None: env['LINGUAS_FILE'] = linguas_files return SCons.Node.NodeList(result) ############################################################################# import SCons.Environment ############################################################################# def _translate(env, target=None, source=SCons.Environment._null, *args, **kw): """ Function for `Translate()` pseudo-builder """ if target is None: target = [] pot = env.POTUpdate(None, source, *args, **kw) po = env.POUpdate(target, pot, *args, **kw) return po ############################################################################# ############################################################################# class RPaths(object): """ Callable object, which returns pathnames relative to SCons current working directory. It seems like `SCons.Node.FS.Base.get_path()` returns absolute paths for nodes that are outside of current working directory (`env.fs.getcwd()`). Here, we often have `SConscript`, `POT` and `PO` files within `po/` directory and source files (e.g. `*.c`) outside of it. When generating `POT` template file, references to source files are written to `POT` template, so a translator may later quickly jump to appropriate source file and line from its `PO` editor (e.g. `poedit`). Relative paths in `PO` file are usually interpreted by `PO` editor as paths relative to the place, where `PO` file lives. The absolute paths would make resultant `POT` file nonportable, as the references would be correct only on the machine, where `POT` file was recently re-created. For such reason, we need a function, which always returns relative paths. This is the purpose of `RPaths` callable object. The `__call__` method returns paths relative to current working directory, but we assume, that *xgettext(1)* is run from the directory, where target file is going to be created. Note, that this may not work for files distributed over several hosts or across different drives on windows. We assume here, that single local filesystem holds both source files and target `POT` templates. Intended use of `RPaths` - in `xgettext.py`:: def generate(env): from GettextCommon import RPaths ... sources = '$( ${_concat( "", SOURCES, "", __env__, XgettextRPaths, TARGET, SOURCES)} $)' env.Append( ... XGETTEXTCOM = 'XGETTEXT ... ' + sources, ... XgettextRPaths = RPaths(env) ) """ # NOTE: This callable object returns pathnames of dirs/files relative to # current working directory. The pathname remains relative also for entries # that are outside of current working directory (node, that # SCons.Node.FS.File and siblings return absolute path in such case). For # simplicity we compute path relative to current working directory, this # seems be enough for our purposes (don't need TARGET variable and # SCons.Defaults.Variable_Caller stuff). def __init__(self, env): """ Initialize `RPaths` callable object. **Arguments**: - *env* - a `SCons.Environment.Environment` object, defines *current working dir*. """ self.env = env # FIXME: I'm not sure, how it should be implemented (what the *args are in # general, what is **kw). def __call__(self, nodes, *args, **kw): """ Return nodes' paths (strings) relative to current working directory. **Arguments**: - *nodes* ([`SCons.Node.FS.Base`]) - list of nodes. - *args* - currently unused. - *kw* - currently unused. **Returns**: - Tuple of strings, which represent paths relative to current working directory (for given environment). """ import os import SCons.Node.FS rpaths = () cwd = self.env.fs.getcwd().get_abspath() for node in nodes: rpath = None if isinstance(node, SCons.Node.FS.Base): rpath = os.path.relpath(node.get_abspath(), cwd) # FIXME: Other types possible here? if rpath is not None: rpaths += (rpath,) return rpaths ############################################################################# ############################################################################# def _init_po_files(target, source, env): """ Action function for `POInit` builder. """ nop = lambda target, source, env: 0 if 'POAUTOINIT' in env: autoinit = env['POAUTOINIT'] else: autoinit = False # Well, if everything outside works well, this loop should do single # iteration. Otherwise we are rebuilding all the targets even, if just # one has changed (but is this our fault?). for tgt in target: if not tgt.exists(): if autoinit: action = SCons.Action.Action('$MSGINITCOM', '$MSGINITCOMSTR') else: msg = 'File ' + repr(str(tgt)) + ' does not exist. ' \ + 'If you are a translator, you can create it through: \n' \ + '$MSGINITCOM' action = SCons.Action.Action(nop, msg) status = action([tgt], source, env) if status: return status return 0 ############################################################################# ############################################################################# def _detect_xgettext(env): """ Detects *xgettext(1)* binary """ if 'XGETTEXT' in env: return env['XGETTEXT'] xgettext = env.Detect('xgettext'); if xgettext: return xgettext raise SCons.Errors.StopError(XgettextNotFound, "Could not detect xgettext") return None ############################################################################# def _xgettext_exists(env): return _detect_xgettext(env) ############################################################################# ############################################################################# def _detect_msginit(env): """ Detects *msginit(1)* program. """ if 'MSGINIT' in env: return env['MSGINIT'] msginit = env.Detect('msginit'); if msginit: return msginit raise SCons.Errors.StopError(MsginitNotFound, "Could not detect msginit") return None ############################################################################# def _msginit_exists(env): return _detect_msginit(env) ############################################################################# ############################################################################# def _detect_msgmerge(env): """ Detects *msgmerge(1)* program. """ if 'MSGMERGE' in env: return env['MSGMERGE'] msgmerge = env.Detect('msgmerge'); if msgmerge: return msgmerge raise SCons.Errors.StopError(MsgmergeNotFound, "Could not detect msgmerge") return None ############################################################################# def _msgmerge_exists(env): return _detect_msgmerge(env) ############################################################################# ############################################################################# def _detect_msgfmt(env): """ Detects *msgmfmt(1)* program. """ if 'MSGFMT' in env: return env['MSGFMT'] msgfmt = env.Detect('msgfmt'); if msgfmt: return msgfmt raise SCons.Errors.StopError(MsgfmtNotFound, "Could not detect msgfmt") return None ############################################################################# def _msgfmt_exists(env): return _detect_msgfmt(env) ############################################################################# ############################################################################# def tool_list(platform, env): """ List tools that shall be generated by top-level `gettext` tool """ return ['xgettext', 'msginit', 'msgmerge', 'msgfmt'] ############################################################################# scons-3.0.1/engine/SCons/Tool/msvc.py0000664000175000017500000002732513202656512020704 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.msvc Tool-specific initialization for Microsoft Visual C/C++. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/msvc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import re import sys import SCons.Action import SCons.Builder import SCons.Errors import SCons.Platform.win32 import SCons.Tool import SCons.Tool.msvs import SCons.Util import SCons.Warnings import SCons.Scanner.RC from .MSCommon import msvc_exists, msvc_setup_env_once, msvc_version_to_maj_min CSuffixes = ['.c', '.C'] CXXSuffixes = ['.cc', '.cpp', '.cxx', '.c++', '.C++'] def validate_vars(env): """Validate the PCH and PCHSTOP construction variables.""" if 'PCH' in env and env['PCH']: if 'PCHSTOP' not in env: raise SCons.Errors.UserError("The PCHSTOP construction must be defined if PCH is defined.") if not SCons.Util.is_String(env['PCHSTOP']): raise SCons.Errors.UserError("The PCHSTOP construction variable must be a string: %r"%env['PCHSTOP']) def msvc_set_PCHPDBFLAGS(env): """ Set appropriate PCHPDBFLAGS for the MSVC version being used. """ if env.get('MSVC_VERSION',False): maj, min = msvc_version_to_maj_min(env['MSVC_VERSION']) if maj < 8: env['PCHPDBFLAGS'] = SCons.Util.CLVar(['${(PDB and "/Yd") or ""}']) else: env['PCHPDBFLAGS'] = '' else: # Default if we can't determine which version of MSVC we're using env['PCHPDBFLAGS'] = SCons.Util.CLVar(['${(PDB and "/Yd") or ""}']) def pch_emitter(target, source, env): """Adds the object file target.""" validate_vars(env) pch = None obj = None for t in target: if SCons.Util.splitext(str(t))[1] == '.pch': pch = t if SCons.Util.splitext(str(t))[1] == '.obj': obj = t if not obj: obj = SCons.Util.splitext(str(pch))[0]+'.obj' target = [pch, obj] # pch must be first, and obj second for the PCHCOM to work return (target, source) def object_emitter(target, source, env, parent_emitter): """Sets up the PCH dependencies for an object file.""" validate_vars(env) parent_emitter(target, source, env) # Add a dependency, but only if the target (e.g. 'Source1.obj') # doesn't correspond to the pre-compiled header ('Source1.pch'). # If the basenames match, then this was most likely caused by # someone adding the source file to both the env.PCH() and the # env.Program() calls, and adding the explicit dependency would # cause a cycle on the .pch file itself. # # See issue #2505 for a discussion of what to do if it turns # out this assumption causes trouble in the wild: # http://scons.tigris.org/issues/show_bug.cgi?id=2505 if 'PCH' in env: pch = env['PCH'] if str(target[0]) != SCons.Util.splitext(str(pch))[0] + '.obj': env.Depends(target, pch) return (target, source) def static_object_emitter(target, source, env): return object_emitter(target, source, env, SCons.Defaults.StaticObjectEmitter) def shared_object_emitter(target, source, env): return object_emitter(target, source, env, SCons.Defaults.SharedObjectEmitter) pch_action = SCons.Action.Action('$PCHCOM', '$PCHCOMSTR') pch_builder = SCons.Builder.Builder(action=pch_action, suffix='.pch', emitter=pch_emitter, source_scanner=SCons.Tool.SourceFileScanner) # Logic to build .rc files into .res files (resource files) res_scanner = SCons.Scanner.RC.RCScan() res_action = SCons.Action.Action('$RCCOM', '$RCCOMSTR') res_builder = SCons.Builder.Builder(action=res_action, src_suffix='.rc', suffix='.res', src_builder=[], source_scanner=res_scanner) def msvc_batch_key(action, env, target, source): """ Returns a key to identify unique batches of sources for compilation. If batching is enabled (via the $MSVC_BATCH setting), then all target+source pairs that use the same action, defined by the same environment, and have the same target and source directories, will be batched. Returning None specifies that the specified target+source should not be batched with other compilations. """ # Fixing MSVC_BATCH mode. Previous if did not work when MSVC_BATCH # was set to False. This new version should work better. # Note we need to do the env.subst so $MSVC_BATCH can be a reference to # another construction variable, which is why we test for False and 0 # as strings. if not 'MSVC_BATCH' in env or env.subst('$MSVC_BATCH') in ('0', 'False', '', None): # We're not using batching; return no key. return None t = target[0] s = source[0] if os.path.splitext(t.name)[0] != os.path.splitext(s.name)[0]: # The base names are different, so this *must* be compiled # separately; return no key. return None return (id(action), id(env), t.dir, s.dir) def msvc_output_flag(target, source, env, for_signature): """ Returns the correct /Fo flag for batching. If batching is disabled or there's only one source file, then we return an /Fo string that specifies the target explicitly. Otherwise, we return an /Fo string that just specifies the first target's directory (where the Visual C/C++ compiler will put the .obj files). """ # Fixing MSVC_BATCH mode. Previous if did not work when MSVC_BATCH # was set to False. This new version should work better. Removed # len(source)==1 as batch mode can compile only one file # (and it also fixed problem with compiling only one changed file # with batch mode enabled) if not 'MSVC_BATCH' in env or env.subst('$MSVC_BATCH') in ('0', 'False', '', None): return '/Fo$TARGET' else: # The Visual C/C++ compiler requires a \ at the end of the /Fo # option to indicate an output directory. We use os.sep here so # that the test(s) for this can be run on non-Windows systems # without having a hard-coded backslash mess up command-line # argument parsing. return '/Fo${TARGET.dir}' + os.sep CAction = SCons.Action.Action("$CCCOM", "$CCCOMSTR", batch_key=msvc_batch_key, targets='$CHANGED_TARGETS') ShCAction = SCons.Action.Action("$SHCCCOM", "$SHCCCOMSTR", batch_key=msvc_batch_key, targets='$CHANGED_TARGETS') CXXAction = SCons.Action.Action("$CXXCOM", "$CXXCOMSTR", batch_key=msvc_batch_key, targets='$CHANGED_TARGETS') ShCXXAction = SCons.Action.Action("$SHCXXCOM", "$SHCXXCOMSTR", batch_key=msvc_batch_key, targets='$CHANGED_TARGETS') def generate(env): """Add Builders and construction variables for MSVC++ to an Environment.""" static_obj, shared_obj = SCons.Tool.createObjBuilders(env) # TODO(batch): shouldn't reach in to cmdgen this way; necessary # for now to bypass the checks in Builder.DictCmdGenerator.__call__() # and allow .cc and .cpp to be compiled in the same command line. static_obj.cmdgen.source_ext_match = False shared_obj.cmdgen.source_ext_match = False for suffix in CSuffixes: static_obj.add_action(suffix, CAction) shared_obj.add_action(suffix, ShCAction) static_obj.add_emitter(suffix, static_object_emitter) shared_obj.add_emitter(suffix, shared_object_emitter) for suffix in CXXSuffixes: static_obj.add_action(suffix, CXXAction) shared_obj.add_action(suffix, ShCXXAction) static_obj.add_emitter(suffix, static_object_emitter) shared_obj.add_emitter(suffix, shared_object_emitter) env['CCPDBFLAGS'] = SCons.Util.CLVar(['${(PDB and "/Z7") or ""}']) env['CCPCHFLAGS'] = SCons.Util.CLVar(['${(PCH and "/Yu%s \\\"/Fp%s\\\""%(PCHSTOP or "",File(PCH))) or ""}']) env['_MSVC_OUTPUT_FLAG'] = msvc_output_flag env['_CCCOMCOM'] = '$CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS $CCPCHFLAGS $CCPDBFLAGS' env['CC'] = 'cl' env['CCFLAGS'] = SCons.Util.CLVar('/nologo') env['CFLAGS'] = SCons.Util.CLVar('') env['CCCOM'] = '${TEMPFILE("$CC $_MSVC_OUTPUT_FLAG /c $CHANGED_SOURCES $CFLAGS $CCFLAGS $_CCCOMCOM","$CCCOMSTR")}' env['SHCC'] = '$CC' env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS') env['SHCFLAGS'] = SCons.Util.CLVar('$CFLAGS') env['SHCCCOM'] = '${TEMPFILE("$SHCC $_MSVC_OUTPUT_FLAG /c $CHANGED_SOURCES $SHCFLAGS $SHCCFLAGS $_CCCOMCOM","$SHCCCOMSTR")}' env['CXX'] = '$CC' env['CXXFLAGS'] = SCons.Util.CLVar('$( /TP $)') env['CXXCOM'] = '${TEMPFILE("$CXX $_MSVC_OUTPUT_FLAG /c $CHANGED_SOURCES $CXXFLAGS $CCFLAGS $_CCCOMCOM","$CXXCOMSTR")}' env['SHCXX'] = '$CXX' env['SHCXXFLAGS'] = SCons.Util.CLVar('$CXXFLAGS') env['SHCXXCOM'] = '${TEMPFILE("$SHCXX $_MSVC_OUTPUT_FLAG /c $CHANGED_SOURCES $SHCXXFLAGS $SHCCFLAGS $_CCCOMCOM","$SHCXXCOMSTR")}' env['CPPDEFPREFIX'] = '/D' env['CPPDEFSUFFIX'] = '' env['INCPREFIX'] = '/I' env['INCSUFFIX'] = '' # env.Append(OBJEMITTER = [static_object_emitter]) # env.Append(SHOBJEMITTER = [shared_object_emitter]) env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 1 env['RC'] = 'rc' env['RCFLAGS'] = SCons.Util.CLVar('') env['RCSUFFIXES']=['.rc','.rc2'] env['RCCOM'] = '$RC $_CPPDEFFLAGS $_CPPINCFLAGS $RCFLAGS /fo$TARGET $SOURCES' env['BUILDERS']['RES'] = res_builder env['OBJPREFIX'] = '' env['OBJSUFFIX'] = '.obj' env['SHOBJPREFIX'] = '$OBJPREFIX' env['SHOBJSUFFIX'] = '$OBJSUFFIX' # Set-up ms tools paths msvc_setup_env_once(env) env['CFILESUFFIX'] = '.c' env['CXXFILESUFFIX'] = '.cc' msvc_set_PCHPDBFLAGS(env) env['PCHCOM'] = '$CXX /Fo${TARGETS[1]} $CXXFLAGS $CCFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS /c $SOURCES /Yc$PCHSTOP /Fp${TARGETS[0]} $CCPDBFLAGS $PCHPDBFLAGS' env['BUILDERS']['PCH'] = pch_builder if 'ENV' not in env: env['ENV'] = {} if 'SystemRoot' not in env['ENV']: # required for dlls in the winsxs folders env['ENV']['SystemRoot'] = SCons.Platform.win32.get_system_root() def exists(env): return msvc_exists() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/cc.py0000664000175000017500000000736413202656511020321 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.cc Tool-specific initialization for generic Posix C compilers. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/cc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Tool import SCons.Defaults import SCons.Util CSuffixes = ['.c', '.m'] if not SCons.Util.case_sensitive_suffixes('.c', '.C'): CSuffixes.append('.C') def add_common_cc_variables(env): """ Add underlying common "C compiler" variables that are used by multiple tools (specifically, c++). """ if '_CCCOMCOM' not in env: env['_CCCOMCOM'] = '$CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS' # It's a hack to test for darwin here, but the alternative # of creating an applecc.py to contain this seems overkill. # Maybe someday the Apple platform will require more setup and # this logic will be moved. env['FRAMEWORKS'] = SCons.Util.CLVar('') env['FRAMEWORKPATH'] = SCons.Util.CLVar('') if env['PLATFORM'] == 'darwin': env['_CCCOMCOM'] = env['_CCCOMCOM'] + ' $_FRAMEWORKPATH' if 'CCFLAGS' not in env: env['CCFLAGS'] = SCons.Util.CLVar('') if 'SHCCFLAGS' not in env: env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS') compilers = ['cc'] def generate(env): """ Add Builders and construction variables for C compilers to an Environment. """ static_obj, shared_obj = SCons.Tool.createObjBuilders(env) for suffix in CSuffixes: static_obj.add_action(suffix, SCons.Defaults.CAction) shared_obj.add_action(suffix, SCons.Defaults.ShCAction) static_obj.add_emitter(suffix, SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter(suffix, SCons.Defaults.SharedObjectEmitter) add_common_cc_variables(env) if 'CC' not in env: env['CC'] = env.Detect(compilers) or compilers[0] env['CFLAGS'] = SCons.Util.CLVar('') env['CCCOM'] = '$CC -o $TARGET -c $CFLAGS $CCFLAGS $_CCCOMCOM $SOURCES' env['SHCC'] = '$CC' env['SHCFLAGS'] = SCons.Util.CLVar('$CFLAGS') env['SHCCCOM'] = '$SHCC -o $TARGET -c $SHCFLAGS $SHCCFLAGS $_CCCOMCOM $SOURCES' env['CPPDEFPREFIX'] = '-D' env['CPPDEFSUFFIX'] = '' env['INCPREFIX'] = '-I' env['INCSUFFIX'] = '' env['SHOBJSUFFIX'] = '.os' env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 0 env['CFILESUFFIX'] = '.c' def exists(env): return env.Detect(env.get('CC', compilers)) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/PharLapCommon.py0000664000175000017500000001053413202656512022426 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.PharLapCommon This module contains common code used by all Tools for the Phar Lap ETS tool chain. Right now, this is linkloc and 386asm. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/PharLapCommon.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import SCons.Errors import SCons.Util import re def getPharLapPath(): """Reads the registry to find the installed path of the Phar Lap ETS development kit. Raises UserError if no installed version of Phar Lap can be found.""" if not SCons.Util.can_read_reg: raise SCons.Errors.InternalError("No Windows registry module was found") try: k=SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, 'SOFTWARE\\Pharlap\\ETS') val, type = SCons.Util.RegQueryValueEx(k, 'BaseDir') # The following is a hack...there is (not surprisingly) # an odd issue in the Phar Lap plug in that inserts # a bunch of junk data after the phar lap path in the # registry. We must trim it. idx=val.find('\0') if idx >= 0: val = val[:idx] return os.path.normpath(val) except SCons.Util.RegError: raise SCons.Errors.UserError("Cannot find Phar Lap ETS path in the registry. Is it installed properly?") REGEX_ETS_VER = re.compile(r'#define\s+ETS_VER\s+([0-9]+)') def getPharLapVersion(): """Returns the version of the installed ETS Tool Suite as a decimal number. This version comes from the ETS_VER #define in the embkern.h header. For example, '#define ETS_VER 1010' (which is what Phar Lap 10.1 defines) would cause this method to return 1010. Phar Lap 9.1 does not have such a #define, but this method will return 910 as a default. Raises UserError if no installed version of Phar Lap can be found.""" include_path = os.path.join(getPharLapPath(), os.path.normpath("include/embkern.h")) if not os.path.exists(include_path): raise SCons.Errors.UserError("Cannot find embkern.h in ETS include directory.\nIs Phar Lap ETS installed properly?") mo = REGEX_ETS_VER.search(open(include_path, 'r').read()) if mo: return int(mo.group(1)) # Default return for Phar Lap 9.1 return 910 def addPharLapPaths(env): """This function adds the path to the Phar Lap binaries, includes, and libraries, if they are not already there.""" ph_path = getPharLapPath() try: env_dict = env['ENV'] except KeyError: env_dict = {} env['ENV'] = env_dict SCons.Util.AddPathIfNotExists(env_dict, 'PATH', os.path.join(ph_path, 'bin')) SCons.Util.AddPathIfNotExists(env_dict, 'INCLUDE', os.path.join(ph_path, 'include')) SCons.Util.AddPathIfNotExists(env_dict, 'LIB', os.path.join(ph_path, 'lib')) SCons.Util.AddPathIfNotExists(env_dict, 'LIB', os.path.join(ph_path, os.path.normpath('lib/vclib'))) env['PHARLAP_PATH'] = getPharLapPath() env['PHARLAP_VERSION'] = str(getPharLapVersion()) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/gs.py0000664000175000017500000000566513202656511020347 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.gs Tool-specific initialization for Ghostscript. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/gs.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Action import SCons.Builder import SCons.Platform import SCons.Util # Ghostscript goes by different names on different platforms... platform = SCons.Platform.platform_default() if platform == 'os2': gs = 'gsos2' elif platform == 'win32': gs = 'gswin32c' else: gs = 'gs' GhostscriptAction = None def generate(env): """Add Builders and construction variables for Ghostscript to an Environment.""" global GhostscriptAction # The following try-except block enables us to use the Tool # in standalone mode (without the accompanying pdf.py), # whenever we need an explicit call of gs via the Gs() # Builder ... try: if GhostscriptAction is None: GhostscriptAction = SCons.Action.Action('$GSCOM', '$GSCOMSTR') from SCons.Tool import pdf pdf.generate(env) bld = env['BUILDERS']['PDF'] bld.add_action('.ps', GhostscriptAction) except ImportError as e: pass gsbuilder = SCons.Builder.Builder(action = SCons.Action.Action('$GSCOM', '$GSCOMSTR')) env['BUILDERS']['Gs'] = gsbuilder env['GS'] = gs env['GSFLAGS'] = SCons.Util.CLVar('-dNOPAUSE -dBATCH -sDEVICE=pdfwrite') env['GSCOM'] = '$GS $GSFLAGS -sOutputFile=$TARGET $SOURCES' def exists(env): if 'PS2PDF' in env: return env.Detect(env['PS2PDF']) else: return env.Detect(gs) or SCons.Util.WhereIs(gs) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sgic++.py0000664000175000017500000000316513202656512021003 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sgic++ Tool-specific initialization for MIPSpro C++ on SGI. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sgic++.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" #forward proxy to the preffered cxx version from SCons.Tool.sgicxx import * # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/msgmerge.py0000664000175000017500000001025113202656512021530 0ustar bdbaddogbdbaddog00000000000000""" msgmerget tool Tool specific initialization for `msgmerge` tool. """ # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/msgmerge.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" ############################################################################# def _update_or_init_po_files(target, source, env): """ Action function for `POUpdate` builder """ import SCons.Action from SCons.Tool.GettextCommon import _init_po_files for tgt in target: if tgt.rexists(): action = SCons.Action.Action('$MSGMERGECOM', '$MSGMERGECOMSTR') else: action = _init_po_files status = action([tgt], source, env) if status : return status return 0 ############################################################################# ############################################################################# def _POUpdateBuilder(env, **kw): """ Create an object of `POUpdate` builder """ import SCons.Action from SCons.Tool.GettextCommon import _POFileBuilder action = SCons.Action.Action(_update_or_init_po_files, None) return _POFileBuilder(env, action=action, target_alias='$POUPDATE_ALIAS') ############################################################################# ############################################################################# from SCons.Environment import _null ############################################################################# def _POUpdateBuilderWrapper(env, target=None, source=_null, **kw): """ Wrapper for `POUpdate` builder - make user's life easier """ if source is _null: if 'POTDOMAIN' in kw: domain = kw['POTDOMAIN'] elif 'POTDOMAIN' in env and env['POTDOMAIN']: domain = env['POTDOMAIN'] else: domain = 'messages' source = [ domain ] # NOTE: Suffix shall be appended automatically return env._POUpdateBuilder(target, source, **kw) ############################################################################# ############################################################################# def generate(env,**kw): """ Generate the `xgettext` tool """ from SCons.Tool.GettextCommon import _detect_msgmerge try: env['MSGMERGE'] = _detect_msgmerge(env) except: env['MSGMERGE'] = 'msgmerge' env.SetDefault( POTSUFFIX = ['.pot'], POSUFFIX = ['.po'], MSGMERGECOM = '$MSGMERGE $MSGMERGEFLAGS --update $TARGET $SOURCE', MSGMERGECOMSTR = '', MSGMERGEFLAGS = [ ], POUPDATE_ALIAS = 'po-update' ) env.Append(BUILDERS = { '_POUpdateBuilder':_POUpdateBuilder(env) }) env.AddMethod(_POUpdateBuilderWrapper, 'POUpdate') env.AlwaysBuild(env.Alias('$POUPDATE_ALIAS')) ############################################################################# ############################################################################# def exists(env): """ Check if the tool exists """ from SCons.Tool.GettextCommon import _msgmerge_exists try: return _msgmerge_exists(env) except: return False ############################################################################# # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/pdftex.py0000664000175000017500000000726113202656512021223 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.pdftex Tool-specific initialization for pdftex. Generates .pdf files from .tex files There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/pdftex.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import SCons.Action import SCons.Util import SCons.Tool.tex PDFTeXAction = None # This action might be needed more than once if we are dealing with # labels and bibtex. PDFLaTeXAction = None def PDFLaTeXAuxAction(target = None, source= None, env=None): result = SCons.Tool.tex.InternalLaTeXAuxAction( PDFLaTeXAction, target, source, env ) return result def PDFTeXLaTeXFunction(target = None, source= None, env=None): """A builder for TeX and LaTeX that scans the source file to decide the "flavor" of the source and then executes the appropriate program.""" basedir = os.path.split(str(source[0]))[0] abspath = os.path.abspath(basedir) if SCons.Tool.tex.is_LaTeX(source,env,abspath): result = PDFLaTeXAuxAction(target,source,env) if result != 0: SCons.Tool.tex.check_file_error_message(env['PDFLATEX']) else: result = PDFTeXAction(target,source,env) if result != 0: SCons.Tool.tex.check_file_error_message(env['PDFTEX']) return result PDFTeXLaTeXAction = None def generate(env): """Add Builders and construction variables for pdftex to an Environment.""" global PDFTeXAction if PDFTeXAction is None: PDFTeXAction = SCons.Action.Action('$PDFTEXCOM', '$PDFTEXCOMSTR') global PDFLaTeXAction if PDFLaTeXAction is None: PDFLaTeXAction = SCons.Action.Action("$PDFLATEXCOM", "$PDFLATEXCOMSTR") global PDFTeXLaTeXAction if PDFTeXLaTeXAction is None: PDFTeXLaTeXAction = SCons.Action.Action(PDFTeXLaTeXFunction, strfunction=SCons.Tool.tex.TeXLaTeXStrFunction) env.AppendUnique(LATEXSUFFIXES=SCons.Tool.LaTeXSuffixes) from . import pdf pdf.generate(env) bld = env['BUILDERS']['PDF'] bld.add_action('.tex', PDFTeXLaTeXAction) bld.add_emitter('.tex', SCons.Tool.tex.tex_pdf_emitter) # Add the epstopdf builder after the pdftex builder # so pdftex is the default for no source suffix pdf.generate2(env) SCons.Tool.tex.generate_common(env) def exists(env): SCons.Tool.tex.generate_darwin(env) return env.Detect('pdftex') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sunc++.py0000664000175000017500000000317313202656512021025 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sunc++ Tool-specific initialization for C++ on SunOS / Solaris. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sunc++.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" #forward proxy to the preffered cxx version from SCons.Tool.suncxx import * # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/hplink.py0000664000175000017500000000452313202656511021213 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.hplink Tool-specific initialization for the HP linker. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/hplink.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import SCons.Util from . import link ccLinker = None # search for the acc compiler and linker front end try: dirs = os.listdir('/opt') except (IOError, OSError): # Not being able to read the directory because it doesn't exist # (IOError) or isn't readable (OSError) is okay. dirs = [] for dir in dirs: linker = '/opt/' + dir + '/bin/aCC' if os.path.exists(linker): ccLinker = linker break def generate(env): """ Add Builders and construction variables for Visual Age linker to an Environment. """ link.generate(env) env['LINKFLAGS'] = SCons.Util.CLVar('-Wl,+s -Wl,+vnocompatwarnings') env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -b') env['SHLIBSUFFIX'] = '.sl' def exists(env): return ccLinker # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/f03.py0000664000175000017500000000377013202656511020321 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.f03 Tool-specific initialization for the generic Posix f03 Fortran compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/f03.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util from . import fortran from SCons.Tool.FortranCommon import add_all_to_env, add_f03_to_env compilers = ['f03'] def generate(env): add_all_to_env(env) add_f03_to_env(env) fcomp = env.Detect(compilers) or 'f03' env['F03'] = fcomp env['SHF03'] = fcomp env['FORTRAN'] = fcomp env['SHFORTRAN'] = fcomp def exists(env): return env.Detect(compilers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/applelink.py0000664000175000017500000000625413202656511021710 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.applelink Tool-specific initialization for the Apple gnu-like linker. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/applelink.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util # Even though the Mac is based on the GNU toolchain, it doesn't understand # the -rpath option, so we use the "link" tool instead of "gnulink". from . import link def generate(env): """Add Builders and construction variables for applelink to an Environment.""" link.generate(env) env['FRAMEWORKPATHPREFIX'] = '-F' env['_FRAMEWORKPATH'] = '${_concat(FRAMEWORKPATHPREFIX, FRAMEWORKPATH, "", __env__)}' env['_FRAMEWORKS'] = '${_concat("-framework ", FRAMEWORKS, "", __env__)}' env['LINKCOM'] = env['LINKCOM'] + ' $_FRAMEWORKPATH $_FRAMEWORKS $FRAMEWORKSFLAGS' env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -dynamiclib') env['SHLINKCOM'] = env['SHLINKCOM'] + ' $_FRAMEWORKPATH $_FRAMEWORKS $FRAMEWORKSFLAGS' # TODO: Work needed to generate versioned shared libraries # Leaving this commented out, and also going to disable versioned library checking for now # see: http://docstore.mik.ua/orelly/unix3/mac/ch05_04.htm for proper naming #link._setup_versioned_lib_variables(env, tool = 'applelink')#, use_soname = use_soname) #env['LINKCALLBACKS'] = link._versioned_lib_callbacks() # override the default for loadable modules, which are different # on OS X than dynamic shared libs. echoing what XCode does for # pre/suffixes: env['LDMODULEPREFIX'] = '' env['LDMODULESUFFIX'] = '' env['LDMODULEFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -bundle') env['LDMODULECOM'] = '$LDMODULE -o ${TARGET} $LDMODULEFLAGS $SOURCES $_LIBDIRFLAGS $_LIBFLAGS $_FRAMEWORKPATH $_FRAMEWORKS $FRAMEWORKSFLAGS' def exists(env): return env['PLATFORM'] == 'darwin' # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/cxx.py0000664000175000017500000000656513202656511020540 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.c++ Tool-specific initialization for generic Posix C++ compilers. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/cxx.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Tool import SCons.Defaults import SCons.Util compilers = ['CC', 'c++'] CXXSuffixes = ['.cpp', '.cc', '.cxx', '.c++', '.C++', '.mm'] if SCons.Util.case_sensitive_suffixes('.c', '.C'): CXXSuffixes.append('.C') def iscplusplus(source): if not source: # Source might be None for unusual cases like SConf. return 0 for s in source: if s.sources: ext = os.path.splitext(str(s.sources[0]))[1] if ext in CXXSuffixes: return 1 return 0 def generate(env): """ Add Builders and construction variables for Visual Age C++ compilers to an Environment. """ import SCons.Tool import SCons.Tool.cc static_obj, shared_obj = SCons.Tool.createObjBuilders(env) for suffix in CXXSuffixes: static_obj.add_action(suffix, SCons.Defaults.CXXAction) shared_obj.add_action(suffix, SCons.Defaults.ShCXXAction) static_obj.add_emitter(suffix, SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter(suffix, SCons.Defaults.SharedObjectEmitter) SCons.Tool.cc.add_common_cc_variables(env) if 'CXX' not in env: env['CXX'] = env.Detect(compilers) or compilers[0] env['CXXFLAGS'] = SCons.Util.CLVar('') env['CXXCOM'] = '$CXX -o $TARGET -c $CXXFLAGS $CCFLAGS $_CCCOMCOM $SOURCES' env['SHCXX'] = '$CXX' env['SHCXXFLAGS'] = SCons.Util.CLVar('$CXXFLAGS') env['SHCXXCOM'] = '$SHCXX -o $TARGET -c $SHCXXFLAGS $SHCCFLAGS $_CCCOMCOM $SOURCES' env['CPPDEFPREFIX'] = '-D' env['CPPDEFSUFFIX'] = '' env['INCPREFIX'] = '-I' env['INCSUFFIX'] = '' env['SHOBJSUFFIX'] = '.os' env['OBJSUFFIX'] = '.o' env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 0 env['CXXFILESUFFIX'] = '.cc' def exists(env): return env.Detect(env.get('CXX', compilers)) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/gas.py0000664000175000017500000000367213202656511020504 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.gas Tool-specific initialization for as, the Gnu assembler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/gas.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" try: as_module = __import__('as', globals(), locals(), []) except: as_module = __import__(__package__+'.as', globals(), locals(), ['*']) assemblers = ['as', 'gas'] def generate(env): """Add Builders and construction variables for as to an Environment.""" as_module.generate(env) env['AS'] = env.Detect(assemblers) or 'as' def exists(env): return env.Detect(assemblers) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/suncxx.py0000664000175000017500000001127013202656512021254 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sunc++ Tool-specific initialization for C++ on SunOS / Solaris. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/suncxx.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons import os import re import subprocess import SCons.Tool.cxx cplusplus = SCons.Tool.cxx #cplusplus = __import__('c++', globals(), locals(), []) package_info = {} def get_package_info(package_name, pkginfo, pkgchk): try: return package_info[package_name] except KeyError: version = None pathname = None try: sadm_contents = open('/var/sadm/install/contents', 'r').read() except EnvironmentError: pass else: sadm_re = re.compile('^(\S*/bin/CC)(=\S*)? %s$' % package_name, re.M) sadm_match = sadm_re.search(sadm_contents) if sadm_match: pathname = os.path.dirname(sadm_match.group(1)) try: p = subprocess.Popen([pkginfo, '-l', package_name], stdout=subprocess.PIPE, stderr=open('/dev/null', 'w')) except EnvironmentError: pass else: pkginfo_contents = p.communicate()[0] version_re = re.compile('^ *VERSION:\s*(.*)$', re.M) version_match = version_re.search(pkginfo_contents) if version_match: version = version_match.group(1) if pathname is None: try: p = subprocess.Popen([pkgchk, '-l', package_name], stdout=subprocess.PIPE, stderr=open('/dev/null', 'w')) except EnvironmentError: pass else: pkgchk_contents = p.communicate()[0] pathname_re = re.compile(r'^Pathname:\s*(.*/bin/CC)$', re.M) pathname_match = pathname_re.search(pkgchk_contents) if pathname_match: pathname = os.path.dirname(pathname_match.group(1)) package_info[package_name] = (pathname, version) return package_info[package_name] # use the package installer tool lslpp to figure out where cppc and what # version of it is installed def get_cppc(env): cxx = env.subst('$CXX') if cxx: cppcPath = os.path.dirname(cxx) else: cppcPath = None cppcVersion = None pkginfo = env.subst('$PKGINFO') pkgchk = env.subst('$PKGCHK') for package in ['SPROcpl']: path, version = get_package_info(package, pkginfo, pkgchk) if path and version: cppcPath, cppcVersion = path, version break return (cppcPath, 'CC', 'CC', cppcVersion) def generate(env): """Add Builders and construction variables for SunPRO C++.""" path, cxx, shcxx, version = get_cppc(env) if path: cxx = os.path.join(path, cxx) shcxx = os.path.join(path, shcxx) cplusplus.generate(env) env['CXX'] = cxx env['SHCXX'] = shcxx env['CXXVERSION'] = version env['SHCXXFLAGS'] = SCons.Util.CLVar('$CXXFLAGS -KPIC') env['SHOBJPREFIX'] = 'so_' env['SHOBJSUFFIX'] = '.o' def exists(env): path, cxx, shcxx, version = get_cppc(env) if path and cxx: cppc = os.path.join(path, cxx) if os.path.exists(cppc): return cppc return None # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/dmd.py0000664000175000017500000001427113202656511020473 0ustar bdbaddogbdbaddog00000000000000from __future__ import print_function """SCons.Tool.dmd Tool-specific initialization for the Digital Mars D compiler. (http://digitalmars.com/d) Originally coded by Andy Friesen (andy@ikagames.com) 15 November 2003 Evolved by Russel Winder (russel@winder.org.uk) 2010-02-07 onwards Compiler variables: DC - The name of the D compiler to use. Defaults to dmd or gdmd, whichever is found. DPATH - List of paths to search for import modules. DVERSIONS - List of version tags to enable when compiling. DDEBUG - List of debug tags to enable when compiling. Linker related variables: LIBS - List of library files to link in. DLINK - Name of the linker to use. Defaults to dmd or gdmd, whichever is found. DLINKFLAGS - List of linker flags. Lib tool variables: DLIB - Name of the lib tool to use. Defaults to lib. DLIBFLAGS - List of flags to pass to the lib tool. LIBS - Same as for the linker. (libraries to pull into the .lib) """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/dmd.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import subprocess import SCons.Action import SCons.Builder import SCons.Defaults import SCons.Scanner.D import SCons.Tool import SCons.Tool.DCommon as DCommon def generate(env): static_obj, shared_obj = SCons.Tool.createObjBuilders(env) static_obj.add_action('.d', SCons.Defaults.DAction) shared_obj.add_action('.d', SCons.Defaults.ShDAction) static_obj.add_emitter('.d', SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter('.d', SCons.Defaults.SharedObjectEmitter) env['DC'] = env.Detect(['dmd', 'ldmd2', 'gdmd']) or 'dmd' env['DCOM'] = '$DC $_DINCFLAGS $_DVERFLAGS $_DDEBUGFLAGS $_DFLAGS -c -of$TARGET $SOURCES' env['_DINCFLAGS'] = '${_concat(DINCPREFIX, DPATH, DINCSUFFIX, __env__, RDirs, TARGET, SOURCE)}' env['_DVERFLAGS'] = '${_concat(DVERPREFIX, DVERSIONS, DVERSUFFIX, __env__)}' env['_DDEBUGFLAGS'] = '${_concat(DDEBUGPREFIX, DDEBUG, DDEBUGSUFFIX, __env__)}' env['_DFLAGS'] = '${_concat(DFLAGPREFIX, DFLAGS, DFLAGSUFFIX, __env__)}' env['SHDC'] = '$DC' env['SHDCOM'] = '$DC $_DINCFLAGS $_DVERFLAGS $_DDEBUGFLAGS $_DFLAGS -c -fPIC -of$TARGET $SOURCES' env['DPATH'] = ['#/'] env['DFLAGS'] = [] env['DVERSIONS'] = [] env['DDEBUG'] = [] if env['DC']: DCommon.addDPATHToEnv(env, env['DC']) env['DINCPREFIX'] = '-I' env['DINCSUFFIX'] = '' env['DVERPREFIX'] = '-version=' env['DVERSUFFIX'] = '' env['DDEBUGPREFIX'] = '-debug=' env['DDEBUGSUFFIX'] = '' env['DFLAGPREFIX'] = '-' env['DFLAGSUFFIX'] = '' env['DFILESUFFIX'] = '.d' env['DLINK'] = '$DC' env['DLINKFLAGS'] = SCons.Util.CLVar('') env['DLINKCOM'] = '$DLINK -of$TARGET $DLINKFLAGS $__DRPATH $SOURCES $_DLIBDIRFLAGS $_DLIBFLAGS' env['SHDLINK'] = '$DC' env['SHDLINKFLAGS'] = SCons.Util.CLVar('$DLINKFLAGS -shared -defaultlib=libphobos2.so') env['SHDLINKCOM'] = '$DLINK -of$TARGET $SHDLINKFLAGS $__SHDLIBVERSIONFLAGS $__DRPATH $SOURCES $_DLIBDIRFLAGS $_DLIBFLAGS' env['DLIBLINKPREFIX'] = '' if env['PLATFORM'] == 'win32' else '-L-l' env['DLIBLINKSUFFIX'] = '.lib' if env['PLATFORM'] == 'win32' else '' env['_DLIBFLAGS'] = '${_stripixes(DLIBLINKPREFIX, LIBS, DLIBLINKSUFFIX, LIBPREFIXES, LIBSUFFIXES, __env__)}' env['DLIBDIRPREFIX'] = '-L-L' env['DLIBDIRSUFFIX'] = '' env['_DLIBDIRFLAGS'] = '${_concat(DLIBDIRPREFIX, LIBPATH, DLIBDIRSUFFIX, __env__, RDirs, TARGET, SOURCE)}' env['DLIB'] = 'lib' if env['PLATFORM'] == 'win32' else 'ar cr' env['DLIBCOM'] = '$DLIB $_DLIBFLAGS {0}$TARGET $SOURCES $_DLIBFLAGS'.format('-c ' if env['PLATFORM'] == 'win32' else '') # env['_DLIBFLAGS'] = '${_concat(DLIBFLAGPREFIX, DLIBFLAGS, DLIBFLAGSUFFIX, __env__)}' env['DLIBFLAGPREFIX'] = '-' env['DLIBFLAGSUFFIX'] = '' # __RPATH is set to $_RPATH in the platform specification if that # platform supports it. env['DRPATHPREFIX'] = '-L-rpath,' if env['PLATFORM'] == 'darwin' else '-L-rpath=' env['DRPATHSUFFIX'] = '' env['_DRPATH'] = '${_concat(DRPATHPREFIX, RPATH, DRPATHSUFFIX, __env__)}' # Support for versioned libraries env['_SHDLIBVERSIONFLAGS'] = '$SHDLIBVERSIONFLAGS -L-soname=$_SHDLIBSONAME' env['_SHDLIBSONAME'] = '${DShLibSonameGenerator(__env__,TARGET)}' # NOTE: this is a quick hack, the soname will only work if there is # c/c++ linker loaded which provides callback for the ShLibSonameGenerator env['DShLibSonameGenerator'] = SCons.Tool.ShLibSonameGenerator # NOTE: this is only for further reference, currently $SHDLIBVERSION does # not work, the user must use $SHLIBVERSION env['SHDLIBVERSION'] = '$SHLIBVERSION' env['SHDLIBVERSIONFLAGS'] = [] env['BUILDERS']['ProgramAllAtOnce'] = SCons.Builder.Builder( action='$DC $_DINCFLAGS $_DVERFLAGS $_DDEBUGFLAGS $_DFLAGS -of$TARGET $DLINKFLAGS $__DRPATH $SOURCES $_DLIBDIRFLAGS $_DLIBFLAGS', emitter=DCommon.allAtOnceEmitter, ) def exists(env): return env.Detect(['dmd', 'ldmd2', 'gdmd']) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/zip.py0000664000175000017500000000620213202656512020525 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.zip Tool-specific initialization for zip. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/zip.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Builder import SCons.Defaults import SCons.Node.FS import SCons.Util import zipfile zipcompression = zipfile.ZIP_DEFLATED def zip(target, source, env): compression = env.get('ZIPCOMPRESSION', 0) zf = zipfile.ZipFile(str(target[0]), 'w', compression) for s in source: if s.isdir(): for dirpath, dirnames, filenames in os.walk(str(s)): for fname in filenames: path = os.path.join(dirpath, fname) if os.path.isfile(path): zf.write(path, os.path.relpath(path, str(env.get('ZIPROOT', '')))) else: zf.write(str(s), os.path.relpath(str(s), str(env.get('ZIPROOT', '')))) zf.close() zipAction = SCons.Action.Action(zip, varlist=['ZIPCOMPRESSION']) ZipBuilder = SCons.Builder.Builder(action = SCons.Action.Action('$ZIPCOM', '$ZIPCOMSTR'), source_factory = SCons.Node.FS.Entry, source_scanner = SCons.Defaults.DirScanner, suffix = '$ZIPSUFFIX', multi = 1) def generate(env): """Add Builders and construction variables for zip to an Environment.""" try: bld = env['BUILDERS']['Zip'] except KeyError: bld = ZipBuilder env['BUILDERS']['Zip'] = bld env['ZIP'] = 'zip' env['ZIPFLAGS'] = SCons.Util.CLVar('') env['ZIPCOM'] = zipAction env['ZIPCOMPRESSION'] = zipcompression env['ZIPSUFFIX'] = '.zip' env['ZIPROOT'] = SCons.Util.CLVar('') def exists(env): return True # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/gdc.py0000664000175000017500000001304513202656511020462 0ustar bdbaddogbdbaddog00000000000000from __future__ import print_function """SCons.Tool.gdc Tool-specific initialization for the GDC compiler. (https://github.com/D-Programming-GDC/GDC) Developed by Russel Winder (russel@winder.org.uk) 2012-05-09 onwards Compiler variables: DC - The name of the D compiler to use. Defaults to gdc. DPATH - List of paths to search for import modules. DVERSIONS - List of version tags to enable when compiling. DDEBUG - List of debug tags to enable when compiling. Linker related variables: LIBS - List of library files to link in. DLINK - Name of the linker to use. Defaults to gdc. DLINKFLAGS - List of linker flags. Lib tool variables: DLIB - Name of the lib tool to use. Defaults to lib. DLIBFLAGS - List of flags to pass to the lib tool. LIBS - Same as for the linker. (libraries to pull into the .lib) """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/gdc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Action import SCons.Defaults import SCons.Tool import SCons.Tool.DCommon as DCommon def generate(env): static_obj, shared_obj = SCons.Tool.createObjBuilders(env) static_obj.add_action('.d', SCons.Defaults.DAction) shared_obj.add_action('.d', SCons.Defaults.ShDAction) static_obj.add_emitter('.d', SCons.Defaults.StaticObjectEmitter) shared_obj.add_emitter('.d', SCons.Defaults.SharedObjectEmitter) env['DC'] = env.Detect('gdc') or 'gdc' env['DCOM'] = '$DC $_DINCFLAGS $_DVERFLAGS $_DDEBUGFLAGS $_DFLAGS -c -o $TARGET $SOURCES' env['_DINCFLAGS'] = '${_concat(DINCPREFIX, DPATH, DINCSUFFIX, __env__, RDirs, TARGET, SOURCE)}' env['_DVERFLAGS'] = '${_concat(DVERPREFIX, DVERSIONS, DVERSUFFIX, __env__)}' env['_DDEBUGFLAGS'] = '${_concat(DDEBUGPREFIX, DDEBUG, DDEBUGSUFFIX, __env__)}' env['_DFLAGS'] = '${_concat(DFLAGPREFIX, DFLAGS, DFLAGSUFFIX, __env__)}' env['SHDC'] = '$DC' env['SHDCOM'] = '$SHDC $_DINCFLAGS $_DVERFLAGS $_DDEBUGFLAGS $_DFLAGS -fPIC -c -o $TARGET $SOURCES' env['DPATH'] = ['#/'] env['DFLAGS'] = [] env['DVERSIONS'] = [] env['DDEBUG'] = [] if env['DC']: DCommon.addDPATHToEnv(env, env['DC']) env['DINCPREFIX'] = '-I' env['DINCSUFFIX'] = '' env['DVERPREFIX'] = '-version=' env['DVERSUFFIX'] = '' env['DDEBUGPREFIX'] = '-debug=' env['DDEBUGSUFFIX'] = '' env['DFLAGPREFIX'] = '-' env['DFLAGSUFFIX'] = '' env['DFILESUFFIX'] = '.d' env['DLINK'] = '$DC' env['DLINKFLAGS'] = SCons.Util.CLVar('') env['DLINKCOM'] = '$DLINK -o $TARGET $DLINKFLAGS $__RPATH $SOURCES $_LIBDIRFLAGS $_LIBFLAGS' env['SHDLINK'] = '$DC' env['SHDLINKFLAGS'] = SCons.Util.CLVar('$DLINKFLAGS -shared -shared-libphobos') env['SHDLINKCOM'] = '$DLINK -o $TARGET $SHDLINKFLAGS $__SHDLIBVERSIONFLAGS $__RPATH $SOURCES $_LIBDIRFLAGS $_LIBFLAGS' env['DLIB'] = 'lib' if env['PLATFORM'] == 'win32' else 'ar cr' env['DLIBCOM'] = '$DLIB $_DLIBFLAGS {0}$TARGET $SOURCES $_DLINKLIBFLAGS'.format('-c ' if env['PLATFORM'] == 'win32' else '') env['_DLIBFLAGS'] = '${_concat(DLIBFLAGPREFIX, DLIBFLAGS, DLIBFLAGSUFFIX, __env__)}' env['DLIBFLAGPREFIX'] = '-' env['DLIBFLAGSUFFIX'] = '' env['DLINKFLAGPREFIX'] = '-' env['DLINKFLAGSUFFIX'] = '' # __RPATH is set to $_RPATH in the platform specification if that # platform supports it. env['RPATHPREFIX'] = '-Wl,-rpath=' env['RPATHSUFFIX'] = '' env['_RPATH'] = '${_concat(RPATHPREFIX, RPATH, RPATHSUFFIX, __env__)}' # Support for versioned libraries env['_SHDLIBVERSIONFLAGS'] = '$SHDLIBVERSIONFLAGS -Wl,-soname=$_SHDLIBSONAME' env['_SHDLIBSONAME'] = '${DShLibSonameGenerator(__env__,TARGET)}' # NOTE: this is a quick hack, the soname will only work if there is # c/c++ linker loaded which provides callback for the ShLibSonameGenerator env['DShLibSonameGenerator'] = SCons.Tool.ShLibSonameGenerator # NOTE: this is only for further reference, currently $SHDLIBVERSION does # not work, the user must use $SHLIBVERSION env['SHDLIBVERSION'] = '$SHLIBVERSION' env['SHDLIBVERSIONFLAGS'] = '$SHLIBVERSIONFLAGS' env['BUILDERS']['ProgramAllAtOnce'] = SCons.Builder.Builder( action='$DC $_DINCFLAGS $_DVERFLAGS $_DDEBUGFLAGS $_DFLAGS -o $TARGET $DLINKFLAGS $__DRPATH $SOURCES $_DLIBDIRFLAGS $_DLIBFLAGS', emitter=DCommon.allAtOnceEmitter, ) def exists(env): return env.Detect('gdc') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/swig.py0000664000175000017500000001657413202656512020711 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.swig Tool-specific initialization for swig. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ from __future__ import print_function # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/swig.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import re import subprocess import SCons.Action import SCons.Defaults import SCons.Tool import SCons.Util import SCons.Node verbose = False swigs = [ 'swig', 'swig3.0', 'swig2.0' ] SwigAction = SCons.Action.Action('$SWIGCOM', '$SWIGCOMSTR') def swigSuffixEmitter(env, source): if '-c++' in SCons.Util.CLVar(env.subst("$SWIGFLAGS", source=source)): return '$SWIGCXXFILESUFFIX' else: return '$SWIGCFILESUFFIX' # Match '%module test', as well as '%module(directors="1") test' # Also allow for test to be quoted (SWIG permits double quotes, but not single) # Also allow for the line to have spaces after test if not quoted _reModule = re.compile(r'%module(\s*\(.*\))?\s+("?)(\S+)\2') def _find_modules(src): """Find all modules referenced by %module lines in `src`, a SWIG .i file. Returns a list of all modules, and a flag set if SWIG directors have been requested (SWIG will generate an additional header file in this case.)""" directors = 0 mnames = [] try: matches = _reModule.findall(open(src).read()) except IOError: # If the file's not yet generated, guess the module name from the file stem matches = [] mnames.append(os.path.splitext(os.path.basename(src))[0]) for m in matches: mnames.append(m[2]) directors = directors or m[0].find('directors') >= 0 return mnames, directors def _add_director_header_targets(target, env): # Directors only work with C++ code, not C suffix = env.subst(env['SWIGCXXFILESUFFIX']) # For each file ending in SWIGCXXFILESUFFIX, add a new target director # header by replacing the ending with SWIGDIRECTORSUFFIX. for x in target[:]: n = x.name d = x.dir if n[-len(suffix):] == suffix: target.append(d.File(n[:-len(suffix)] + env['SWIGDIRECTORSUFFIX'])) def _swigEmitter(target, source, env): swigflags = env.subst("$SWIGFLAGS", target=target, source=source) flags = SCons.Util.CLVar(swigflags) for src in source: src = str(src.rfile()) mnames = None if "-python" in flags and "-noproxy" not in flags: if mnames is None: mnames, directors = _find_modules(src) if directors: _add_director_header_targets(target, env) python_files = [m + ".py" for m in mnames] outdir = env.subst('$SWIGOUTDIR', target=target, source=source) # .py files should be generated in SWIGOUTDIR if specified, # otherwise in the same directory as the target if outdir: python_files = [env.fs.File(os.path.join(outdir, j)) for j in python_files] else: python_files = [target[0].dir.File(m) for m in python_files] target.extend(python_files) if "-java" in flags: if mnames is None: mnames, directors = _find_modules(src) if directors: _add_director_header_targets(target, env) java_files = [[m + ".java", m + "JNI.java"] for m in mnames] java_files = SCons.Util.flatten(java_files) outdir = env.subst('$SWIGOUTDIR', target=target, source=source) if outdir: java_files = [os.path.join(outdir, j) for j in java_files] java_files = list(map(env.fs.File, java_files)) def t_from_s(t, p, s, x): return t.dir tsm = SCons.Node._target_from_source_map tkey = len(tsm) tsm[tkey] = t_from_s for jf in java_files: jf._func_target_from_source = tkey target.extend(java_files) return (target, source) def _get_swig_version(env, swig): """Run the SWIG command line tool to get and return the version number""" swig = env.subst(swig) pipe = SCons.Action._subproc(env, SCons.Util.CLVar(swig) + ['-version'], stdin = 'devnull', stderr = 'devnull', stdout = subprocess.PIPE) if pipe.wait() != 0: return # MAYBE: out = SCons.Util.to_str (pipe.stdout.read()) out = SCons.Util.to_str(pipe.stdout.read()) match = re.search('SWIG Version\s+(\S+).*', out, re.MULTILINE) if match: if verbose: print("Version is:%s"%match.group(1)) return match.group(1) else: if verbose: print("Unable to detect version: [%s]"%out) def generate(env): """Add Builders and construction variables for swig to an Environment.""" c_file, cxx_file = SCons.Tool.createCFileBuilders(env) c_file.suffix['.i'] = swigSuffixEmitter cxx_file.suffix['.i'] = swigSuffixEmitter c_file.add_action('.i', SwigAction) c_file.add_emitter('.i', _swigEmitter) cxx_file.add_action('.i', SwigAction) cxx_file.add_emitter('.i', _swigEmitter) java_file = SCons.Tool.CreateJavaFileBuilder(env) java_file.suffix['.i'] = swigSuffixEmitter java_file.add_action('.i', SwigAction) java_file.add_emitter('.i', _swigEmitter) if 'SWIG' not in env: env['SWIG'] = env.Detect(swigs) or swigs[0] env['SWIGVERSION'] = _get_swig_version(env, env['SWIG']) env['SWIGFLAGS'] = SCons.Util.CLVar('') env['SWIGDIRECTORSUFFIX'] = '_wrap.h' env['SWIGCFILESUFFIX'] = '_wrap$CFILESUFFIX' env['SWIGCXXFILESUFFIX'] = '_wrap$CXXFILESUFFIX' env['_SWIGOUTDIR'] = r'${"-outdir \"%s\"" % SWIGOUTDIR}' env['SWIGPATH'] = [] env['SWIGINCPREFIX'] = '-I' env['SWIGINCSUFFIX'] = '' env['_SWIGINCFLAGS'] = '$( ${_concat(SWIGINCPREFIX, SWIGPATH, SWIGINCSUFFIX, __env__, RDirs, TARGET, SOURCE)} $)' env['SWIGCOM'] = '$SWIG -o $TARGET ${_SWIGOUTDIR} ${_SWIGINCFLAGS} $SWIGFLAGS $SOURCES' def exists(env): swig = env.get('SWIG') or env.Detect(['swig']) return swig # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/msvs.py0000664000175000017500000023320513202656512020720 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.msvs Tool-specific initialization for Microsoft Visual Studio project files. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import print_function __revision__ = "src/engine/SCons/Tool/msvs.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.compat import base64 import hashlib import ntpath import os import pickle import re import sys import SCons.Builder import SCons.Node.FS import SCons.Platform.win32 import SCons.Script.SConscript import SCons.PathList import SCons.Util import SCons.Warnings from .MSCommon import msvc_exists, msvc_setup_env_once from SCons.Defaults import processDefines from SCons.compat import PICKLE_PROTOCOL ############################################################################## # Below here are the classes and functions for generation of # DSP/DSW/SLN/VCPROJ files. ############################################################################## def xmlify(s): s = s.replace("&", "&") # do this first s = s.replace("'", "'") s = s.replace('"', """) s = s.replace('<', "<") s = s.replace('>', ">") s = s.replace('\n', ' ') return s # Process a CPPPATH list in includes, given the env, target and source. # Returns a tuple of nodes. def processIncludes(includes, env, target, source): return SCons.PathList.PathList(includes).subst_path(env, target, source) external_makefile_guid = '{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}' def _generateGUID(slnfile, name): """This generates a dummy GUID for the sln file to use. It is based on the MD5 signatures of the sln filename plus the name of the project. It basically just needs to be unique, and not change with each invocation.""" m = hashlib.md5() # Normalize the slnfile path to a Windows path (\ separators) so # the generated file has a consistent GUID even if we generate # it on a non-Windows platform. m.update(bytearray(ntpath.normpath(str(slnfile)) + str(name),'utf-8')) solution = m.hexdigest().upper() # convert most of the signature to GUID form (discard the rest) solution = "{" + solution[:8] + "-" + solution[8:12] + "-" + solution[12:16] + "-" + solution[16:20] + "-" + solution[20:32] + "}" return solution version_re = re.compile(r'(\d+\.\d+)(.*)') def msvs_parse_version(s): """ Split a Visual Studio version, which may in fact be something like '7.0Exp', into is version number (returned as a float) and trailing "suite" portion. """ num, suite = version_re.match(s).groups() return float(num), suite # This is how we re-invoke SCons from inside MSVS Project files. # The problem is that we might have been invoked as either scons.bat # or scons.py. If we were invoked directly as scons.py, then we could # use sys.argv[0] to find the SCons "executable," but that doesn't work # if we were invoked as scons.bat, which uses "python -c" to execute # things and ends up with "-c" as sys.argv[0]. Consequently, we have # the MSVS Project file invoke SCons the same way that scons.bat does, # which works regardless of how we were invoked. def getExecScriptMain(env, xml=None): scons_home = env.get('SCONS_HOME') if not scons_home and 'SCONS_LIB_DIR' in os.environ: scons_home = os.environ['SCONS_LIB_DIR'] if scons_home: exec_script_main = "from os.path import join; import sys; sys.path = [ r'%s' ] + sys.path; import SCons.Script; SCons.Script.main()" % scons_home else: version = SCons.__version__ exec_script_main = "from os.path import join; import sys; sys.path = [ join(sys.prefix, 'Lib', 'site-packages', 'scons-%(version)s'), join(sys.prefix, 'scons-%(version)s'), join(sys.prefix, 'Lib', 'site-packages', 'scons'), join(sys.prefix, 'scons') ] + sys.path; import SCons.Script; SCons.Script.main()" % locals() if xml: exec_script_main = xmlify(exec_script_main) return exec_script_main # The string for the Python executable we tell the Project file to use # is either sys.executable or, if an external PYTHON_ROOT environment # variable exists, $(PYTHON)ROOT\\python.exe (generalized a little to # pluck the actual executable name from sys.executable). try: python_root = os.environ['PYTHON_ROOT'] except KeyError: python_executable = sys.executable else: python_executable = os.path.join('$$(PYTHON_ROOT)', os.path.split(sys.executable)[1]) class Config(object): pass def splitFully(path): dir, base = os.path.split(path) if dir and dir != '' and dir != path: return splitFully(dir)+[base] if base == '': return [] return [base] def makeHierarchy(sources): '''Break a list of files into a hierarchy; for each value, if it is a string, then it is a file. If it is a dictionary, it is a folder. The string is the original path of the file.''' hierarchy = {} for file in sources: path = splitFully(file) if len(path): dict = hierarchy for part in path[:-1]: if part not in dict: dict[part] = {} dict = dict[part] dict[path[-1]] = file #else: # print 'Warning: failed to decompose path for '+str(file) return hierarchy class _UserGenerator(object): ''' Base class for .dsp.user file generator ''' # Default instance values. # Ok ... a bit defensive, but it does not seem reasonable to crash the # build for a workspace user file. :-) usrhead = None usrdebg = None usrconf = None createfile = False def __init__(self, dspfile, source, env): # DebugSettings should be a list of debug dictionary sorted in the same order # as the target list and variants if 'variant' not in env: raise SCons.Errors.InternalError("You must specify a 'variant' argument (i.e. 'Debug' or " +\ "'Release') to create an MSVSProject.") elif SCons.Util.is_String(env['variant']): variants = [env['variant']] elif SCons.Util.is_List(env['variant']): variants = env['variant'] if 'DebugSettings' not in env or env['DebugSettings'] == None: dbg_settings = [] elif SCons.Util.is_Dict(env['DebugSettings']): dbg_settings = [env['DebugSettings']] elif SCons.Util.is_List(env['DebugSettings']): if len(env['DebugSettings']) != len(variants): raise SCons.Errors.InternalError("Sizes of 'DebugSettings' and 'variant' lists must be the same.") dbg_settings = [] for ds in env['DebugSettings']: if SCons.Util.is_Dict(ds): dbg_settings.append(ds) else: dbg_settings.append({}) else: dbg_settings = [] if len(dbg_settings) == 1: dbg_settings = dbg_settings * len(variants) self.createfile = self.usrhead and self.usrdebg and self.usrconf and \ dbg_settings and bool([ds for ds in dbg_settings if ds]) if self.createfile: dbg_settings = dict(list(zip(variants, dbg_settings))) for var, src in dbg_settings.items(): # Update only expected keys trg = {} for key in [k for k in list(self.usrdebg.keys()) if k in src]: trg[key] = str(src[key]) self.configs[var].debug = trg def UserHeader(self): encoding = self.env.subst('$MSVSENCODING') versionstr = self.versionstr self.usrfile.write(self.usrhead % locals()) def UserProject(self): pass def Build(self): if not self.createfile: return try: filename = self.dspabs +'.user' self.usrfile = open(filename, 'w') except IOError as detail: raise SCons.Errors.InternalError('Unable to open "' + filename + '" for writing:' + str(detail)) else: self.UserHeader() self.UserProject() self.usrfile.close() V9UserHeader = """\ \t """ V9UserConfiguration = """\ \t\t \t\t\t \t\t """ V9DebugSettings = { 'Command':'$(TargetPath)', 'WorkingDirectory': None, 'CommandArguments': None, 'Attach':'false', 'DebuggerType':'3', 'Remote':'1', 'RemoteMachine': None, 'RemoteCommand': None, 'HttpUrl': None, 'PDBPath': None, 'SQLDebugging': None, 'Environment': None, 'EnvironmentMerge':'true', 'DebuggerFlavor': None, 'MPIRunCommand': None, 'MPIRunArguments': None, 'MPIRunWorkingDirectory': None, 'ApplicationCommand': None, 'ApplicationArguments': None, 'ShimCommand': None, 'MPIAcceptMode': None, 'MPIAcceptFilter': None, } class _GenerateV7User(_UserGenerator): """Generates a Project file for MSVS .NET""" def __init__(self, dspfile, source, env): if self.version_num >= 9.0: self.usrhead = V9UserHeader self.usrconf = V9UserConfiguration self.usrdebg = V9DebugSettings _UserGenerator.__init__(self, dspfile, source, env) def UserProject(self): confkeys = sorted(self.configs.keys()) for kind in confkeys: variant = self.configs[kind].variant platform = self.configs[kind].platform debug = self.configs[kind].debug if debug: debug_settings = '\n'.join(['\t\t\t\t%s="%s"' % (key, xmlify(value)) for key, value in debug.items() if value is not None]) self.usrfile.write(self.usrconf % locals()) self.usrfile.write('\t\n') V10UserHeader = """\ """ V10UserConfiguration = """\ \t %(debug_settings)s \t """ V10DebugSettings = { 'LocalDebuggerCommand': None, 'LocalDebuggerCommandArguments': None, 'LocalDebuggerEnvironment': None, 'DebuggerFlavor': 'WindowsLocalDebugger', 'LocalDebuggerWorkingDirectory': None, 'LocalDebuggerAttach': None, 'LocalDebuggerDebuggerType': None, 'LocalDebuggerMergeEnvironment': None, 'LocalDebuggerSQLDebugging': None, 'RemoteDebuggerCommand': None, 'RemoteDebuggerCommandArguments': None, 'RemoteDebuggerWorkingDirectory': None, 'RemoteDebuggerServerName': None, 'RemoteDebuggerConnection': None, 'RemoteDebuggerDebuggerType': None, 'RemoteDebuggerAttach': None, 'RemoteDebuggerSQLDebugging': None, 'DeploymentDirectory': None, 'AdditionalFiles': None, 'RemoteDebuggerDeployDebugCppRuntime': None, 'WebBrowserDebuggerHttpUrl': None, 'WebBrowserDebuggerDebuggerType': None, 'WebServiceDebuggerHttpUrl': None, 'WebServiceDebuggerDebuggerType': None, 'WebServiceDebuggerSQLDebugging': None, } class _GenerateV10User(_UserGenerator): """Generates a Project'user file for MSVS 2010""" def __init__(self, dspfile, source, env): self.versionstr = '4.0' self.usrhead = V10UserHeader self.usrconf = V10UserConfiguration self.usrdebg = V10DebugSettings _UserGenerator.__init__(self, dspfile, source, env) def UserProject(self): confkeys = sorted(self.configs.keys()) for kind in confkeys: variant = self.configs[kind].variant platform = self.configs[kind].platform debug = self.configs[kind].debug if debug: debug_settings = '\n'.join(['\t\t<%s>%s' % (key, xmlify(value), key) for key, value in debug.items() if value is not None]) self.usrfile.write(self.usrconf % locals()) self.usrfile.write('') class _DSPGenerator(object): """ Base class for DSP generators """ srcargs = [ 'srcs', 'incs', 'localincs', 'resources', 'misc'] def __init__(self, dspfile, source, env): self.dspfile = str(dspfile) try: get_abspath = dspfile.get_abspath except AttributeError: self.dspabs = os.path.abspath(dspfile) else: self.dspabs = get_abspath() if 'variant' not in env: raise SCons.Errors.InternalError("You must specify a 'variant' argument (i.e. 'Debug' or " +\ "'Release') to create an MSVSProject.") elif SCons.Util.is_String(env['variant']): variants = [env['variant']] elif SCons.Util.is_List(env['variant']): variants = env['variant'] if 'buildtarget' not in env or env['buildtarget'] == None: buildtarget = [''] elif SCons.Util.is_String(env['buildtarget']): buildtarget = [env['buildtarget']] elif SCons.Util.is_List(env['buildtarget']): if len(env['buildtarget']) != len(variants): raise SCons.Errors.InternalError("Sizes of 'buildtarget' and 'variant' lists must be the same.") buildtarget = [] for bt in env['buildtarget']: if SCons.Util.is_String(bt): buildtarget.append(bt) else: buildtarget.append(bt.get_abspath()) else: buildtarget = [env['buildtarget'].get_abspath()] if len(buildtarget) == 1: bt = buildtarget[0] buildtarget = [] for _ in variants: buildtarget.append(bt) if 'outdir' not in env or env['outdir'] == None: outdir = [''] elif SCons.Util.is_String(env['outdir']): outdir = [env['outdir']] elif SCons.Util.is_List(env['outdir']): if len(env['outdir']) != len(variants): raise SCons.Errors.InternalError("Sizes of 'outdir' and 'variant' lists must be the same.") outdir = [] for s in env['outdir']: if SCons.Util.is_String(s): outdir.append(s) else: outdir.append(s.get_abspath()) else: outdir = [env['outdir'].get_abspath()] if len(outdir) == 1: s = outdir[0] outdir = [] for v in variants: outdir.append(s) if 'runfile' not in env or env['runfile'] == None: runfile = buildtarget[-1:] elif SCons.Util.is_String(env['runfile']): runfile = [env['runfile']] elif SCons.Util.is_List(env['runfile']): if len(env['runfile']) != len(variants): raise SCons.Errors.InternalError("Sizes of 'runfile' and 'variant' lists must be the same.") runfile = [] for s in env['runfile']: if SCons.Util.is_String(s): runfile.append(s) else: runfile.append(s.get_abspath()) else: runfile = [env['runfile'].get_abspath()] if len(runfile) == 1: s = runfile[0] runfile = [] for v in variants: runfile.append(s) self.sconscript = env['MSVSSCONSCRIPT'] if 'cmdargs' not in env or env['cmdargs'] == None: cmdargs = [''] * len(variants) elif SCons.Util.is_String(env['cmdargs']): cmdargs = [env['cmdargs']] * len(variants) elif SCons.Util.is_List(env['cmdargs']): if len(env['cmdargs']) != len(variants): raise SCons.Errors.InternalError("Sizes of 'cmdargs' and 'variant' lists must be the same.") else: cmdargs = env['cmdargs'] self.env = env if 'name' in self.env: self.name = self.env['name'] else: self.name = os.path.basename(SCons.Util.splitext(self.dspfile)[0]) self.name = self.env.subst(self.name) sourcenames = [ 'Source Files', 'Header Files', 'Local Headers', 'Resource Files', 'Other Files'] self.sources = {} for n in sourcenames: self.sources[n] = [] self.configs = {} self.nokeep = 0 if 'nokeep' in env and env['variant'] != 0: self.nokeep = 1 if self.nokeep == 0 and os.path.exists(self.dspabs): self.Parse() for t in zip(sourcenames,self.srcargs): if t[1] in self.env: if SCons.Util.is_List(self.env[t[1]]): for i in self.env[t[1]]: if not i in self.sources[t[0]]: self.sources[t[0]].append(i) else: if not self.env[t[1]] in self.sources[t[0]]: self.sources[t[0]].append(self.env[t[1]]) for n in sourcenames: self.sources[n].sort(key=lambda a: a.lower()) def AddConfig(self, variant, buildtarget, outdir, runfile, cmdargs, dspfile=dspfile): config = Config() config.buildtarget = buildtarget config.outdir = outdir config.cmdargs = cmdargs config.runfile = runfile match = re.match('(.*)\|(.*)', variant) if match: config.variant = match.group(1) config.platform = match.group(2) else: config.variant = variant config.platform = 'Win32' self.configs[variant] = config print("Adding '" + self.name + ' - ' + config.variant + '|' + config.platform + "' to '" + str(dspfile) + "'") for i in range(len(variants)): AddConfig(self, variants[i], buildtarget[i], outdir[i], runfile[i], cmdargs[i]) self.platforms = [] for key in list(self.configs.keys()): platform = self.configs[key].platform if not platform in self.platforms: self.platforms.append(platform) def Build(self): pass V6DSPHeader = """\ # Microsoft Developer Studio Project File - Name="%(name)s" - Package Owner=<4> # Microsoft Developer Studio Generated Build File, Format Version 6.00 # ** DO NOT EDIT ** # TARGTYPE "Win32 (x86) External Target" 0x0106 CFG=%(name)s - Win32 %(confkey)s !MESSAGE This is not a valid makefile. To build this project using NMAKE, !MESSAGE use the Export Makefile command and run !MESSAGE !MESSAGE NMAKE /f "%(name)s.mak". !MESSAGE !MESSAGE You can specify a configuration when running NMAKE !MESSAGE by defining the macro CFG on the command line. For example: !MESSAGE !MESSAGE NMAKE /f "%(name)s.mak" CFG="%(name)s - Win32 %(confkey)s" !MESSAGE !MESSAGE Possible choices for configuration are: !MESSAGE """ class _GenerateV6DSP(_DSPGenerator): """Generates a Project file for MSVS 6.0""" def PrintHeader(self): # pick a default config confkeys = sorted(self.configs.keys()) name = self.name confkey = confkeys[0] self.file.write(V6DSPHeader % locals()) for kind in confkeys: self.file.write('!MESSAGE "%s - Win32 %s" (based on "Win32 (x86) External Target")\n' % (name, kind)) self.file.write('!MESSAGE \n\n') def PrintProject(self): name = self.name self.file.write('# Begin Project\n' '# PROP AllowPerConfigDependencies 0\n' '# PROP Scc_ProjName ""\n' '# PROP Scc_LocalPath ""\n\n') first = 1 confkeys = sorted(self.configs.keys()) for kind in confkeys: outdir = self.configs[kind].outdir buildtarget = self.configs[kind].buildtarget if first == 1: self.file.write('!IF "$(CFG)" == "%s - Win32 %s"\n\n' % (name, kind)) first = 0 else: self.file.write('\n!ELSEIF "$(CFG)" == "%s - Win32 %s"\n\n' % (name, kind)) env_has_buildtarget = 'MSVSBUILDTARGET' in self.env if not env_has_buildtarget: self.env['MSVSBUILDTARGET'] = buildtarget # have to write this twice, once with the BASE settings, and once without for base in ("BASE ",""): self.file.write('# PROP %sUse_MFC 0\n' '# PROP %sUse_Debug_Libraries ' % (base, base)) if kind.lower().find('debug') < 0: self.file.write('0\n') else: self.file.write('1\n') self.file.write('# PROP %sOutput_Dir "%s"\n' '# PROP %sIntermediate_Dir "%s"\n' % (base,outdir,base,outdir)) cmd = 'echo Starting SCons && ' + self.env.subst('$MSVSBUILDCOM', 1) self.file.write('# PROP %sCmd_Line "%s"\n' '# PROP %sRebuild_Opt "-c && %s"\n' '# PROP %sTarget_File "%s"\n' '# PROP %sBsc_Name ""\n' '# PROP %sTarget_Dir ""\n'\ %(base,cmd,base,cmd,base,buildtarget,base,base)) if not env_has_buildtarget: del self.env['MSVSBUILDTARGET'] self.file.write('\n!ENDIF\n\n' '# Begin Target\n\n') for kind in confkeys: self.file.write('# Name "%s - Win32 %s"\n' % (name,kind)) self.file.write('\n') first = 0 for kind in confkeys: if first == 0: self.file.write('!IF "$(CFG)" == "%s - Win32 %s"\n\n' % (name,kind)) first = 1 else: self.file.write('!ELSEIF "$(CFG)" == "%s - Win32 %s"\n\n' % (name,kind)) self.file.write('!ENDIF \n\n') self.PrintSourceFiles() self.file.write('# End Target\n' '# End Project\n') if self.nokeep == 0: # now we pickle some data and add it to the file -- MSDEV will ignore it. pdata = pickle.dumps(self.configs,PICKLE_PROTOCOL) pdata = base64.encodestring(pdata).decode() self.file.write(pdata + '\n') pdata = pickle.dumps(self.sources,PICKLE_PROTOCOL) pdata = base64.encodestring(pdata).decode() self.file.write(pdata + '\n') def PrintSourceFiles(self): categories = {'Source Files': 'cpp|c|cxx|l|y|def|odl|idl|hpj|bat', 'Header Files': 'h|hpp|hxx|hm|inl', 'Local Headers': 'h|hpp|hxx|hm|inl', 'Resource Files': 'r|rc|ico|cur|bmp|dlg|rc2|rct|bin|cnt|rtf|gif|jpg|jpeg|jpe', 'Other Files': ''} for kind in sorted(list(categories.keys()), key=lambda a: a.lower()): if not self.sources[kind]: continue # skip empty groups self.file.write('# Begin Group "' + kind + '"\n\n') typelist = categories[kind].replace('|', ';') self.file.write('# PROP Default_Filter "' + typelist + '"\n') for file in self.sources[kind]: file = os.path.normpath(file) self.file.write('# Begin Source File\n\n' 'SOURCE="' + file + '"\n' '# End Source File\n') self.file.write('# End Group\n') # add the SConscript file outside of the groups self.file.write('# Begin Source File\n\n' 'SOURCE="' + str(self.sconscript) + '"\n' '# End Source File\n') def Parse(self): try: dspfile = open(self.dspabs,'r') except IOError: return # doesn't exist yet, so can't add anything to configs. line = dspfile.readline() while line: if line.find("# End Project") > -1: break line = dspfile.readline() line = dspfile.readline() datas = line while line and line != '\n': line = dspfile.readline() datas = datas + line # OK, we've found our little pickled cache of data. try: datas = base64.decodestring(datas) data = pickle.loads(datas) except KeyboardInterrupt: raise except: return # unable to unpickle any data for some reason self.configs.update(data) data = None line = dspfile.readline() datas = line while line and line != '\n': line = dspfile.readline() datas = datas + line # OK, we've found our little pickled cache of data. # it has a "# " in front of it, so we strip that. try: datas = base64.decodestring(datas) data = pickle.loads(datas) except KeyboardInterrupt: raise except: return # unable to unpickle any data for some reason self.sources.update(data) def Build(self): try: self.file = open(self.dspabs,'w') except IOError as detail: raise SCons.Errors.InternalError('Unable to open "' + self.dspabs + '" for writing:' + str(detail)) else: self.PrintHeader() self.PrintProject() self.file.close() V7DSPHeader = """\ """ V7DSPConfiguration = """\ \t\t \t\t\t \t\t """ V8DSPHeader = """\ """ V8DSPConfiguration = """\ \t\t \t\t\t \t\t """ class _GenerateV7DSP(_DSPGenerator, _GenerateV7User): """Generates a Project file for MSVS .NET""" def __init__(self, dspfile, source, env): _DSPGenerator.__init__(self, dspfile, source, env) self.version = env['MSVS_VERSION'] self.version_num, self.suite = msvs_parse_version(self.version) if self.version_num >= 9.0: self.versionstr = '9.00' self.dspheader = V8DSPHeader self.dspconfiguration = V8DSPConfiguration elif self.version_num >= 8.0: self.versionstr = '8.00' self.dspheader = V8DSPHeader self.dspconfiguration = V8DSPConfiguration else: if self.version_num >= 7.1: self.versionstr = '7.10' else: self.versionstr = '7.00' self.dspheader = V7DSPHeader self.dspconfiguration = V7DSPConfiguration self.file = None _GenerateV7User.__init__(self, dspfile, source, env) def PrintHeader(self): env = self.env versionstr = self.versionstr name = self.name encoding = self.env.subst('$MSVSENCODING') scc_provider = env.get('MSVS_SCC_PROVIDER', '') scc_project_name = env.get('MSVS_SCC_PROJECT_NAME', '') scc_aux_path = env.get('MSVS_SCC_AUX_PATH', '') # MSVS_SCC_LOCAL_PATH is kept for backwards compatibility purpose and should # be deprecated as soon as possible. scc_local_path_legacy = env.get('MSVS_SCC_LOCAL_PATH', '') scc_connection_root = env.get('MSVS_SCC_CONNECTION_ROOT', os.curdir) scc_local_path = os.path.relpath(scc_connection_root, os.path.dirname(self.dspabs)) project_guid = env.get('MSVS_PROJECT_GUID', '') if not project_guid: project_guid = _generateGUID(self.dspfile, '') if scc_provider != '': scc_attrs = '\tSccProjectName="%s"\n' % scc_project_name if scc_aux_path != '': scc_attrs += '\tSccAuxPath="%s"\n' % scc_aux_path scc_attrs += ('\tSccLocalPath="%s"\n' '\tSccProvider="%s"' % (scc_local_path, scc_provider)) elif scc_local_path_legacy != '': # This case is kept for backwards compatibility purpose and should # be deprecated as soon as possible. scc_attrs = ('\tSccProjectName="%s"\n' '\tSccLocalPath="%s"' % (scc_project_name, scc_local_path_legacy)) else: self.dspheader = self.dspheader.replace('%(scc_attrs)s\n', '') self.file.write(self.dspheader % locals()) self.file.write('\t\n') for platform in self.platforms: self.file.write( '\t\t\n' % platform) self.file.write('\t\n') if self.version_num >= 8.0: self.file.write('\t\n' '\t\n') def PrintProject(self): self.file.write('\t\n') confkeys = sorted(self.configs.keys()) for kind in confkeys: variant = self.configs[kind].variant platform = self.configs[kind].platform outdir = self.configs[kind].outdir buildtarget = self.configs[kind].buildtarget runfile = self.configs[kind].runfile cmdargs = self.configs[kind].cmdargs env_has_buildtarget = 'MSVSBUILDTARGET' in self.env if not env_has_buildtarget: self.env['MSVSBUILDTARGET'] = buildtarget starting = 'echo Starting SCons && ' if cmdargs: cmdargs = ' ' + cmdargs else: cmdargs = '' buildcmd = xmlify(starting + self.env.subst('$MSVSBUILDCOM', 1) + cmdargs) rebuildcmd = xmlify(starting + self.env.subst('$MSVSREBUILDCOM', 1) + cmdargs) cleancmd = xmlify(starting + self.env.subst('$MSVSCLEANCOM', 1) + cmdargs) # This isn't perfect; CPPDEFINES and CPPPATH can contain $TARGET and $SOURCE, # so they could vary depending on the command being generated. This code # assumes they don't. preprocdefs = xmlify(';'.join(processDefines(self.env.get('CPPDEFINES', [])))) includepath_Dirs = processIncludes(self.env.get('CPPPATH', []), self.env, None, None) includepath = xmlify(';'.join([str(x) for x in includepath_Dirs])) if not env_has_buildtarget: del self.env['MSVSBUILDTARGET'] self.file.write(self.dspconfiguration % locals()) self.file.write('\t\n') if self.version_num >= 7.1: self.file.write('\t\n' '\t\n') self.PrintSourceFiles() self.file.write('\n') if self.nokeep == 0: # now we pickle some data and add it to the file -- MSDEV will ignore it. pdata = pickle.dumps(self.configs,PICKLE_PROTOCOL) pdata = base64.encodestring(pdata).decode() self.file.write('\n') def printSources(self, hierarchy, commonprefix): sorteditems = sorted(hierarchy.items(), key=lambda a: a[0].lower()) # First folders, then files for key, value in sorteditems: if SCons.Util.is_Dict(value): self.file.write('\t\t\t\n' % (key)) self.printSources(value, commonprefix) self.file.write('\t\t\t\n') for key, value in sorteditems: if SCons.Util.is_String(value): file = value if commonprefix: file = os.path.join(commonprefix, value) file = os.path.normpath(file) self.file.write('\t\t\t\n' '\t\t\t\n' % (file)) def PrintSourceFiles(self): categories = {'Source Files': 'cpp;c;cxx;l;y;def;odl;idl;hpj;bat', 'Header Files': 'h;hpp;hxx;hm;inl', 'Local Headers': 'h;hpp;hxx;hm;inl', 'Resource Files': 'r;rc;ico;cur;bmp;dlg;rc2;rct;bin;cnt;rtf;gif;jpg;jpeg;jpe', 'Other Files': ''} self.file.write('\t\n') cats = sorted([k for k in list(categories.keys()) if self.sources[k]], key=lambda a: a.lower()) for kind in cats: if len(cats) > 1: self.file.write('\t\t\n' % (kind, categories[kind])) sources = self.sources[kind] # First remove any common prefix commonprefix = None s = list(map(os.path.normpath, sources)) # take the dirname because the prefix may include parts # of the filenames (e.g. if you have 'dir\abcd' and # 'dir\acde' then the cp will be 'dir\a' ) cp = os.path.dirname( os.path.commonprefix(s) ) if cp and s[0][len(cp)] == os.sep: # +1 because the filename starts after the separator sources = [s[len(cp)+1:] for s in sources] commonprefix = cp hierarchy = makeHierarchy(sources) self.printSources(hierarchy, commonprefix=commonprefix) if len(cats)>1: self.file.write('\t\t\n') # add the SConscript file outside of the groups self.file.write('\t\t\n' '\t\t\n' % str(self.sconscript)) self.file.write('\t\n' '\t\n' '\t\n') def Parse(self): try: dspfile = open(self.dspabs,'r') except IOError: return # doesn't exist yet, so can't add anything to configs. line = dspfile.readline() while line: if line.find('\n') def printFilters(self, hierarchy, name): sorteditems = sorted(hierarchy.items(), key = lambda a: a[0].lower()) for key, value in sorteditems: if SCons.Util.is_Dict(value): filter_name = name + '\\' + key self.filters_file.write('\t\t\n' '\t\t\t%s\n' '\t\t\n' % (filter_name, _generateGUID(self.dspabs, filter_name))) self.printFilters(value, filter_name) def printSources(self, hierarchy, kind, commonprefix, filter_name): keywords = {'Source Files': 'ClCompile', 'Header Files': 'ClInclude', 'Local Headers': 'ClInclude', 'Resource Files': 'None', 'Other Files': 'None'} sorteditems = sorted(hierarchy.items(), key = lambda a: a[0].lower()) # First folders, then files for key, value in sorteditems: if SCons.Util.is_Dict(value): self.printSources(value, kind, commonprefix, filter_name + '\\' + key) for key, value in sorteditems: if SCons.Util.is_String(value): file = value if commonprefix: file = os.path.join(commonprefix, value) file = os.path.normpath(file) self.file.write('\t\t<%s Include="%s" />\n' % (keywords[kind], file)) self.filters_file.write('\t\t<%s Include="%s">\n' '\t\t\t%s\n' '\t\t\n' % (keywords[kind], file, filter_name, keywords[kind])) def PrintSourceFiles(self): categories = {'Source Files': 'cpp;c;cxx;l;y;def;odl;idl;hpj;bat', 'Header Files': 'h;hpp;hxx;hm;inl', 'Local Headers': 'h;hpp;hxx;hm;inl', 'Resource Files': 'r;rc;ico;cur;bmp;dlg;rc2;rct;bin;cnt;rtf;gif;jpg;jpeg;jpe', 'Other Files': ''} cats = sorted([k for k in list(categories.keys()) if self.sources[k]], key = lambda a: a.lower()) # print vcxproj.filters file first self.filters_file.write('\t\n') for kind in cats: self.filters_file.write('\t\t\n' '\t\t\t{7b42d31d-d53c-4868-8b92-ca2bc9fc052f}\n' '\t\t\t%s\n' '\t\t\n' % (kind, categories[kind])) # First remove any common prefix sources = self.sources[kind] commonprefix = None s = list(map(os.path.normpath, sources)) # take the dirname because the prefix may include parts # of the filenames (e.g. if you have 'dir\abcd' and # 'dir\acde' then the cp will be 'dir\a' ) cp = os.path.dirname( os.path.commonprefix(s) ) if cp and s[0][len(cp)] == os.sep: # +1 because the filename starts after the separator sources = [s[len(cp)+1:] for s in sources] commonprefix = cp hierarchy = makeHierarchy(sources) self.printFilters(hierarchy, kind) self.filters_file.write('\t\n') # then print files and filters for kind in cats: self.file.write('\t\n') self.filters_file.write('\t\n') # First remove any common prefix sources = self.sources[kind] commonprefix = None s = list(map(os.path.normpath, sources)) # take the dirname because the prefix may include parts # of the filenames (e.g. if you have 'dir\abcd' and # 'dir\acde' then the cp will be 'dir\a' ) cp = os.path.dirname( os.path.commonprefix(s) ) if cp and s[0][len(cp)] == os.sep: # +1 because the filename starts after the separator sources = [s[len(cp)+1:] for s in sources] commonprefix = cp hierarchy = makeHierarchy(sources) self.printSources(hierarchy, kind, commonprefix, kind) self.file.write('\t\n') self.filters_file.write('\t\n') # add the SConscript file outside of the groups self.file.write('\t\n' '\t\t\n' #'\t\t\n' '\t\n' % str(self.sconscript)) def Parse(self): print("_GenerateV10DSP.Parse()") def Build(self): try: self.file = open(self.dspabs, 'w') except IOError as detail: raise SCons.Errors.InternalError('Unable to open "' + self.dspabs + '" for writing:' + str(detail)) else: self.PrintHeader() self.PrintProject() self.file.close() _GenerateV10User.Build(self) class _DSWGenerator(object): """ Base class for DSW generators """ def __init__(self, dswfile, source, env): self.dswfile = os.path.normpath(str(dswfile)) self.dsw_folder_path = os.path.dirname(os.path.abspath(self.dswfile)) self.env = env if 'projects' not in env: raise SCons.Errors.UserError("You must specify a 'projects' argument to create an MSVSSolution.") projects = env['projects'] if not SCons.Util.is_List(projects): raise SCons.Errors.InternalError("The 'projects' argument must be a list of nodes.") projects = SCons.Util.flatten(projects) if len(projects) < 1: raise SCons.Errors.UserError("You must specify at least one project to create an MSVSSolution.") self.dspfiles = list(map(str, projects)) if 'name' in self.env: self.name = self.env['name'] else: self.name = os.path.basename(SCons.Util.splitext(self.dswfile)[0]) self.name = self.env.subst(self.name) def Build(self): pass class _GenerateV7DSW(_DSWGenerator): """Generates a Solution file for MSVS .NET""" def __init__(self, dswfile, source, env): _DSWGenerator.__init__(self, dswfile, source, env) self.file = None self.version = self.env['MSVS_VERSION'] self.version_num, self.suite = msvs_parse_version(self.version) self.versionstr = '7.00' if self.version_num >= 11.0: self.versionstr = '12.00' elif self.version_num >= 10.0: self.versionstr = '11.00' elif self.version_num >= 9.0: self.versionstr = '10.00' elif self.version_num >= 8.0: self.versionstr = '9.00' elif self.version_num >= 7.1: self.versionstr = '8.00' if 'slnguid' in env and env['slnguid']: self.slnguid = env['slnguid'] else: self.slnguid = _generateGUID(dswfile, self.name) self.configs = {} self.nokeep = 0 if 'nokeep' in env and env['variant'] != 0: self.nokeep = 1 if self.nokeep == 0 and os.path.exists(self.dswfile): self.Parse() def AddConfig(self, variant, dswfile=dswfile): config = Config() match = re.match('(.*)\|(.*)', variant) if match: config.variant = match.group(1) config.platform = match.group(2) else: config.variant = variant config.platform = 'Win32' self.configs[variant] = config print("Adding '" + self.name + ' - ' + config.variant + '|' + config.platform + "' to '" + str(dswfile) + "'") if 'variant' not in env: raise SCons.Errors.InternalError("You must specify a 'variant' argument (i.e. 'Debug' or " +\ "'Release') to create an MSVS Solution File.") elif SCons.Util.is_String(env['variant']): AddConfig(self, env['variant']) elif SCons.Util.is_List(env['variant']): for variant in env['variant']: AddConfig(self, variant) self.platforms = [] for key in list(self.configs.keys()): platform = self.configs[key].platform if not platform in self.platforms: self.platforms.append(platform) def GenerateProjectFilesInfo(self): for dspfile in self.dspfiles: dsp_folder_path, name = os.path.split(dspfile) dsp_folder_path = os.path.abspath(dsp_folder_path) dsp_relative_folder_path = os.path.relpath(dsp_folder_path, self.dsw_folder_path) if dsp_relative_folder_path == os.curdir: dsp_relative_file_path = name else: dsp_relative_file_path = os.path.join(dsp_relative_folder_path, name) dspfile_info = {'NAME': name, 'GUID': _generateGUID(dspfile, ''), 'FOLDER_PATH': dsp_folder_path, 'FILE_PATH': dspfile, 'SLN_RELATIVE_FOLDER_PATH': dsp_relative_folder_path, 'SLN_RELATIVE_FILE_PATH': dsp_relative_file_path} self.dspfiles_info.append(dspfile_info) self.dspfiles_info = [] GenerateProjectFilesInfo(self) def Parse(self): try: dswfile = open(self.dswfile,'r') except IOError: return # doesn't exist yet, so can't add anything to configs. line = dswfile.readline() while line: if line[:9] == "EndGlobal": break line = dswfile.readline() line = dswfile.readline() datas = line while line: line = dswfile.readline() datas = datas + line # OK, we've found our little pickled cache of data. try: datas = base64.decodestring(datas) data = pickle.loads(datas) except KeyboardInterrupt: raise except: return # unable to unpickle any data for some reason self.configs.update(data) def PrintSolution(self): """Writes a solution file""" self.file.write('Microsoft Visual Studio Solution File, Format Version %s\n' % self.versionstr) if self.version_num >= 12.0: self.file.write('# Visual Studio 14\n') elif self.version_num >= 11.0: self.file.write('# Visual Studio 11\n') elif self.version_num >= 10.0: self.file.write('# Visual Studio 2010\n') elif self.version_num >= 9.0: self.file.write('# Visual Studio 2008\n') elif self.version_num >= 8.0: self.file.write('# Visual Studio 2005\n') for dspinfo in self.dspfiles_info: name = dspinfo['NAME'] base, suffix = SCons.Util.splitext(name) if suffix == '.vcproj': name = base self.file.write('Project("%s") = "%s", "%s", "%s"\n' % (external_makefile_guid, name, dspinfo['SLN_RELATIVE_FILE_PATH'], dspinfo['GUID'])) if self.version_num >= 7.1 and self.version_num < 8.0: self.file.write('\tProjectSection(ProjectDependencies) = postProject\n' '\tEndProjectSection\n') self.file.write('EndProject\n') self.file.write('Global\n') env = self.env if 'MSVS_SCC_PROVIDER' in env: scc_number_of_projects = len(self.dspfiles) + 1 slnguid = self.slnguid scc_provider = env.get('MSVS_SCC_PROVIDER', '').replace(' ', r'\u0020') scc_project_name = env.get('MSVS_SCC_PROJECT_NAME', '').replace(' ', r'\u0020') scc_connection_root = env.get('MSVS_SCC_CONNECTION_ROOT', os.curdir) scc_local_path = os.path.relpath(scc_connection_root, self.dsw_folder_path).replace('\\', '\\\\') self.file.write('\tGlobalSection(SourceCodeControl) = preSolution\n' '\t\tSccNumberOfProjects = %(scc_number_of_projects)d\n' '\t\tSccProjectName0 = %(scc_project_name)s\n' '\t\tSccLocalPath0 = %(scc_local_path)s\n' '\t\tSccProvider0 = %(scc_provider)s\n' '\t\tCanCheckoutShared = true\n' % locals()) sln_relative_path_from_scc = os.path.relpath(self.dsw_folder_path, scc_connection_root) if sln_relative_path_from_scc != os.curdir: self.file.write('\t\tSccProjectFilePathRelativizedFromConnection0 = %s\\\\\n' % sln_relative_path_from_scc.replace('\\', '\\\\')) if self.version_num < 8.0: # When present, SolutionUniqueID is automatically removed by VS 2005 # TODO: check for Visual Studio versions newer than 2005 self.file.write('\t\tSolutionUniqueID = %s\n' % slnguid) for dspinfo in self.dspfiles_info: i = self.dspfiles_info.index(dspinfo) + 1 dsp_relative_file_path = dspinfo['SLN_RELATIVE_FILE_PATH'].replace('\\', '\\\\') dsp_scc_relative_folder_path = os.path.relpath(dspinfo['FOLDER_PATH'], scc_connection_root).replace('\\', '\\\\') self.file.write('\t\tSccProjectUniqueName%(i)s = %(dsp_relative_file_path)s\n' '\t\tSccLocalPath%(i)d = %(scc_local_path)s\n' '\t\tCanCheckoutShared = true\n' '\t\tSccProjectFilePathRelativizedFromConnection%(i)s = %(dsp_scc_relative_folder_path)s\\\\\n' % locals()) self.file.write('\tEndGlobalSection\n') if self.version_num >= 8.0: self.file.write('\tGlobalSection(SolutionConfigurationPlatforms) = preSolution\n') else: self.file.write('\tGlobalSection(SolutionConfiguration) = preSolution\n') confkeys = sorted(self.configs.keys()) cnt = 0 for name in confkeys: variant = self.configs[name].variant platform = self.configs[name].platform if self.version_num >= 8.0: self.file.write('\t\t%s|%s = %s|%s\n' % (variant, platform, variant, platform)) else: self.file.write('\t\tConfigName.%d = %s\n' % (cnt, variant)) cnt = cnt + 1 self.file.write('\tEndGlobalSection\n') if self.version_num <= 7.1: self.file.write('\tGlobalSection(ProjectDependencies) = postSolution\n' '\tEndGlobalSection\n') if self.version_num >= 8.0: self.file.write('\tGlobalSection(ProjectConfigurationPlatforms) = postSolution\n') else: self.file.write('\tGlobalSection(ProjectConfiguration) = postSolution\n') for name in confkeys: variant = self.configs[name].variant platform = self.configs[name].platform if self.version_num >= 8.0: for dspinfo in self.dspfiles_info: guid = dspinfo['GUID'] self.file.write('\t\t%s.%s|%s.ActiveCfg = %s|%s\n' '\t\t%s.%s|%s.Build.0 = %s|%s\n' % (guid,variant,platform,variant,platform,guid,variant,platform,variant,platform)) else: for dspinfo in self.dspfiles_info: guid = dspinfo['GUID'] self.file.write('\t\t%s.%s.ActiveCfg = %s|%s\n' '\t\t%s.%s.Build.0 = %s|%s\n' %(guid,variant,variant,platform,guid,variant,variant,platform)) self.file.write('\tEndGlobalSection\n') if self.version_num >= 8.0: self.file.write('\tGlobalSection(SolutionProperties) = preSolution\n' '\t\tHideSolutionNode = FALSE\n' '\tEndGlobalSection\n') else: self.file.write('\tGlobalSection(ExtensibilityGlobals) = postSolution\n' '\tEndGlobalSection\n' '\tGlobalSection(ExtensibilityAddIns) = postSolution\n' '\tEndGlobalSection\n') self.file.write('EndGlobal\n') if self.nokeep == 0: pdata = pickle.dumps(self.configs,PICKLE_PROTOCOL) pdata = base64.encodestring(pdata).decode() self.file.write(pdata) self.file.write('\n') def Build(self): try: self.file = open(self.dswfile,'w') except IOError as detail: raise SCons.Errors.InternalError('Unable to open "' + self.dswfile + '" for writing:' + str(detail)) else: self.PrintSolution() self.file.close() V6DSWHeader = """\ Microsoft Developer Studio Workspace File, Format Version 6.00 # WARNING: DO NOT EDIT OR DELETE THIS WORKSPACE FILE! ############################################################################### Project: "%(name)s"="%(dspfile)s" - Package Owner=<4> Package=<5> {{{ }}} Package=<4> {{{ }}} ############################################################################### Global: Package=<5> {{{ }}} Package=<3> {{{ }}} ############################################################################### """ class _GenerateV6DSW(_DSWGenerator): """Generates a Workspace file for MSVS 6.0""" def PrintWorkspace(self): """ writes a DSW file """ name = self.name dspfile = os.path.relpath(self.dspfiles[0], self.dsw_folder_path) self.file.write(V6DSWHeader % locals()) def Build(self): try: self.file = open(self.dswfile,'w') except IOError as detail: raise SCons.Errors.InternalError('Unable to open "' + self.dswfile + '" for writing:' + str(detail)) else: self.PrintWorkspace() self.file.close() def GenerateDSP(dspfile, source, env): """Generates a Project file based on the version of MSVS that is being used""" version_num = 6.0 if 'MSVS_VERSION' in env: version_num, suite = msvs_parse_version(env['MSVS_VERSION']) if version_num >= 10.0: g = _GenerateV10DSP(dspfile, source, env) g.Build() elif version_num >= 7.0: g = _GenerateV7DSP(dspfile, source, env) g.Build() else: g = _GenerateV6DSP(dspfile, source, env) g.Build() def GenerateDSW(dswfile, source, env): """Generates a Solution/Workspace file based on the version of MSVS that is being used""" version_num = 6.0 if 'MSVS_VERSION' in env: version_num, suite = msvs_parse_version(env['MSVS_VERSION']) if version_num >= 7.0: g = _GenerateV7DSW(dswfile, source, env) g.Build() else: g = _GenerateV6DSW(dswfile, source, env) g.Build() ############################################################################## # Above here are the classes and functions for generation of # DSP/DSW/SLN/VCPROJ files. ############################################################################## def GetMSVSProjectSuffix(target, source, env, for_signature): return env['MSVS']['PROJECTSUFFIX'] def GetMSVSSolutionSuffix(target, source, env, for_signature): return env['MSVS']['SOLUTIONSUFFIX'] def GenerateProject(target, source, env): # generate the dsp file, according to the version of MSVS. builddspfile = target[0] dspfile = builddspfile.srcnode() # this detects whether or not we're using a VariantDir if not dspfile is builddspfile: try: bdsp = open(str(builddspfile), "w+") except IOError as detail: print('Unable to open "' + str(dspfile) + '" for writing:',detail,'\n') raise bdsp.write("This is just a placeholder file.\nThe real project file is here:\n%s\n" % dspfile.get_abspath()) GenerateDSP(dspfile, source, env) if env.get('auto_build_solution', 1): builddswfile = target[1] dswfile = builddswfile.srcnode() if not dswfile is builddswfile: try: bdsw = open(str(builddswfile), "w+") except IOError as detail: print('Unable to open "' + str(dspfile) + '" for writing:',detail,'\n') raise bdsw.write("This is just a placeholder file.\nThe real workspace file is here:\n%s\n" % dswfile.get_abspath()) GenerateDSW(dswfile, source, env) def GenerateSolution(target, source, env): GenerateDSW(target[0], source, env) def projectEmitter(target, source, env): """Sets up the DSP dependencies.""" # todo: Not sure what sets source to what user has passed as target, # but this is what happens. When that is fixed, we also won't have # to make the user always append env['MSVSPROJECTSUFFIX'] to target. if source[0] == target[0]: source = [] # make sure the suffix is correct for the version of MSVS we're running. (base, suff) = SCons.Util.splitext(str(target[0])) suff = env.subst('$MSVSPROJECTSUFFIX') target[0] = base + suff if not source: source = 'prj_inputs:' source = source + env.subst('$MSVSSCONSCOM', 1) source = source + env.subst('$MSVSENCODING', 1) # Project file depends on CPPDEFINES and CPPPATH preprocdefs = xmlify(';'.join(processDefines(env.get('CPPDEFINES', [])))) includepath_Dirs = processIncludes(env.get('CPPPATH', []), env, None, None) includepath = xmlify(';'.join([str(x) for x in includepath_Dirs])) source = source + "; ppdefs:%s incpath:%s"%(preprocdefs, includepath) if 'buildtarget' in env and env['buildtarget'] != None: if SCons.Util.is_String(env['buildtarget']): source = source + ' "%s"' % env['buildtarget'] elif SCons.Util.is_List(env['buildtarget']): for bt in env['buildtarget']: if SCons.Util.is_String(bt): source = source + ' "%s"' % bt else: try: source = source + ' "%s"' % bt.get_abspath() except AttributeError: raise SCons.Errors.InternalError("buildtarget can be a string, a node, a list of strings or nodes, or None") else: try: source = source + ' "%s"' % env['buildtarget'].get_abspath() except AttributeError: raise SCons.Errors.InternalError("buildtarget can be a string, a node, a list of strings or nodes, or None") if 'outdir' in env and env['outdir'] != None: if SCons.Util.is_String(env['outdir']): source = source + ' "%s"' % env['outdir'] elif SCons.Util.is_List(env['outdir']): for s in env['outdir']: if SCons.Util.is_String(s): source = source + ' "%s"' % s else: try: source = source + ' "%s"' % s.get_abspath() except AttributeError: raise SCons.Errors.InternalError("outdir can be a string, a node, a list of strings or nodes, or None") else: try: source = source + ' "%s"' % env['outdir'].get_abspath() except AttributeError: raise SCons.Errors.InternalError("outdir can be a string, a node, a list of strings or nodes, or None") if 'name' in env: if SCons.Util.is_String(env['name']): source = source + ' "%s"' % env['name'] else: raise SCons.Errors.InternalError("name must be a string") if 'variant' in env: if SCons.Util.is_String(env['variant']): source = source + ' "%s"' % env['variant'] elif SCons.Util.is_List(env['variant']): for variant in env['variant']: if SCons.Util.is_String(variant): source = source + ' "%s"' % variant else: raise SCons.Errors.InternalError("name must be a string or a list of strings") else: raise SCons.Errors.InternalError("variant must be a string or a list of strings") else: raise SCons.Errors.InternalError("variant must be specified") for s in _DSPGenerator.srcargs: if s in env: if SCons.Util.is_String(env[s]): source = source + ' "%s' % env[s] elif SCons.Util.is_List(env[s]): for t in env[s]: if SCons.Util.is_String(t): source = source + ' "%s"' % t else: raise SCons.Errors.InternalError(s + " must be a string or a list of strings") else: raise SCons.Errors.InternalError(s + " must be a string or a list of strings") source = source + ' "%s"' % str(target[0]) source = [SCons.Node.Python.Value(source)] targetlist = [target[0]] sourcelist = source if env.get('auto_build_solution', 1): env['projects'] = [env.File(t).srcnode() for t in targetlist] t, s = solutionEmitter(target, target, env) targetlist = targetlist + t # Beginning with Visual Studio 2010 for each project file (.vcxproj) we have additional file (.vcxproj.filters) version_num = 6.0 if 'MSVS_VERSION' in env: version_num, suite = msvs_parse_version(env['MSVS_VERSION']) if version_num >= 10.0: targetlist.append(targetlist[0] + '.filters') return (targetlist, sourcelist) def solutionEmitter(target, source, env): """Sets up the DSW dependencies.""" # todo: Not sure what sets source to what user has passed as target, # but this is what happens. When that is fixed, we also won't have # to make the user always append env['MSVSSOLUTIONSUFFIX'] to target. if source[0] == target[0]: source = [] # make sure the suffix is correct for the version of MSVS we're running. (base, suff) = SCons.Util.splitext(str(target[0])) suff = env.subst('$MSVSSOLUTIONSUFFIX') target[0] = base + suff if not source: source = 'sln_inputs:' if 'name' in env: if SCons.Util.is_String(env['name']): source = source + ' "%s"' % env['name'] else: raise SCons.Errors.InternalError("name must be a string") if 'variant' in env: if SCons.Util.is_String(env['variant']): source = source + ' "%s"' % env['variant'] elif SCons.Util.is_List(env['variant']): for variant in env['variant']: if SCons.Util.is_String(variant): source = source + ' "%s"' % variant else: raise SCons.Errors.InternalError("name must be a string or a list of strings") else: raise SCons.Errors.InternalError("variant must be a string or a list of strings") else: raise SCons.Errors.InternalError("variant must be specified") if 'slnguid' in env: if SCons.Util.is_String(env['slnguid']): source = source + ' "%s"' % env['slnguid'] else: raise SCons.Errors.InternalError("slnguid must be a string") if 'projects' in env: if SCons.Util.is_String(env['projects']): source = source + ' "%s"' % env['projects'] elif SCons.Util.is_List(env['projects']): for t in env['projects']: if SCons.Util.is_String(t): source = source + ' "%s"' % t source = source + ' "%s"' % str(target[0]) source = [SCons.Node.Python.Value(source)] return ([target[0]], source) projectAction = SCons.Action.Action(GenerateProject, None) solutionAction = SCons.Action.Action(GenerateSolution, None) projectBuilder = SCons.Builder.Builder(action = '$MSVSPROJECTCOM', suffix = '$MSVSPROJECTSUFFIX', emitter = projectEmitter) solutionBuilder = SCons.Builder.Builder(action = '$MSVSSOLUTIONCOM', suffix = '$MSVSSOLUTIONSUFFIX', emitter = solutionEmitter) default_MSVS_SConscript = None def generate(env): """Add Builders and construction variables for Microsoft Visual Studio project files to an Environment.""" try: env['BUILDERS']['MSVSProject'] except KeyError: env['BUILDERS']['MSVSProject'] = projectBuilder try: env['BUILDERS']['MSVSSolution'] except KeyError: env['BUILDERS']['MSVSSolution'] = solutionBuilder env['MSVSPROJECTCOM'] = projectAction env['MSVSSOLUTIONCOM'] = solutionAction if SCons.Script.call_stack: # XXX Need to find a way to abstract this; the build engine # shouldn't depend on anything in SCons.Script. env['MSVSSCONSCRIPT'] = SCons.Script.call_stack[0].sconscript else: global default_MSVS_SConscript if default_MSVS_SConscript is None: default_MSVS_SConscript = env.File('SConstruct') env['MSVSSCONSCRIPT'] = default_MSVS_SConscript env['MSVSSCONS'] = '"%s" -c "%s"' % (python_executable, getExecScriptMain(env)) env['MSVSSCONSFLAGS'] = '-C "${MSVSSCONSCRIPT.dir.get_abspath()}" -f ${MSVSSCONSCRIPT.name}' env['MSVSSCONSCOM'] = '$MSVSSCONS $MSVSSCONSFLAGS' env['MSVSBUILDCOM'] = '$MSVSSCONSCOM "$MSVSBUILDTARGET"' env['MSVSREBUILDCOM'] = '$MSVSSCONSCOM "$MSVSBUILDTARGET"' env['MSVSCLEANCOM'] = '$MSVSSCONSCOM -c "$MSVSBUILDTARGET"' # Set-up ms tools paths for default version msvc_setup_env_once(env) if 'MSVS_VERSION' in env: version_num, suite = msvs_parse_version(env['MSVS_VERSION']) else: (version_num, suite) = (7.0, None) # guess at a default if 'MSVS' not in env: env['MSVS'] = {} if (version_num < 7.0): env['MSVS']['PROJECTSUFFIX'] = '.dsp' env['MSVS']['SOLUTIONSUFFIX'] = '.dsw' elif (version_num < 10.0): env['MSVS']['PROJECTSUFFIX'] = '.vcproj' env['MSVS']['SOLUTIONSUFFIX'] = '.sln' else: env['MSVS']['PROJECTSUFFIX'] = '.vcxproj' env['MSVS']['SOLUTIONSUFFIX'] = '.sln' if (version_num >= 10.0): env['MSVSENCODING'] = 'utf-8' else: env['MSVSENCODING'] = 'Windows-1252' env['GET_MSVSPROJECTSUFFIX'] = GetMSVSProjectSuffix env['GET_MSVSSOLUTIONSUFFIX'] = GetMSVSSolutionSuffix env['MSVSPROJECTSUFFIX'] = '${GET_MSVSPROJECTSUFFIX}' env['MSVSSOLUTIONSUFFIX'] = '${GET_MSVSSOLUTIONSUFFIX}' env['SCONS_HOME'] = os.environ.get('SCONS_HOME') def exists(env): return msvc_exists() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sunlink.py0000664000175000017500000000503013202656512021404 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sunlink Tool-specific initialization for the Sun Solaris (Forte) linker. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sunlink.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import os.path import SCons.Util from . import link ccLinker = None # search for the acc compiler and linker front end try: dirs = os.listdir('/opt') except (IOError, OSError): # Not being able to read the directory because it doesn't exist # (IOError) or isn't readable (OSError) is okay. dirs = [] for d in dirs: linker = '/opt/' + d + '/bin/CC' if os.path.exists(linker): ccLinker = linker break def generate(env): """Add Builders and construction variables for Forte to an Environment.""" link.generate(env) env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS -G') env['RPATHPREFIX'] = '-R' env['RPATHSUFFIX'] = '' env['_RPATH'] = '${_concat(RPATHPREFIX, RPATH, RPATHSUFFIX, __env__)}' # Support for versioned libraries link._setup_versioned_lib_variables(env, tool = 'sunlink', use_soname = True) env['LINKCALLBACKS'] = link._versioned_lib_callbacks() def exists(env): return ccLinker # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/hpcc.py0000664000175000017500000000350413202656511020641 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.hpcc Tool-specific initialization for HP aCC and cc. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/hpcc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util from . import cc def generate(env): """Add Builders and construction variables for aCC & cc to an Environment.""" cc.generate(env) env['CXX'] = 'aCC' env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS +Z') def exists(env): return env.Detect('aCC') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sunar.py0000664000175000017500000000447713202656512021067 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.sunar Tool-specific initialization for Solaris (Forte) ar (library archive). If CC exists, static libraries should be built with it, so that template instantiations can be resolved. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sunar.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Defaults import SCons.Tool import SCons.Util def generate(env): """Add Builders and construction variables for ar to an Environment.""" SCons.Tool.createStaticLibBuilder(env) if env.Detect('CC'): env['AR'] = 'CC' env['ARFLAGS'] = SCons.Util.CLVar('-xar') env['ARCOM'] = '$AR $ARFLAGS -o $TARGET $SOURCES' else: env['AR'] = 'ar' env['ARFLAGS'] = SCons.Util.CLVar('r') env['ARCOM'] = '$AR $ARFLAGS $TARGET $SOURCES' env['LIBPREFIX'] = 'lib' env['LIBSUFFIX'] = '.a' def exists(env): return env.Detect('CC') or env.Detect('ar') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/aixf77.py0000664000175000017500000000524713202656511021037 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.aixf77 Tool-specific initialization for IBM Visual Age f77 Fortran compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/aixf77.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path #import SCons.Platform.aix from . import f77 # It would be good to look for the AIX F77 package the same way we're now # looking for the C and C++ packages. This should be as easy as supplying # the correct package names in the following list and uncommenting the # SCons.Platform.aix_get_xlc() call in the function below. packages = [] def get_xlf77(env): xlf77 = env.get('F77', 'xlf77') xlf77_r = env.get('SHF77', 'xlf77_r') #return SCons.Platform.aix.get_xlc(env, xlf77, xlf77_r, packages) return (None, xlf77, xlf77_r, None) def generate(env): """ Add Builders and construction variables for the Visual Age FORTRAN compiler to an Environment. """ path, _f77, _shf77, version = get_xlf77(env) if path: _f77 = os.path.join(path, _f77) _shf77 = os.path.join(path, _shf77) f77.generate(env) env['F77'] = _f77 env['SHF77'] = _shf77 def exists(env): path, _f77, _shf77, version = get_xlf77(env) if path and _f77: xlf77 = os.path.join(path, _f77) if os.path.exists(xlf77): return xlf77 return None # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/rpm.py0000664000175000017500000001074013202656512020523 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.rpm Tool-specific initialization for rpm. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. The rpm tool calls the rpmbuild command. The first and only argument should a tar.gz consisting of the source file and a specfile. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/rpm.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import re import shutil import subprocess import SCons.Builder import SCons.Node.FS import SCons.Util import SCons.Action import SCons.Defaults def get_cmd(source, env): tar_file_with_included_specfile = source if SCons.Util.is_List(source): tar_file_with_included_specfile = source[0] return "%s %s %s"%(env['RPM'], env['RPMFLAGS'], tar_file_with_included_specfile.get_abspath() ) def build_rpm(target, source, env): # create a temporary rpm build root. tmpdir = os.path.join( os.path.dirname( target[0].get_abspath() ), 'rpmtemp' ) if os.path.exists(tmpdir): shutil.rmtree(tmpdir) # now create the mandatory rpm directory structure. for d in ['RPMS', 'SRPMS', 'SPECS', 'BUILD']: os.makedirs( os.path.join( tmpdir, d ) ) # set the topdir as an rpmflag. env.Prepend( RPMFLAGS = '--define \'_topdir %s\'' % tmpdir ) # now call rpmbuild to create the rpm package. handle = subprocess.Popen(get_cmd(source, env), stdout=subprocess.PIPE, stderr=subprocess.STDOUT, shell=True) output = SCons.Util.to_str(handle.stdout.read()) status = handle.wait() if status: raise SCons.Errors.BuildError( node=target[0], errstr=output, filename=str(target[0]) ) else: # XXX: assume that LC_ALL=C is set while running rpmbuild output_files = re.compile( 'Wrote: (.*)' ).findall( output ) for output, input in zip( output_files, target ): rpm_output = os.path.basename(output) expected = os.path.basename(input.get_path()) assert expected == rpm_output, "got %s but expected %s" % (rpm_output, expected) shutil.copy( output, input.get_abspath() ) # cleanup before leaving. shutil.rmtree(tmpdir) return status def string_rpm(target, source, env): try: return env['RPMCOMSTR'] except KeyError: return get_cmd(source, env) rpmAction = SCons.Action.Action(build_rpm, string_rpm) RpmBuilder = SCons.Builder.Builder(action = SCons.Action.Action('$RPMCOM', '$RPMCOMSTR'), source_scanner = SCons.Defaults.DirScanner, suffix = '$RPMSUFFIX') def generate(env): """Add Builders and construction variables for rpm to an Environment.""" try: bld = env['BUILDERS']['Rpm'] except KeyError: bld = RpmBuilder env['BUILDERS']['Rpm'] = bld env.SetDefault(RPM = 'LC_ALL=C rpmbuild') env.SetDefault(RPMFLAGS = SCons.Util.CLVar('-ta')) env.SetDefault(RPMCOM = rpmAction) env.SetDefault(RPMSUFFIX = '.rpm') def exists(env): return env.Detect('rpmbuild') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/docbook/0000775000175000017500000000000013202656646021001 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Tool/docbook/__init__.py0000664000175000017500000007240413202656511023110 0ustar bdbaddogbdbaddog00000000000000 """SCons.Tool.docbook Tool-specific initialization for Docbook. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # import os import glob import re import SCons.Action import SCons.Builder import SCons.Defaults import SCons.Script import SCons.Tool import SCons.Util __debug_tool_location = False # Get full path to this script scriptpath = os.path.dirname(os.path.realpath(__file__)) # Local folder for the collection of DocBook XSLs db_xsl_folder = 'docbook-xsl-1.76.1' # Do we have libxml2/libxslt/lxml? has_libxml2 = True has_lxml = True try: import libxml2 import libxslt except: has_libxml2 = False try: import lxml except: has_lxml = False # Set this to True, to prefer xsltproc over libxml2 and lxml prefer_xsltproc = False # Regexs for parsing Docbook XML sources of MAN pages re_manvolnum = re.compile("([^<]*)") re_refname = re.compile("([^<]*)") # # Helper functions # def __extend_targets_sources(target, source): """ Prepare the lists of target and source files. """ if not SCons.Util.is_List(target): target = [target] if not source: source = target[:] elif not SCons.Util.is_List(source): source = [source] if len(target) < len(source): target.extend(source[len(target):]) return target, source def __init_xsl_stylesheet(kw, env, user_xsl_var, default_path): if kw.get('DOCBOOK_XSL','') == '': xsl_style = kw.get('xsl', env.subst(user_xsl_var)) if xsl_style == '': path_args = [scriptpath, db_xsl_folder] + default_path xsl_style = os.path.join(*path_args) kw['DOCBOOK_XSL'] = xsl_style def __select_builder(lxml_builder, libxml2_builder, cmdline_builder): """ Selects a builder, based on which Python modules are present. """ if prefer_xsltproc: return cmdline_builder if not has_libxml2: # At the moment we prefer libxml2 over lxml, the latter can lead # to conflicts when installed together with libxml2. if has_lxml: return lxml_builder else: return cmdline_builder return libxml2_builder def __ensure_suffix(t, suffix): """ Ensure that the target t has the given suffix. """ tpath = str(t) if not tpath.endswith(suffix): return tpath+suffix return t def __ensure_suffix_stem(t, suffix): """ Ensure that the target t has the given suffix, and return the file's stem. """ tpath = str(t) if not tpath.endswith(suffix): stem = tpath tpath += suffix return tpath, stem else: stem, ext = os.path.splitext(tpath) return t, stem def __get_xml_text(root): """ Return the text for the given root node (xml.dom.minidom). """ txt = "" for e in root.childNodes: if (e.nodeType == e.TEXT_NODE): txt += e.data return txt def __create_output_dir(base_dir): """ Ensure that the output directory base_dir exists. """ root, tail = os.path.split(base_dir) dir = None if tail: if base_dir.endswith('/'): dir = base_dir else: dir = root else: if base_dir.endswith('/'): dir = base_dir if dir and not os.path.isdir(dir): os.makedirs(dir) # # Supported command line tools and their call "signature" # xsltproc_com_priority = ['xsltproc', 'saxon', 'saxon-xslt', 'xalan'] # TODO: Set minimum version of saxon-xslt to be 8.x (lower than this only supports xslt 1.0. # see: http://saxon.sourceforge.net/saxon6.5.5/ # see: http://saxon.sourceforge.net/ xsltproc_com = {'xsltproc' : '$DOCBOOK_XSLTPROC $DOCBOOK_XSLTPROCFLAGS -o $TARGET $DOCBOOK_XSL $SOURCE', 'saxon' : '$DOCBOOK_XSLTPROC $DOCBOOK_XSLTPROCFLAGS -o $TARGET $DOCBOOK_XSL $SOURCE $DOCBOOK_XSLTPROCPARAMS', 'saxon-xslt' : '$DOCBOOK_XSLTPROC $DOCBOOK_XSLTPROCFLAGS -o $TARGET $DOCBOOK_XSL $SOURCE $DOCBOOK_XSLTPROCPARAMS', 'xalan' : '$DOCBOOK_XSLTPROC $DOCBOOK_XSLTPROCFLAGS -q -out $TARGET -xsl $DOCBOOK_XSL -in $SOURCE'} xmllint_com = {'xmllint' : '$DOCBOOK_XMLLINT $DOCBOOK_XMLLINTFLAGS --xinclude $SOURCE > $TARGET'} fop_com = {'fop' : '$DOCBOOK_FOP $DOCBOOK_FOPFLAGS -fo $SOURCE -pdf $TARGET', 'xep' : '$DOCBOOK_FOP $DOCBOOK_FOPFLAGS -valid -fo $SOURCE -pdf $TARGET', 'jw' : '$DOCBOOK_FOP $DOCBOOK_FOPFLAGS -f docbook -b pdf $SOURCE -o $TARGET'} def __detect_cl_tool(env, chainkey, cdict, cpriority=None): """ Helper function, picks a command line tool from the list and initializes its environment variables. """ if env.get(chainkey,'') == '': clpath = '' if cpriority is None: cpriority = cdict.keys() for cltool in cpriority: if __debug_tool_location: print("DocBook: Looking for %s"%cltool) clpath = env.WhereIs(cltool) if clpath: if __debug_tool_location: print("DocBook: Found:%s"%cltool) env[chainkey] = clpath if not env[chainkey + 'COM']: env[chainkey + 'COM'] = cdict[cltool] break def _detect(env): """ Detect all the command line tools that we might need for creating the requested output formats. """ global prefer_xsltproc if env.get('DOCBOOK_PREFER_XSLTPROC',''): prefer_xsltproc = True if ((not has_libxml2 and not has_lxml) or (prefer_xsltproc)): # Try to find the XSLT processors __detect_cl_tool(env, 'DOCBOOK_XSLTPROC', xsltproc_com, xsltproc_com_priority) __detect_cl_tool(env, 'DOCBOOK_XMLLINT', xmllint_com) __detect_cl_tool(env, 'DOCBOOK_FOP', fop_com, ['fop','xep','jw']) # # Scanners # include_re = re.compile('fileref\\s*=\\s*["|\']([^\\n]*)["|\']') sentity_re = re.compile('') def __xml_scan(node, env, path, arg): """ Simple XML file scanner, detecting local images and XIncludes as implicit dependencies. """ # Does the node exist yet? if not os.path.isfile(str(node)): return [] if env.get('DOCBOOK_SCANENT',''): # Use simple pattern matching for system entities..., no support # for recursion yet. contents = node.get_text_contents() return sentity_re.findall(contents) xsl_file = os.path.join(scriptpath,'utils','xmldepend.xsl') if not has_libxml2 or prefer_xsltproc: if has_lxml and not prefer_xsltproc: from lxml import etree xsl_tree = etree.parse(xsl_file) doc = etree.parse(str(node)) result = doc.xslt(xsl_tree) depfiles = [x.strip() for x in str(result).splitlines() if x.strip() != "" and not x.startswith(" 1: env.Clean(outfiles[0], outfiles[1:]) return result def DocbookSlidesPdf(env, target, source=None, *args, **kw): """ A pseudo-Builder, providing a Docbook toolchain for PDF slides output. """ # Init list of targets/sources target, source = __extend_targets_sources(target, source) # Init XSL stylesheet __init_xsl_stylesheet(kw, env, '$DOCBOOK_DEFAULT_XSL_SLIDESPDF', ['slides','fo','plain.xsl']) # Setup builder __builder = __select_builder(__lxml_builder, __libxml2_builder, __xsltproc_builder) # Create targets result = [] for t,s in zip(target,source): t, stem = __ensure_suffix_stem(t, '.pdf') xsl = __builder.__call__(env, stem+'.fo', s, **kw) env.Depends(xsl, kw['DOCBOOK_XSL']) result.extend(xsl) result.extend(__fop_builder.__call__(env, t, xsl, **kw)) return result def DocbookSlidesHtml(env, target, source=None, *args, **kw): """ A pseudo-Builder, providing a Docbook toolchain for HTML slides output. """ # Init list of targets/sources if not SCons.Util.is_List(target): target = [target] if not source: source = target target = ['index.html'] elif not SCons.Util.is_List(source): source = [source] # Init XSL stylesheet __init_xsl_stylesheet(kw, env, '$DOCBOOK_DEFAULT_XSL_SLIDESHTML', ['slides','html','plain.xsl']) # Setup builder __builder = __select_builder(__lxml_builder, __libxml2_builder, __xsltproc_builder) # Detect base dir base_dir = kw.get('base_dir', '') if base_dir: __create_output_dir(base_dir) # Create targets result = [] r = __builder.__call__(env, __ensure_suffix(str(target[0]), '.html'), source[0], **kw) env.Depends(r, kw['DOCBOOK_XSL']) result.extend(r) # Add supporting files for cleanup env.Clean(r, [os.path.join(base_dir, 'toc.html')] + glob.glob(os.path.join(base_dir, 'foil*.html'))) return result def DocbookXInclude(env, target, source, *args, **kw): """ A pseudo-Builder, for resolving XIncludes in a separate processing step. """ # Init list of targets/sources target, source = __extend_targets_sources(target, source) # Setup builder __builder = __select_builder(__xinclude_lxml_builder,__xinclude_libxml2_builder,__xmllint_builder) # Create targets result = [] for t,s in zip(target,source): result.extend(__builder.__call__(env, t, s, **kw)) return result def DocbookXslt(env, target, source=None, *args, **kw): """ A pseudo-Builder, applying a simple XSL transformation to the input file. """ # Init list of targets/sources target, source = __extend_targets_sources(target, source) # Init XSL stylesheet kw['DOCBOOK_XSL'] = kw.get('xsl', 'transform.xsl') # Setup builder __builder = __select_builder(__lxml_builder, __libxml2_builder, __xsltproc_builder) # Create targets result = [] for t,s in zip(target,source): r = __builder.__call__(env, t, s, **kw) env.Depends(r, kw['DOCBOOK_XSL']) result.extend(r) return result def generate(env): """Add Builders and construction variables for docbook to an Environment.""" env.SetDefault( # Default names for customized XSL stylesheets DOCBOOK_DEFAULT_XSL_EPUB = '', DOCBOOK_DEFAULT_XSL_HTML = '', DOCBOOK_DEFAULT_XSL_HTMLCHUNKED = '', DOCBOOK_DEFAULT_XSL_HTMLHELP = '', DOCBOOK_DEFAULT_XSL_PDF = '', DOCBOOK_DEFAULT_XSL_MAN = '', DOCBOOK_DEFAULT_XSL_SLIDESPDF = '', DOCBOOK_DEFAULT_XSL_SLIDESHTML = '', # Paths to the detected executables DOCBOOK_XSLTPROC = '', DOCBOOK_XMLLINT = '', DOCBOOK_FOP = '', # Additional flags for the text processors DOCBOOK_XSLTPROCFLAGS = SCons.Util.CLVar(''), DOCBOOK_XMLLINTFLAGS = SCons.Util.CLVar(''), DOCBOOK_FOPFLAGS = SCons.Util.CLVar(''), DOCBOOK_XSLTPROCPARAMS = SCons.Util.CLVar(''), # Default command lines for the detected executables DOCBOOK_XSLTPROCCOM = xsltproc_com['xsltproc'], DOCBOOK_XMLLINTCOM = xmllint_com['xmllint'], DOCBOOK_FOPCOM = fop_com['fop'], # Screen output for the text processors DOCBOOK_XSLTPROCCOMSTR = None, DOCBOOK_XMLLINTCOMSTR = None, DOCBOOK_FOPCOMSTR = None, ) _detect(env) env.AddMethod(DocbookEpub, "DocbookEpub") env.AddMethod(DocbookHtml, "DocbookHtml") env.AddMethod(DocbookHtmlChunked, "DocbookHtmlChunked") env.AddMethod(DocbookHtmlhelp, "DocbookHtmlhelp") env.AddMethod(DocbookPdf, "DocbookPdf") env.AddMethod(DocbookMan, "DocbookMan") env.AddMethod(DocbookSlidesPdf, "DocbookSlidesPdf") env.AddMethod(DocbookSlidesHtml, "DocbookSlidesHtml") env.AddMethod(DocbookXInclude, "DocbookXInclude") env.AddMethod(DocbookXslt, "DocbookXslt") def exists(env): return 1 scons-3.0.1/engine/SCons/Tool/suncc.py0000664000175000017500000000367113202656512021045 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.suncc Tool-specific initialization for Sun Solaris (Forte) CC and cc. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/suncc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util from . import cc def generate(env): """ Add Builders and construction variables for Forte C and C++ compilers to an Environment. """ cc.generate(env) env['CXX'] = 'CC' env['SHCCFLAGS'] = SCons.Util.CLVar('$CCFLAGS -KPIC') env['SHOBJPREFIX'] = 'so_' env['SHOBJSUFFIX'] = '.o' def exists(env): return env.Detect('CC') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/linkloc.py0000664000175000017500000000771213202656511021364 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.linkloc Tool specification for the LinkLoc linker for the Phar Lap ETS embedded operating system. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/linkloc.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import re import SCons.Action import SCons.Defaults import SCons.Errors import SCons.Tool import SCons.Util from SCons.Tool.MSCommon import msvs_exists, merge_default_version from SCons.Tool.PharLapCommon import addPharLapPaths _re_linker_command = re.compile(r'(\s)@\s*([^\s]+)') def repl_linker_command(m): # Replaces any linker command file directives (e.g. "@foo.lnk") with # the actual contents of the file. try: with open(m.group(2), "r") as f: return m.group(1) + f.read() except IOError: # the linker should return an error if it can't # find the linker command file so we will remain quiet. # However, we will replace the @ with a # so we will not continue # to find it with recursive substitution return m.group(1) + '#' + m.group(2) class LinklocGenerator(object): def __init__(self, cmdline): self.cmdline = cmdline def __call__(self, env, target, source, for_signature): if for_signature: # Expand the contents of any linker command files recursively subs = 1 strsub = env.subst(self.cmdline, target=target, source=source) while subs: strsub, subs = _re_linker_command.subn(repl_linker_command, strsub) return strsub else: return "${TEMPFILE('" + self.cmdline + "')}" def generate(env): """Add Builders and construction variables for ar to an Environment.""" SCons.Tool.createSharedLibBuilder(env) SCons.Tool.createProgBuilder(env) env['SUBST_CMD_FILE'] = LinklocGenerator env['SHLINK'] = '$LINK' env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS') env['SHLINKCOM'] = '${SUBST_CMD_FILE("$SHLINK $SHLINKFLAGS $_LIBDIRFLAGS $_LIBFLAGS -dll $TARGET $SOURCES")}' env['SHLIBEMITTER']= None env['LDMODULEEMITTER']= None env['LINK'] = "linkloc" env['LINKFLAGS'] = SCons.Util.CLVar('') env['LINKCOM'] = '${SUBST_CMD_FILE("$LINK $LINKFLAGS $_LIBDIRFLAGS $_LIBFLAGS -exe $TARGET $SOURCES")}' env['LIBDIRPREFIX']='-libpath ' env['LIBDIRSUFFIX']='' env['LIBLINKPREFIX']='-lib ' env['LIBLINKSUFFIX']='$LIBSUFFIX' # Set-up ms tools paths for default version merge_default_version(env) addPharLapPaths(env) def exists(env): if msvs_exists(): return env.Detect('linkloc') else: return 0 # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/__init__.py0000664000175000017500000014023013202656511021461 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool SCons tool selection. This looks for modules that define a callable object that can modify a construction environment as appropriate for a given tool (or tool chain). Note that because this subsystem just *selects* a callable that can modify a construction environment, it's possible for people to define their own "tool specification" in an arbitrary callable function. No one needs to use or tie in to this subsystem in order to roll their own tool definition. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Tool/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import imp import importlib import sys import re import os import shutil import SCons.Builder import SCons.Errors import SCons.Node.FS import SCons.Scanner import SCons.Scanner.C import SCons.Scanner.D import SCons.Scanner.LaTeX import SCons.Scanner.Prog import SCons.Scanner.SWIG import collections DefaultToolpath=[] CScanner = SCons.Scanner.C.CScanner() DScanner = SCons.Scanner.D.DScanner() LaTeXScanner = SCons.Scanner.LaTeX.LaTeXScanner() PDFLaTeXScanner = SCons.Scanner.LaTeX.PDFLaTeXScanner() ProgramScanner = SCons.Scanner.Prog.ProgramScanner() SourceFileScanner = SCons.Scanner.Base({}, name='SourceFileScanner') SWIGScanner = SCons.Scanner.SWIG.SWIGScanner() CSuffixes = [".c", ".C", ".cxx", ".cpp", ".c++", ".cc", ".h", ".H", ".hxx", ".hpp", ".hh", ".F", ".fpp", ".FPP", ".m", ".mm", ".S", ".spp", ".SPP", ".sx"] DSuffixes = ['.d'] IDLSuffixes = [".idl", ".IDL"] LaTeXSuffixes = [".tex", ".ltx", ".latex"] SWIGSuffixes = ['.i'] for suffix in CSuffixes: SourceFileScanner.add_scanner(suffix, CScanner) for suffix in DSuffixes: SourceFileScanner.add_scanner(suffix, DScanner) for suffix in SWIGSuffixes: SourceFileScanner.add_scanner(suffix, SWIGScanner) # FIXME: what should be done here? Two scanners scan the same extensions, # but look for different files, e.g., "picture.eps" vs. "picture.pdf". # The builders for DVI and PDF explicitly reference their scanners # I think that means this is not needed??? for suffix in LaTeXSuffixes: SourceFileScanner.add_scanner(suffix, LaTeXScanner) SourceFileScanner.add_scanner(suffix, PDFLaTeXScanner) # Tool aliases are needed for those tools whos module names also # occur in the python standard library. This causes module shadowing and # can break using python library functions under python3 TOOL_ALIASES = { 'gettext':'gettext_tool', 'clang++': 'clangxx', } class Tool(object): def __init__(self, name, toolpath=[], **kw): # Rename if there's a TOOL_ALIAS for this tool self.name = TOOL_ALIASES.get(name,name) self.toolpath = toolpath + DefaultToolpath # remember these so we can merge them into the call self.init_kw = kw module = self._tool_module() self.generate = module.generate self.exists = module.exists if hasattr(module, 'options'): self.options = module.options def _load_dotted_module_py2(self, short_name, full_name, searchpaths=None): splitname = short_name.split('.') index = 0 srchpths = searchpaths for item in splitname: file, path, desc = imp.find_module(item, srchpths) mod = imp.load_module(full_name, file, path, desc) srchpths = [path] return mod, file def _tool_module(self): oldpythonpath = sys.path sys.path = self.toolpath + sys.path # sys.stderr.write("Tool:%s\nPATH:%s\n"%(self.name,sys.path)) if sys.version_info[0] < 3 or (sys.version_info[0] == 3 and sys.version_info[1] in (0,1,2,3,4)): # Py 2 code try: try: file = None try: mod, file = self._load_dotted_module_py2(self.name, self.name, self.toolpath) return mod finally: if file: file.close() except ImportError as e: splitname = self.name.split('.') if str(e)!="No module named %s"%splitname[0]: raise SCons.Errors.EnvironmentError(e) try: import zipimport except ImportError: pass else: for aPath in self.toolpath: try: importer = zipimport.zipimporter(aPath) return importer.load_module(self.name) except ImportError as e: pass finally: sys.path = oldpythonpath elif sys.version_info[1] > 4: # From: http://stackoverflow.com/questions/67631/how-to-import-a-module-given-the-full-path/67692#67692 # import importlib.util # spec = importlib.util.spec_from_file_location("module.name", "/path/to/file.py") # foo = importlib.util.module_from_spec(spec) # spec.loader.exec_module(foo) # foo.MyClass() # Py 3 code # import pdb; pdb.set_trace() import importlib.util # sys.stderr.write("toolpath:%s\n" % self.toolpath) # sys.stderr.write("SCONS.TOOL path:%s\n" % sys.modules['SCons.Tool'].__path__) debug = False spec = None found_name = self.name add_to_scons_tools_namespace = False for path in self.toolpath: sepname = self.name.replace('.', os.path.sep) file_path = os.path.join(path, "%s.py"%sepname) file_package = os.path.join(path, sepname) if debug: sys.stderr.write("Trying:%s %s\n"%(file_path, file_package)) if os.path.isfile(file_path): spec = importlib.util.spec_from_file_location(self.name, file_path) if debug: print("file_Path:%s FOUND"%file_path) break elif os.path.isdir(file_package): file_package = os.path.join(file_package, '__init__.py') spec = importlib.util.spec_from_file_location(self.name, file_package) if debug: print("PACKAGE:%s Found"%file_package) break else: continue if spec is None: if debug: sys.stderr.write("NO SPEC :%s\n"%self.name) spec = importlib.util.find_spec("."+self.name, package='SCons.Tool') if spec: found_name = 'SCons.Tool.'+self.name add_to_scons_tools_namespace = True if debug: sys.stderr.write("Spec Found? .%s :%s\n"%(self.name, spec)) if spec is None: error_string = "No module named %s"%self.name raise SCons.Errors.EnvironmentError(error_string) module = importlib.util.module_from_spec(spec) if module is None: if debug: print("MODULE IS NONE:%s"%self.name) error_string = "No module named %s"%self.name raise SCons.Errors.EnvironmentError(error_string) # Don't reload a tool we already loaded. sys_modules_value = sys.modules.get(found_name,False) found_module = None if sys_modules_value and sys_modules_value.__file__ == spec.origin: found_module = sys.modules[found_name] else: # Not sure what to do in the case that there already # exists sys.modules[self.name] but the source file is # different.. ? module = spec.loader.load_module(spec.name) sys.modules[found_name] = module if add_to_scons_tools_namespace: # If we found it in SCons.Tool, then add it to the module setattr(SCons.Tool, self.name, module) found_module = module if found_module is not None: sys.path = oldpythonpath return found_module sys.path = oldpythonpath full_name = 'SCons.Tool.' + self.name try: return sys.modules[full_name] except KeyError: try: smpath = sys.modules['SCons.Tool'].__path__ try: module, file = self._load_dotted_module_py2(self.name, full_name, smpath) setattr(SCons.Tool, self.name, module) if file: file.close() return module except ImportError as e: if str(e)!="No module named %s"%self.name: raise SCons.Errors.EnvironmentError(e) try: import zipimport importer = zipimport.zipimporter( sys.modules['SCons.Tool'].__path__[0] ) module = importer.load_module(full_name) setattr(SCons.Tool, self.name, module) return module except ImportError as e: m = "No tool named '%s': %s" % (self.name, e) raise SCons.Errors.EnvironmentError(m) except ImportError as e: m = "No tool named '%s': %s" % (self.name, e) raise SCons.Errors.EnvironmentError(m) def __call__(self, env, *args, **kw): if self.init_kw is not None: # Merge call kws into init kws; # but don't bash self.init_kw. if kw is not None: call_kw = kw kw = self.init_kw.copy() kw.update(call_kw) else: kw = self.init_kw env.Append(TOOLS = [ self.name ]) if hasattr(self, 'options'): import SCons.Variables if 'options' not in env: from SCons.Script import ARGUMENTS env['options']=SCons.Variables.Variables(args=ARGUMENTS) opts=env['options'] self.options(opts) opts.Update(env) self.generate(env, *args, **kw) def __str__(self): return self.name ########################################################################## # Create common executable program / library / object builders def createProgBuilder(env): """This is a utility function that creates the Program Builder in an Environment if it is not there already. If it is already there, we return the existing one. """ try: program = env['BUILDERS']['Program'] except KeyError: import SCons.Defaults program = SCons.Builder.Builder(action = SCons.Defaults.LinkAction, emitter = '$PROGEMITTER', prefix = '$PROGPREFIX', suffix = '$PROGSUFFIX', src_suffix = '$OBJSUFFIX', src_builder = 'Object', target_scanner = ProgramScanner) env['BUILDERS']['Program'] = program return program def createStaticLibBuilder(env): """This is a utility function that creates the StaticLibrary Builder in an Environment if it is not there already. If it is already there, we return the existing one. """ try: static_lib = env['BUILDERS']['StaticLibrary'] except KeyError: action_list = [ SCons.Action.Action("$ARCOM", "$ARCOMSTR") ] if env.get('RANLIB',False) or env.Detect('ranlib'): ranlib_action = SCons.Action.Action("$RANLIBCOM", "$RANLIBCOMSTR") action_list.append(ranlib_action) static_lib = SCons.Builder.Builder(action = action_list, emitter = '$LIBEMITTER', prefix = '$LIBPREFIX', suffix = '$LIBSUFFIX', src_suffix = '$OBJSUFFIX', src_builder = 'StaticObject') env['BUILDERS']['StaticLibrary'] = static_lib env['BUILDERS']['Library'] = static_lib return static_lib def _call_linker_cb(env, callback, args, result = None): """Returns the result of env['LINKCALLBACKS'][callback](*args) if env['LINKCALLBACKS'] is a dictionary and env['LINKCALLBACKS'][callback] is callable. If these conditions are not met, return the value provided as the *result* argument. This function is mainly used for generating library info such as versioned suffixes, symlink maps, sonames etc. by delegating the core job to callbacks configured by current linker tool""" Verbose = False if Verbose: print('_call_linker_cb: args=%r' % args) print('_call_linker_cb: callback=%r' % callback) try: cbfun = env['LINKCALLBACKS'][callback] except (KeyError, TypeError): if Verbose: print('_call_linker_cb: env["LINKCALLBACKS"][%r] not found or can not be used' % callback) pass else: if Verbose: print('_call_linker_cb: env["LINKCALLBACKS"][%r] found' % callback) print('_call_linker_cb: env["LINKCALLBACKS"][%r]=%r' % (callback, cbfun)) if(isinstance(cbfun, collections.Callable)): if Verbose: print('_call_linker_cb: env["LINKCALLBACKS"][%r] is callable' % callback) result = cbfun(env, *args) return result def _call_env_subst(env, string, *args, **kw): kw2 = {} for k in ('raw', 'target', 'source', 'conv', 'executor'): try: kw2[k] = kw[k] except KeyError: pass return env.subst(string, *args, **kw2) class _ShLibInfoSupport(object): def get_libtype(self): return 'ShLib' def get_lib_prefix(self, env, *args, **kw): return _call_env_subst(env,'$SHLIBPREFIX', *args, **kw) def get_lib_suffix(self, env, *args, **kw): return _call_env_subst(env,'$SHLIBSUFFIX', *args, **kw) def get_lib_version(self, env, *args, **kw): return _call_env_subst(env,'$SHLIBVERSION', *args, **kw) def get_lib_noversionsymlinks(self, env, *args, **kw): return _call_env_subst(env,'$SHLIBNOVERSIONSYMLINKS', *args, **kw) class _LdModInfoSupport(object): def get_libtype(self): return 'LdMod' def get_lib_prefix(self, env, *args, **kw): return _call_env_subst(env,'$LDMODULEPREFIX', *args, **kw) def get_lib_suffix(self, env, *args, **kw): return _call_env_subst(env,'$LDMODULESUFFIX', *args, **kw) def get_lib_version(self, env, *args, **kw): return _call_env_subst(env,'$LDMODULEVERSION', *args, **kw) def get_lib_noversionsymlinks(self, env, *args, **kw): return _call_env_subst(env,'$LDMODULENOVERSIONSYMLINKS', *args, **kw) class _ImpLibInfoSupport(object): def get_libtype(self): return 'ImpLib' def get_lib_prefix(self, env, *args, **kw): return _call_env_subst(env,'$IMPLIBPREFIX', *args, **kw) def get_lib_suffix(self, env, *args, **kw): return _call_env_subst(env,'$IMPLIBSUFFIX', *args, **kw) def get_lib_version(self, env, *args, **kw): version = _call_env_subst(env,'$IMPLIBVERSION', *args, **kw) if not version: try: lt = kw['implib_libtype'] except KeyError: pass else: if lt == 'ShLib': version = _call_env_subst(env,'$SHLIBVERSION', *args, **kw) elif lt == 'LdMod': version = _call_env_subst(env,'$LDMODULEVERSION', *args, **kw) return version def get_lib_noversionsymlinks(self, env, *args, **kw): disable = None try: env['IMPLIBNOVERSIONSYMLINKS'] except KeyError: try: lt = kw['implib_libtype'] except KeyError: pass else: if lt == 'ShLib': disable = _call_env_subst(env,'$SHLIBNOVERSIONSYMLINKS', *args, **kw) elif lt == 'LdMod': disable = _call_env_subst(env,'$LDMODULENOVERSIONSYMLINKS', *args, **kw) else: disable = _call_env_subst(env,'$IMPLIBNOVERSIONSYMLINKS', *args, **kw) return disable class _LibInfoGeneratorBase(object): """Generator base class for library-related info such as suffixes for versioned libraries, symlink maps, sonames etc. It handles commonities of SharedLibrary and LoadableModule """ _support_classes = { 'ShLib' : _ShLibInfoSupport, 'LdMod' : _LdModInfoSupport, 'ImpLib' : _ImpLibInfoSupport } def __init__(self, libtype, infoname): self.set_libtype(libtype) self.set_infoname(infoname) def set_libtype(self, libtype): try: support_class = self._support_classes[libtype] except KeyError: raise ValueError('unsupported libtype %r' % libtype) self._support = support_class() def get_libtype(self): return self._support.get_libtype() def set_infoname(self, infoname): self.infoname = infoname def get_infoname(self): return self.infoname def get_lib_prefix(self, env, *args, **kw): return self._support.get_lib_prefix(env,*args,**kw) def get_lib_suffix(self, env, *args, **kw): return self._support.get_lib_suffix(env,*args,**kw) def get_lib_version(self, env, *args, **kw): return self._support.get_lib_version(env,*args,**kw) def get_lib_noversionsymlinks(self, env, *args, **kw): return self._support.get_lib_noversionsymlinks(env,*args,**kw) # Returns name of generator linker callback that shall be used to generate # our info for a versioned library. For example, if our libtype is 'ShLib' # and infoname is 'Prefix', it would return 'VersionedShLibPrefix'. def get_versioned_lib_info_generator(self, **kw): try: libtype = kw['generator_libtype'] except KeyError: libtype = self.get_libtype() infoname = self.get_infoname() return 'Versioned%s%s' % (libtype, infoname) def generate_versioned_lib_info(self, env, args, result = None, **kw): callback = self.get_versioned_lib_info_generator(**kw) return _call_linker_cb(env, callback, args, result) class _LibPrefixGenerator(_LibInfoGeneratorBase): """Library prefix generator, used as target_prefix in SharedLibrary and LoadableModule builders""" def __init__(self, libtype): super(_LibPrefixGenerator, self).__init__(libtype, 'Prefix') def __call__(self, env, sources = None, **kw): Verbose = False if sources and 'source' not in kw: kw2 = kw.copy() kw2['source'] = sources else: kw2 = kw prefix = self.get_lib_prefix(env,**kw2) if Verbose: print("_LibPrefixGenerator: input prefix=%r" % prefix) version = self.get_lib_version(env, **kw2) if Verbose: print("_LibPrefixGenerator: version=%r" % version) if version: prefix = self.generate_versioned_lib_info(env, [prefix, version], prefix, **kw2) if Verbose: print("_LibPrefixGenerator: return prefix=%r" % prefix) return prefix ShLibPrefixGenerator = _LibPrefixGenerator('ShLib') LdModPrefixGenerator = _LibPrefixGenerator('LdMod') ImpLibPrefixGenerator = _LibPrefixGenerator('ImpLib') class _LibSuffixGenerator(_LibInfoGeneratorBase): """Library suffix generator, used as target_suffix in SharedLibrary and LoadableModule builders""" def __init__(self, libtype): super(_LibSuffixGenerator, self).__init__(libtype, 'Suffix') def __call__(self, env, sources = None, **kw): Verbose = False if sources and 'source' not in kw: kw2 = kw.copy() kw2['source'] = sources else: kw2 = kw suffix = self.get_lib_suffix(env, **kw2) if Verbose: print("_LibSuffixGenerator: input suffix=%r" % suffix) version = self.get_lib_version(env, **kw2) if Verbose: print("_LibSuffixGenerator: version=%r" % version) if version: suffix = self.generate_versioned_lib_info(env, [suffix, version], suffix, **kw2) if Verbose: print("_LibSuffixGenerator: return suffix=%r" % suffix) return suffix ShLibSuffixGenerator = _LibSuffixGenerator('ShLib') LdModSuffixGenerator = _LibSuffixGenerator('LdMod') ImpLibSuffixGenerator = _LibSuffixGenerator('ImpLib') class _LibSymlinkGenerator(_LibInfoGeneratorBase): """Library symlink map generator. It generates a list of symlinks that should be created by SharedLibrary or LoadableModule builders""" def __init__(self, libtype): super(_LibSymlinkGenerator, self).__init__(libtype, 'Symlinks') def __call__(self, env, libnode, **kw): Verbose = False if libnode and 'target' not in kw: kw2 = kw.copy() kw2['target'] = libnode else: kw2 = kw if Verbose: print("_LibSymLinkGenerator: libnode=%r" % libnode.get_path()) symlinks = None version = self.get_lib_version(env, **kw2) disable = self.get_lib_noversionsymlinks(env, **kw2) if Verbose: print('_LibSymlinkGenerator: version=%r' % version) print('_LibSymlinkGenerator: disable=%r' % disable) if version and not disable: prefix = self.get_lib_prefix(env,**kw2) suffix = self.get_lib_suffix(env,**kw2) symlinks = self.generate_versioned_lib_info(env, [libnode, version, prefix, suffix], **kw2) if Verbose: print('_LibSymlinkGenerator: return symlinks=%r' % StringizeLibSymlinks(symlinks)) return symlinks ShLibSymlinkGenerator = _LibSymlinkGenerator('ShLib') LdModSymlinkGenerator = _LibSymlinkGenerator('LdMod') ImpLibSymlinkGenerator = _LibSymlinkGenerator('ImpLib') class _LibNameGenerator(_LibInfoGeneratorBase): """Generates "unmangled" library name from a library file node. Generally, it's thought to revert modifications done by prefix/suffix generators (_LibPrefixGenerator/_LibSuffixGenerator) used by a library builder. For example, on gnulink the suffix generator used by SharedLibrary builder appends $SHLIBVERSION to $SHLIBSUFFIX producing node name which ends with "$SHLIBSUFFIX.$SHLIBVERSION". Correspondingly, the implementation of _LibNameGenerator replaces "$SHLIBSUFFIX.$SHLIBVERSION" with "$SHLIBSUFFIX" in the node's basename. So that, if $SHLIBSUFFIX is ".so", $SHLIBVERSION is "0.1.2" and the node path is "/foo/bar/libfoo.so.0.1.2", the _LibNameGenerator shall return "libfoo.so". Other link tools may implement it's own way of library name unmangling. """ def __init__(self, libtype): super(_LibNameGenerator, self).__init__(libtype, 'Name') def __call__(self, env, libnode, **kw): """Returns "demangled" library name""" Verbose = False if libnode and 'target' not in kw: kw2 = kw.copy() kw2['target'] = libnode else: kw2 = kw if Verbose: print("_LibNameGenerator: libnode=%r" % libnode.get_path()) version = self.get_lib_version(env, **kw2) if Verbose: print('_LibNameGenerator: version=%r' % version) name = None if version: prefix = self.get_lib_prefix(env,**kw2) suffix = self.get_lib_suffix(env,**kw2) name = self.generate_versioned_lib_info(env, [libnode, version, prefix, suffix], **kw2) if not name: name = os.path.basename(libnode.get_path()) if Verbose: print('_LibNameGenerator: return name=%r' % name) return name ShLibNameGenerator = _LibNameGenerator('ShLib') LdModNameGenerator = _LibNameGenerator('LdMod') ImpLibNameGenerator = _LibNameGenerator('ImpLib') class _LibSonameGenerator(_LibInfoGeneratorBase): """Library soname generator. Returns library soname (e.g. libfoo.so.0) for a given node (e.g. /foo/bar/libfoo.so.0.1.2)""" def __init__(self, libtype): super(_LibSonameGenerator, self).__init__(libtype, 'Soname') def __call__(self, env, libnode, **kw): """Returns a SONAME based on a shared library's node path""" Verbose = False if libnode and 'target' not in kw: kw2 = kw.copy() kw2['target'] = libnode else: kw2 = kw if Verbose: print("_LibSonameGenerator: libnode=%r" % libnode.get_path()) soname = _call_env_subst(env, '$SONAME', **kw2) if not soname: version = self.get_lib_version(env,**kw2) if Verbose: print("_LibSonameGenerator: version=%r" % version) if version: prefix = self.get_lib_prefix(env,**kw2) suffix = self.get_lib_suffix(env,**kw2) soname = self.generate_versioned_lib_info(env, [libnode, version, prefix, suffix], **kw2) if not soname: # fallback to library name (as returned by appropriate _LibNameGenerator) soname = _LibNameGenerator(self.get_libtype())(env, libnode) if Verbose: print("_LibSonameGenerator: FALLBACK: soname=%r" % soname) if Verbose: print("_LibSonameGenerator: return soname=%r" % soname) return soname ShLibSonameGenerator = _LibSonameGenerator('ShLib') LdModSonameGenerator = _LibSonameGenerator('LdMod') def StringizeLibSymlinks(symlinks): """Converts list with pairs of nodes to list with pairs of node paths (strings). Used mainly for debugging.""" if SCons.Util.is_List(symlinks): try: return [ (k.get_path(), v.get_path()) for k,v in symlinks ] except (TypeError, ValueError): return symlinks else: return symlinks def EmitLibSymlinks(env, symlinks, libnode, **kw): """Used by emitters to handle (shared/versioned) library symlinks""" Verbose = False # nodes involved in process... all symlinks + library nodes = list(set([ x for x,y in symlinks ] + [libnode])) clean_targets = kw.get('clean_targets', []) if not SCons.Util.is_List(clean_targets): clean_targets = [ clean_targets ] for link, linktgt in symlinks: env.SideEffect(link, linktgt) if(Verbose): print("EmitLibSymlinks: SideEffect(%r,%r)" % (link.get_path(), linktgt.get_path())) clean_list = [x for x in nodes if x != linktgt] env.Clean(list(set([linktgt] + clean_targets)), clean_list) if(Verbose): print("EmitLibSymlinks: Clean(%r,%r)" % (linktgt.get_path(), [x.get_path() for x in clean_list])) def CreateLibSymlinks(env, symlinks): """Physically creates symlinks. The symlinks argument must be a list in form [ (link, linktarget), ... ], where link and linktarget are SCons nodes. """ Verbose = False for link, linktgt in symlinks: linktgt = link.get_dir().rel_path(linktgt) link = link.get_path() if(Verbose): print("CreateLibSymlinks: preparing to add symlink %r -> %r" % (link, linktgt)) # Delete the (previously created) symlink if exists. Let only symlinks # to be deleted to prevent accidental deletion of source files... if env.fs.islink(link): env.fs.unlink(link) if(Verbose): print("CreateLibSymlinks: removed old symlink %r" % link) # If a file or directory exists with the same name as link, an OSError # will be thrown, which should be enough, I think. env.fs.symlink(linktgt, link) if(Verbose): print("CreateLibSymlinks: add symlink %r -> %r" % (link, linktgt)) return 0 def LibSymlinksActionFunction(target, source, env): for tgt in target: symlinks = getattr(getattr(tgt,'attributes', None), 'shliblinks', None) if symlinks: CreateLibSymlinks(env, symlinks) return 0 def LibSymlinksStrFun(target, source, env, *args): cmd = None for tgt in target: symlinks = getattr(getattr(tgt,'attributes', None), 'shliblinks', None) if symlinks: if cmd is None: cmd = "" if cmd: cmd += "\n" cmd += "Create symlinks for: %r" % tgt.get_path() try: linkstr = ', '.join([ "%r->%r" %(k,v) for k,v in StringizeLibSymlinks(symlinks)]) except (KeyError, ValueError): pass else: cmd += ": %s" % linkstr return cmd LibSymlinksAction = SCons.Action.Action(LibSymlinksActionFunction, LibSymlinksStrFun) def createSharedLibBuilder(env): """This is a utility function that creates the SharedLibrary Builder in an Environment if it is not there already. If it is already there, we return the existing one. """ try: shared_lib = env['BUILDERS']['SharedLibrary'] except KeyError: import SCons.Defaults action_list = [ SCons.Defaults.SharedCheck, SCons.Defaults.ShLinkAction, LibSymlinksAction ] shared_lib = SCons.Builder.Builder(action = action_list, emitter = "$SHLIBEMITTER", prefix = ShLibPrefixGenerator, suffix = ShLibSuffixGenerator, target_scanner = ProgramScanner, src_suffix = '$SHOBJSUFFIX', src_builder = 'SharedObject') env['BUILDERS']['SharedLibrary'] = shared_lib return shared_lib def createLoadableModuleBuilder(env): """This is a utility function that creates the LoadableModule Builder in an Environment if it is not there already. If it is already there, we return the existing one. """ try: ld_module = env['BUILDERS']['LoadableModule'] except KeyError: import SCons.Defaults action_list = [ SCons.Defaults.SharedCheck, SCons.Defaults.LdModuleLinkAction, LibSymlinksAction ] ld_module = SCons.Builder.Builder(action = action_list, emitter = "$LDMODULEEMITTER", prefix = LdModPrefixGenerator, suffix = LdModSuffixGenerator, target_scanner = ProgramScanner, src_suffix = '$SHOBJSUFFIX', src_builder = 'SharedObject') env['BUILDERS']['LoadableModule'] = ld_module return ld_module def createObjBuilders(env): """This is a utility function that creates the StaticObject and SharedObject Builders in an Environment if they are not there already. If they are there already, we return the existing ones. This is a separate function because soooo many Tools use this functionality. The return is a 2-tuple of (StaticObject, SharedObject) """ try: static_obj = env['BUILDERS']['StaticObject'] except KeyError: static_obj = SCons.Builder.Builder(action = {}, emitter = {}, prefix = '$OBJPREFIX', suffix = '$OBJSUFFIX', src_builder = ['CFile', 'CXXFile'], source_scanner = SourceFileScanner, single_source = 1) env['BUILDERS']['StaticObject'] = static_obj env['BUILDERS']['Object'] = static_obj try: shared_obj = env['BUILDERS']['SharedObject'] except KeyError: shared_obj = SCons.Builder.Builder(action = {}, emitter = {}, prefix = '$SHOBJPREFIX', suffix = '$SHOBJSUFFIX', src_builder = ['CFile', 'CXXFile'], source_scanner = SourceFileScanner, single_source = 1) env['BUILDERS']['SharedObject'] = shared_obj return (static_obj, shared_obj) def createCFileBuilders(env): """This is a utility function that creates the CFile/CXXFile Builders in an Environment if they are not there already. If they are there already, we return the existing ones. This is a separate function because soooo many Tools use this functionality. The return is a 2-tuple of (CFile, CXXFile) """ try: c_file = env['BUILDERS']['CFile'] except KeyError: c_file = SCons.Builder.Builder(action = {}, emitter = {}, suffix = {None:'$CFILESUFFIX'}) env['BUILDERS']['CFile'] = c_file env.SetDefault(CFILESUFFIX = '.c') try: cxx_file = env['BUILDERS']['CXXFile'] except KeyError: cxx_file = SCons.Builder.Builder(action = {}, emitter = {}, suffix = {None:'$CXXFILESUFFIX'}) env['BUILDERS']['CXXFile'] = cxx_file env.SetDefault(CXXFILESUFFIX = '.cc') return (c_file, cxx_file) ########################################################################## # Create common Java builders def CreateJarBuilder(env): """The Jar builder expects a list of class files which it can package into a jar file. The jar tool provides an interface for passing other types of java files such as .java, directories or swig interfaces and will build them to class files in which it can package into the jar. """ try: java_jar = env['BUILDERS']['JarFile'] except KeyError: fs = SCons.Node.FS.get_default_fs() jar_com = SCons.Action.Action('$JARCOM', '$JARCOMSTR') java_jar = SCons.Builder.Builder(action = jar_com, suffix = '$JARSUFFIX', src_suffix = '$JAVACLASSSUFFIX', src_builder = 'JavaClassFile', source_factory = fs.Entry) env['BUILDERS']['JarFile'] = java_jar return java_jar def CreateJavaHBuilder(env): try: java_javah = env['BUILDERS']['JavaH'] except KeyError: fs = SCons.Node.FS.get_default_fs() java_javah_com = SCons.Action.Action('$JAVAHCOM', '$JAVAHCOMSTR') java_javah = SCons.Builder.Builder(action = java_javah_com, src_suffix = '$JAVACLASSSUFFIX', target_factory = fs.Entry, source_factory = fs.File, src_builder = 'JavaClassFile') env['BUILDERS']['JavaH'] = java_javah return java_javah def CreateJavaClassFileBuilder(env): try: java_class_file = env['BUILDERS']['JavaClassFile'] except KeyError: fs = SCons.Node.FS.get_default_fs() javac_com = SCons.Action.Action('$JAVACCOM', '$JAVACCOMSTR') java_class_file = SCons.Builder.Builder(action = javac_com, emitter = {}, #suffix = '$JAVACLASSSUFFIX', src_suffix = '$JAVASUFFIX', src_builder = ['JavaFile'], target_factory = fs.Entry, source_factory = fs.File) env['BUILDERS']['JavaClassFile'] = java_class_file return java_class_file def CreateJavaClassDirBuilder(env): try: java_class_dir = env['BUILDERS']['JavaClassDir'] except KeyError: fs = SCons.Node.FS.get_default_fs() javac_com = SCons.Action.Action('$JAVACCOM', '$JAVACCOMSTR') java_class_dir = SCons.Builder.Builder(action = javac_com, emitter = {}, target_factory = fs.Dir, source_factory = fs.Dir) env['BUILDERS']['JavaClassDir'] = java_class_dir return java_class_dir def CreateJavaFileBuilder(env): try: java_file = env['BUILDERS']['JavaFile'] except KeyError: java_file = SCons.Builder.Builder(action = {}, emitter = {}, suffix = {None:'$JAVASUFFIX'}) env['BUILDERS']['JavaFile'] = java_file env['JAVASUFFIX'] = '.java' return java_file class ToolInitializerMethod(object): """ This is added to a construction environment in place of a method(s) normally called for a Builder (env.Object, env.StaticObject, etc.). When called, it has its associated ToolInitializer object search the specified list of tools and apply the first one that exists to the construction environment. It then calls whatever builder was (presumably) added to the construction environment in place of this particular instance. """ def __init__(self, name, initializer): """ Note: we store the tool name as __name__ so it can be used by the class that attaches this to a construction environment. """ self.__name__ = name self.initializer = initializer def get_builder(self, env): """ Returns the appropriate real Builder for this method name after having the associated ToolInitializer object apply the appropriate Tool module. """ builder = getattr(env, self.__name__) self.initializer.apply_tools(env) builder = getattr(env, self.__name__) if builder is self: # There was no Builder added, which means no valid Tool # for this name was found (or possibly there's a mismatch # between the name we were called by and the Builder name # added by the Tool module). return None self.initializer.remove_methods(env) return builder def __call__(self, env, *args, **kw): """ """ builder = self.get_builder(env) if builder is None: return [], [] return builder(*args, **kw) class ToolInitializer(object): """ A class for delayed initialization of Tools modules. Instances of this class associate a list of Tool modules with a list of Builder method names that will be added by those Tool modules. As part of instantiating this object for a particular construction environment, we also add the appropriate ToolInitializerMethod objects for the various Builder methods that we want to use to delay Tool searches until necessary. """ def __init__(self, env, tools, names): if not SCons.Util.is_List(tools): tools = [tools] if not SCons.Util.is_List(names): names = [names] self.env = env self.tools = tools self.names = names self.methods = {} for name in names: method = ToolInitializerMethod(name, self) self.methods[name] = method env.AddMethod(method) def remove_methods(self, env): """ Removes the methods that were added by the tool initialization so we no longer copy and re-bind them when the construction environment gets cloned. """ for method in list(self.methods.values()): env.RemoveMethod(method) def apply_tools(self, env): """ Searches the list of associated Tool modules for one that exists, and applies that to the construction environment. """ for t in self.tools: tool = SCons.Tool.Tool(t) if tool.exists(env): env.Tool(tool) return # If we fall through here, there was no tool module found. # This is where we can put an informative error message # about the inability to find the tool. We'll start doing # this as we cut over more pre-defined Builder+Tools to use # the ToolInitializer class. def Initializers(env): ToolInitializer(env, ['install'], ['_InternalInstall', '_InternalInstallAs', '_InternalInstallVersionedLib']) def Install(self, *args, **kw): return self._InternalInstall(*args, **kw) def InstallAs(self, *args, **kw): return self._InternalInstallAs(*args, **kw) def InstallVersionedLib(self, *args, **kw): return self._InternalInstallVersionedLib(*args, **kw) env.AddMethod(Install) env.AddMethod(InstallAs) env.AddMethod(InstallVersionedLib) def FindTool(tools, env): for tool in tools: t = Tool(tool) if t.exists(env): return tool return None def FindAllTools(tools, env): def ToolExists(tool, env=env): return Tool(tool).exists(env) return list(filter (ToolExists, tools)) def tool_list(platform, env): other_plat_tools=[] # XXX this logic about what tool to prefer on which platform # should be moved into either the platform files or # the tool files themselves. # The search orders here are described in the man page. If you # change these search orders, update the man page as well. if str(platform) == 'win32': "prefer Microsoft tools on Windows" linkers = ['mslink', 'gnulink', 'ilink', 'linkloc', 'ilink32' ] c_compilers = ['msvc', 'mingw', 'gcc', 'intelc', 'icl', 'icc', 'cc', 'bcc32' ] cxx_compilers = ['msvc', 'intelc', 'icc', 'g++', 'cxx', 'bcc32' ] assemblers = ['masm', 'nasm', 'gas', '386asm' ] fortran_compilers = ['gfortran', 'g77', 'ifl', 'cvf', 'f95', 'f90', 'fortran'] ars = ['mslib', 'ar', 'tlib'] other_plat_tools = ['msvs', 'midl'] elif str(platform) == 'os2': "prefer IBM tools on OS/2" linkers = ['ilink', 'gnulink', ]#'mslink'] c_compilers = ['icc', 'gcc',]# 'msvc', 'cc'] cxx_compilers = ['icc', 'g++',]# 'msvc', 'cxx'] assemblers = ['nasm',]# 'masm', 'gas'] fortran_compilers = ['ifl', 'g77'] ars = ['ar',]# 'mslib'] elif str(platform) == 'irix': "prefer MIPSPro on IRIX" linkers = ['sgilink', 'gnulink'] c_compilers = ['sgicc', 'gcc', 'cc'] cxx_compilers = ['sgicxx', 'g++', 'cxx'] assemblers = ['as', 'gas'] fortran_compilers = ['f95', 'f90', 'f77', 'g77', 'fortran'] ars = ['sgiar'] elif str(platform) == 'sunos': "prefer Forte tools on SunOS" linkers = ['sunlink', 'gnulink'] c_compilers = ['suncc', 'gcc', 'cc'] cxx_compilers = ['suncxx', 'g++', 'cxx'] assemblers = ['as', 'gas'] fortran_compilers = ['sunf95', 'sunf90', 'sunf77', 'f95', 'f90', 'f77', 'gfortran', 'g77', 'fortran'] ars = ['sunar'] elif str(platform) == 'hpux': "prefer aCC tools on HP-UX" linkers = ['hplink', 'gnulink'] c_compilers = ['hpcc', 'gcc', 'cc'] cxx_compilers = ['hpcxx', 'g++', 'cxx'] assemblers = ['as', 'gas'] fortran_compilers = ['f95', 'f90', 'f77', 'g77', 'fortran'] ars = ['ar'] elif str(platform) == 'aix': "prefer AIX Visual Age tools on AIX" linkers = ['aixlink', 'gnulink'] c_compilers = ['aixcc', 'gcc', 'cc'] cxx_compilers = ['aixcxx', 'g++', 'cxx'] assemblers = ['as', 'gas'] fortran_compilers = ['f95', 'f90', 'aixf77', 'g77', 'fortran'] ars = ['ar'] elif str(platform) == 'darwin': "prefer GNU tools on Mac OS X, except for some linkers and IBM tools" linkers = ['applelink', 'gnulink'] c_compilers = ['gcc', 'cc'] cxx_compilers = ['g++', 'cxx'] assemblers = ['as'] fortran_compilers = ['gfortran', 'f95', 'f90', 'g77'] ars = ['ar'] elif str(platform) == 'cygwin': "prefer GNU tools on Cygwin, except for a platform-specific linker" linkers = ['cyglink', 'mslink', 'ilink'] c_compilers = ['gcc', 'msvc', 'intelc', 'icc', 'cc'] cxx_compilers = ['g++', 'msvc', 'intelc', 'icc', 'cxx'] assemblers = ['gas', 'nasm', 'masm'] fortran_compilers = ['gfortran', 'g77', 'ifort', 'ifl', 'f95', 'f90', 'f77'] ars = ['ar', 'mslib'] else: "prefer GNU tools on all other platforms" linkers = ['gnulink', 'ilink'] c_compilers = ['gcc', 'intelc', 'icc', 'cc'] cxx_compilers = ['g++', 'intelc', 'icc', 'cxx'] assemblers = ['gas', 'nasm', 'masm'] fortran_compilers = ['gfortran', 'g77', 'ifort', 'ifl', 'f95', 'f90', 'f77'] ars = ['ar',] if not str(platform) == 'win32': other_plat_tools += ['m4', 'rpm'] c_compiler = FindTool(c_compilers, env) or c_compilers[0] # XXX this logic about what tool provides what should somehow be # moved into the tool files themselves. if c_compiler and c_compiler == 'mingw': # MinGW contains a linker, C compiler, C++ compiler, # Fortran compiler, archiver and assembler: cxx_compiler = None linker = None assembler = None fortran_compiler = None ar = None else: # Don't use g++ if the C compiler has built-in C++ support: if c_compiler in ('msvc', 'intelc', 'icc'): cxx_compiler = None else: cxx_compiler = FindTool(cxx_compilers, env) or cxx_compilers[0] linker = FindTool(linkers, env) or linkers[0] assembler = FindTool(assemblers, env) or assemblers[0] fortran_compiler = FindTool(fortran_compilers, env) or fortran_compilers[0] ar = FindTool(ars, env) or ars[0] d_compilers = ['dmd', 'ldc', 'gdc'] d_compiler = FindTool(d_compilers, env) or d_compilers[0] other_tools = FindAllTools(other_plat_tools + [ #TODO: merge 'install' into 'filesystem' and # make 'filesystem' the default 'filesystem', 'wix', #'midl', 'msvs', # Parser generators 'lex', 'yacc', # Foreign function interface 'rpcgen', 'swig', # Java 'jar', 'javac', 'javah', 'rmic', # TeX 'dvipdf', 'dvips', 'gs', 'tex', 'latex', 'pdflatex', 'pdftex', # Archivers 'tar', 'zip', ], env) tools = ([linker, c_compiler, cxx_compiler, fortran_compiler, assembler, ar, d_compiler] + other_tools) return [x for x in tools if x] # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/gxx.py0000664000175000017500000000514113202656511020531 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.g++ Tool-specific initialization for g++. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/gxx.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import re import subprocess import SCons.Tool import SCons.Util from . import gcc from . import cxx compilers = ['g++'] def generate(env): """Add Builders and construction variables for g++ to an Environment.""" static_obj, shared_obj = SCons.Tool.createObjBuilders(env) if 'CXX' not in env: env['CXX'] = env.Detect(compilers) or compilers[0] cxx.generate(env) # platform specific settings if env['PLATFORM'] == 'aix': env['SHCXXFLAGS'] = SCons.Util.CLVar('$CXXFLAGS -mminimal-toc') env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 1 env['SHOBJSUFFIX'] = '$OBJSUFFIX' elif env['PLATFORM'] == 'hpux': env['SHOBJSUFFIX'] = '.pic.o' elif env['PLATFORM'] == 'sunos': env['SHOBJSUFFIX'] = '.pic.o' # determine compiler version version = gcc.detect_version(env, env['CXX']) if version: env['CXXVERSION'] = version def exists(env): # is executable, and is a GNU compiler (or accepts '--version' at least) return gcc.detect_version(env, env.Detect(env.get('CXX', compilers))) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/icl.py0000664000175000017500000000363113202656511020474 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Tool.icl Tool-specific initialization for the Intel C/C++ compiler. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/icl.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Tool.intelc # This has been completely superseded by intelc.py, which can # handle both Windows and Linux versions. def generate(*args, **kw): """Add Builders and construction variables for icl to an Environment.""" return SCons.Tool.intelc.generate(*args, **kw) def exists(*args, **kw): return SCons.Tool.intelc.exists(*args, **kw) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/mslink.py0000664000175000017500000003426213202656512021227 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.mslink Tool-specific initialization for the Microsoft linker. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/Tool/mslink.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Action import SCons.Defaults import SCons.Errors import SCons.Platform.win32 import SCons.Tool import SCons.Tool.msvc import SCons.Tool.msvs import SCons.Util from .MSCommon import msvc_setup_env_once, msvc_exists def pdbGenerator(env, target, source, for_signature): try: return ['/PDB:%s' % target[0].attributes.pdb, '/DEBUG'] except (AttributeError, IndexError): return None def _dllTargets(target, source, env, for_signature, paramtp): listCmd = [] dll = env.FindIxes(target, '%sPREFIX' % paramtp, '%sSUFFIX' % paramtp) if dll: listCmd.append("/out:%s"%dll.get_string(for_signature)) implib = env.FindIxes(target, 'LIBPREFIX', 'LIBSUFFIX') if implib: listCmd.append("/implib:%s"%implib.get_string(for_signature)) return listCmd def _dllSources(target, source, env, for_signature, paramtp): listCmd = [] deffile = env.FindIxes(source, "WINDOWSDEFPREFIX", "WINDOWSDEFSUFFIX") for src in source: # Check explicitly for a non-None deffile so that the __cmp__ # method of the base SCons.Util.Proxy class used for some Node # proxies doesn't try to use a non-existent __dict__ attribute. if deffile and src == deffile: # Treat this source as a .def file. listCmd.append("/def:%s" % src.get_string(for_signature)) else: # Just treat it as a generic source file. listCmd.append(src) return listCmd def windowsShlinkTargets(target, source, env, for_signature): return _dllTargets(target, source, env, for_signature, 'SHLIB') def windowsShlinkSources(target, source, env, for_signature): return _dllSources(target, source, env, for_signature, 'SHLIB') def _windowsLdmodTargets(target, source, env, for_signature): """Get targets for loadable modules.""" return _dllTargets(target, source, env, for_signature, 'LDMODULE') def _windowsLdmodSources(target, source, env, for_signature): """Get sources for loadable modules.""" return _dllSources(target, source, env, for_signature, 'LDMODULE') def _dllEmitter(target, source, env, paramtp): """Common implementation of dll emitter.""" SCons.Tool.msvc.validate_vars(env) extratargets = [] extrasources = [] dll = env.FindIxes(target, '%sPREFIX' % paramtp, '%sSUFFIX' % paramtp) no_import_lib = env.get('no_import_lib', 0) if not dll: raise SCons.Errors.UserError('A shared library should have exactly one target with the suffix: %s' % env.subst('$%sSUFFIX' % paramtp)) insert_def = env.subst("$WINDOWS_INSERT_DEF") if not insert_def in ['', '0', 0] and \ not env.FindIxes(source, "WINDOWSDEFPREFIX", "WINDOWSDEFSUFFIX"): # append a def file to the list of sources extrasources.append( env.ReplaceIxes(dll, '%sPREFIX' % paramtp, '%sSUFFIX' % paramtp, "WINDOWSDEFPREFIX", "WINDOWSDEFSUFFIX")) version_num, suite = SCons.Tool.msvs.msvs_parse_version(env.get('MSVS_VERSION', '6.0')) if version_num >= 8.0 and \ (env.get('WINDOWS_INSERT_MANIFEST', 0) or env.get('WINDOWS_EMBED_MANIFEST', 0)): # MSVC 8 and above automatically generate .manifest files that must be installed extratargets.append( env.ReplaceIxes(dll, '%sPREFIX' % paramtp, '%sSUFFIX' % paramtp, "WINDOWSSHLIBMANIFESTPREFIX", "WINDOWSSHLIBMANIFESTSUFFIX")) if 'PDB' in env and env['PDB']: pdb = env.arg2nodes('$PDB', target=target, source=source)[0] extratargets.append(pdb) target[0].attributes.pdb = pdb if version_num >= 11.0 and env.get('PCH', 0): # MSVC 11 and above need the PCH object file to be added to the link line, # otherwise you get link error LNK2011. pchobj = SCons.Util.splitext(str(env['PCH']))[0] + '.obj' # print "prog_emitter, version %s, appending pchobj %s"%(version_num, pchobj) if pchobj not in extrasources: extrasources.append(pchobj) if not no_import_lib and \ not env.FindIxes(target, "LIBPREFIX", "LIBSUFFIX"): # Append an import library to the list of targets. extratargets.append( env.ReplaceIxes(dll, '%sPREFIX' % paramtp, '%sSUFFIX' % paramtp, "LIBPREFIX", "LIBSUFFIX")) # and .exp file is created if there are exports from a DLL extratargets.append( env.ReplaceIxes(dll, '%sPREFIX' % paramtp, '%sSUFFIX' % paramtp, "WINDOWSEXPPREFIX", "WINDOWSEXPSUFFIX")) return (target+extratargets, source+extrasources) def windowsLibEmitter(target, source, env): return _dllEmitter(target, source, env, 'SHLIB') def ldmodEmitter(target, source, env): """Emitter for loadable modules. Loadable modules are identical to shared libraries on Windows, but building them is subject to different parameters (LDMODULE*). """ return _dllEmitter(target, source, env, 'LDMODULE') def prog_emitter(target, source, env): SCons.Tool.msvc.validate_vars(env) extratargets = [] extrasources = [] exe = env.FindIxes(target, "PROGPREFIX", "PROGSUFFIX") if not exe: raise SCons.Errors.UserError("An executable should have exactly one target with the suffix: %s" % env.subst("$PROGSUFFIX")) version_num, suite = SCons.Tool.msvs.msvs_parse_version(env.get('MSVS_VERSION', '6.0')) if version_num >= 8.0 and \ (env.get('WINDOWS_INSERT_MANIFEST', 0) or env.get('WINDOWS_EMBED_MANIFEST', 0)): # MSVC 8 and above automatically generate .manifest files that have to be installed extratargets.append( env.ReplaceIxes(exe, "PROGPREFIX", "PROGSUFFIX", "WINDOWSPROGMANIFESTPREFIX", "WINDOWSPROGMANIFESTSUFFIX")) if 'PDB' in env and env['PDB']: pdb = env.arg2nodes('$PDB', target=target, source=source)[0] extratargets.append(pdb) target[0].attributes.pdb = pdb if version_num >= 11.0 and env.get('PCH', 0): # MSVC 11 and above need the PCH object file to be added to the link line, # otherwise you get link error LNK2011. pchobj = SCons.Util.splitext(str(env['PCH']))[0] + '.obj' # print("prog_emitter, version %s, appending pchobj %s"%(version_num, pchobj)) if pchobj not in extrasources: extrasources.append(pchobj) return (target+extratargets,source+extrasources) def RegServerFunc(target, source, env): if 'register' in env and env['register']: ret = regServerAction([target[0]], [source[0]], env) if ret: raise SCons.Errors.UserError("Unable to register %s" % target[0]) else: print("Registered %s sucessfully" % target[0]) return ret return 0 # These are the actual actions run to embed the manifest. # They are only called from the Check versions below. embedManifestExeAction = SCons.Action.Action('$MTEXECOM') embedManifestDllAction = SCons.Action.Action('$MTSHLIBCOM') def embedManifestDllCheck(target, source, env): """Function run by embedManifestDllCheckAction to check for existence of manifest and other conditions, and embed the manifest by calling embedManifestDllAction if so.""" if env.get('WINDOWS_EMBED_MANIFEST', 0): manifestSrc = target[0].get_abspath() + '.manifest' if os.path.exists(manifestSrc): ret = (embedManifestDllAction) ([target[0]],None,env) if ret: raise SCons.Errors.UserError("Unable to embed manifest into %s" % (target[0])) return ret else: print('(embed: no %s.manifest found; not embedding.)'%str(target[0])) return 0 def embedManifestExeCheck(target, source, env): """Function run by embedManifestExeCheckAction to check for existence of manifest and other conditions, and embed the manifest by calling embedManifestExeAction if so.""" if env.get('WINDOWS_EMBED_MANIFEST', 0): manifestSrc = target[0].get_abspath() + '.manifest' if os.path.exists(manifestSrc): ret = (embedManifestExeAction) ([target[0]],None,env) if ret: raise SCons.Errors.UserError("Unable to embed manifest into %s" % (target[0])) return ret else: print('(embed: no %s.manifest found; not embedding.)'%str(target[0])) return 0 embedManifestDllCheckAction = SCons.Action.Action(embedManifestDllCheck, None) embedManifestExeCheckAction = SCons.Action.Action(embedManifestExeCheck, None) regServerAction = SCons.Action.Action("$REGSVRCOM", "$REGSVRCOMSTR") regServerCheck = SCons.Action.Action(RegServerFunc, None) shlibLinkAction = SCons.Action.Action('${TEMPFILE("$SHLINK $SHLINKFLAGS $_SHLINK_TARGETS $_LIBDIRFLAGS $_LIBFLAGS $_PDB $_SHLINK_SOURCES", "$SHLINKCOMSTR")}', '$SHLINKCOMSTR') compositeShLinkAction = shlibLinkAction + regServerCheck + embedManifestDllCheckAction ldmodLinkAction = SCons.Action.Action('${TEMPFILE("$LDMODULE $LDMODULEFLAGS $_LDMODULE_TARGETS $_LIBDIRFLAGS $_LIBFLAGS $_PDB $_LDMODULE_SOURCES", "$LDMODULECOMSTR")}', '$LDMODULECOMSTR') compositeLdmodAction = ldmodLinkAction + regServerCheck + embedManifestDllCheckAction exeLinkAction = SCons.Action.Action('${TEMPFILE("$LINK $LINKFLAGS /OUT:$TARGET.windows $_LIBDIRFLAGS $_LIBFLAGS $_PDB $SOURCES.windows", "$LINKCOMSTR")}', '$LINKCOMSTR') compositeLinkAction = exeLinkAction + embedManifestExeCheckAction def generate(env): """Add Builders and construction variables for ar to an Environment.""" SCons.Tool.createSharedLibBuilder(env) SCons.Tool.createProgBuilder(env) env['SHLINK'] = '$LINK' env['SHLINKFLAGS'] = SCons.Util.CLVar('$LINKFLAGS /dll') env['_SHLINK_TARGETS'] = windowsShlinkTargets env['_SHLINK_SOURCES'] = windowsShlinkSources env['SHLINKCOM'] = compositeShLinkAction env.Append(SHLIBEMITTER = [windowsLibEmitter]) env.Append(LDMODULEEMITTER = [windowsLibEmitter]) env['LINK'] = 'link' env['LINKFLAGS'] = SCons.Util.CLVar('/nologo') env['_PDB'] = pdbGenerator env['LINKCOM'] = compositeLinkAction env.Append(PROGEMITTER = [prog_emitter]) env['LIBDIRPREFIX']='/LIBPATH:' env['LIBDIRSUFFIX']='' env['LIBLINKPREFIX']='' env['LIBLINKSUFFIX']='$LIBSUFFIX' env['WIN32DEFPREFIX'] = '' env['WIN32DEFSUFFIX'] = '.def' env['WIN32_INSERT_DEF'] = 0 env['WINDOWSDEFPREFIX'] = '${WIN32DEFPREFIX}' env['WINDOWSDEFSUFFIX'] = '${WIN32DEFSUFFIX}' env['WINDOWS_INSERT_DEF'] = '${WIN32_INSERT_DEF}' env['WIN32EXPPREFIX'] = '' env['WIN32EXPSUFFIX'] = '.exp' env['WINDOWSEXPPREFIX'] = '${WIN32EXPPREFIX}' env['WINDOWSEXPSUFFIX'] = '${WIN32EXPSUFFIX}' env['WINDOWSSHLIBMANIFESTPREFIX'] = '' env['WINDOWSSHLIBMANIFESTSUFFIX'] = '${SHLIBSUFFIX}.manifest' env['WINDOWSPROGMANIFESTPREFIX'] = '' env['WINDOWSPROGMANIFESTSUFFIX'] = '${PROGSUFFIX}.manifest' env['REGSVRACTION'] = regServerCheck env['REGSVR'] = os.path.join(SCons.Platform.win32.get_system_root(),'System32','regsvr32') env['REGSVRFLAGS'] = '/s ' env['REGSVRCOM'] = '$REGSVR $REGSVRFLAGS ${TARGET.windows}' env['WINDOWS_EMBED_MANIFEST'] = 0 env['MT'] = 'mt' #env['MTFLAGS'] = ['-hashupdate'] env['MTFLAGS'] = SCons.Util.CLVar('/nologo') # Note: use - here to prevent build failure if no manifest produced. # This seems much simpler than a fancy system using a function action to see # if the manifest actually exists before trying to run mt with it. env['MTEXECOM'] = '-$MT $MTFLAGS -manifest ${TARGET}.manifest $_MANIFEST_SOURCES -outputresource:$TARGET;1' env['MTSHLIBCOM'] = '-$MT $MTFLAGS -manifest ${TARGET}.manifest $_MANIFEST_SOURCES -outputresource:$TARGET;2' # TODO Future work garyo 27-Feb-11 env['_MANIFEST_SOURCES'] = None # _windowsManifestSources # Set-up ms tools paths msvc_setup_env_once(env) # Loadable modules are on Windows the same as shared libraries, but they # are subject to different build parameters (LDMODULE* variables). # Therefore LDMODULE* variables correspond as much as possible to # SHLINK*/SHLIB* ones. SCons.Tool.createLoadableModuleBuilder(env) env['LDMODULE'] = '$SHLINK' env['LDMODULEPREFIX'] = '$SHLIBPREFIX' env['LDMODULESUFFIX'] = '$SHLIBSUFFIX' env['LDMODULEFLAGS'] = '$SHLINKFLAGS' env['_LDMODULE_TARGETS'] = _windowsLdmodTargets env['_LDMODULE_SOURCES'] = _windowsLdmodSources env['LDMODULEEMITTER'] = [ldmodEmitter] env['LDMODULECOM'] = compositeLdmodAction def exists(env): return msvc_exists() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/g++.py0000664000175000017500000000313713202656511020302 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.g++ Tool-specific initialization for g++. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/g++.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" #forward proxy to the preffered cxx version from SCons.Tool.gxx import * # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/lex.py0000664000175000017500000000645313202656511020522 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.lex Tool-specific initialization for lex. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/lex.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import SCons.Action import SCons.Tool import SCons.Util LexAction = SCons.Action.Action("$LEXCOM", "$LEXCOMSTR") def lexEmitter(target, source, env): sourceBase, sourceExt = os.path.splitext(SCons.Util.to_String(source[0])) if sourceExt == ".lm": # If using Objective-C target = [sourceBase + ".m"] # the extension is ".m". # This emitter essentially tries to add to the target all extra # files generated by flex. # Different options that are used to trigger the creation of extra files. fileGenOptions = ["--header-file=", "--tables-file="] lexflags = env.subst("$LEXFLAGS", target=target, source=source) for option in SCons.Util.CLVar(lexflags): for fileGenOption in fileGenOptions: l = len(fileGenOption) if option[:l] == fileGenOption: # A file generating option is present, so add the # file name to the target list. fileName = option[l:].strip() target.append(fileName) return (target, source) def generate(env): """Add Builders and construction variables for lex to an Environment.""" c_file, cxx_file = SCons.Tool.createCFileBuilders(env) # C c_file.add_action(".l", LexAction) c_file.add_emitter(".l", lexEmitter) c_file.add_action(".lex", LexAction) c_file.add_emitter(".lex", lexEmitter) # Objective-C cxx_file.add_action(".lm", LexAction) cxx_file.add_emitter(".lm", lexEmitter) # C++ cxx_file.add_action(".ll", LexAction) cxx_file.add_emitter(".ll", lexEmitter) env["LEX"] = env.Detect("flex") or "lex" env["LEXFLAGS"] = SCons.Util.CLVar("") env["LEXCOM"] = "$LEX $LEXFLAGS -t $SOURCES > $TARGET" def exists(env): return env.Detect(["flex", "lex"]) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/sgicxx.py0000664000175000017500000000405113202656512021230 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.sgic++ Tool-specific initialization for MIPSpro C++ on SGI. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/sgicxx.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Util import SCons.Tool.cxx cplusplus = SCons.Tool.cxx #cplusplus = __import__('cxx', globals(), locals(), []) def generate(env): """Add Builders and construction variables for SGI MIPS C++ to an Environment.""" cplusplus.generate(env) env['CXX'] = 'CC' env['CXXFLAGS'] = SCons.Util.CLVar('-LANG:std') env['SHCXX'] = '$CXX' env['SHOBJSUFFIX'] = '.o' env['STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME'] = 1 def exists(env): return env.Detect('CC') # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Tool/mwld.py0000664000175000017500000000712013202656512020666 0ustar bdbaddogbdbaddog00000000000000"""SCons.Tool.mwld Tool-specific initialization for the Metrowerks CodeWarrior linker. There normally shouldn't be any need to import this module directly. It will usually be imported through the generic SCons.Tool.Tool() selection method. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Tool/mwld.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Tool def generate(env): """Add Builders and construction variables for lib to an Environment.""" SCons.Tool.createStaticLibBuilder(env) SCons.Tool.createSharedLibBuilder(env) SCons.Tool.createProgBuilder(env) env['AR'] = 'mwld' env['ARCOM'] = '$AR $ARFLAGS -library -o $TARGET $SOURCES' env['LIBDIRPREFIX'] = '-L' env['LIBDIRSUFFIX'] = '' env['LIBLINKPREFIX'] = '-l' env['LIBLINKSUFFIX'] = '.lib' env['LINK'] = 'mwld' env['LINKCOM'] = '$LINK $LINKFLAGS -o $TARGET $SOURCES $_LIBDIRFLAGS $_LIBFLAGS' env['SHLINK'] = '$LINK' env['SHLINKFLAGS'] = '$LINKFLAGS' env['SHLINKCOM'] = shlib_action env['SHLIBEMITTER']= shlib_emitter env['LDMODULEEMITTER']= shlib_emitter def exists(env): import SCons.Tool.mwcc return SCons.Tool.mwcc.set_vars(env) def shlib_generator(target, source, env, for_signature): cmd = ['$SHLINK', '$SHLINKFLAGS', '-shared'] no_import_lib = env.get('no_import_lib', 0) if no_import_lib: cmd.extend('-noimplib') dll = env.FindIxes(target, 'SHLIBPREFIX', 'SHLIBSUFFIX') if dll: cmd.extend(['-o', dll]) implib = env.FindIxes(target, 'LIBPREFIX', 'LIBSUFFIX') if implib: cmd.extend(['-implib', implib.get_string(for_signature)]) cmd.extend(['$SOURCES', '$_LIBDIRFLAGS', '$_LIBFLAGS']) return [cmd] def shlib_emitter(target, source, env): dll = env.FindIxes(target, 'SHLIBPREFIX', 'SHLIBSUFFIX') no_import_lib = env.get('no_import_lib', 0) if not dll: raise SCons.Errors.UserError("A shared library should have exactly one target with the suffix: %s" % env.subst("$SHLIBSUFFIX")) if not no_import_lib and \ not env.FindIxes(target, 'LIBPREFIX', 'LIBSUFFIX'): # Append an import library to the list of targets. target.append(env.ReplaceIxes(dll, 'SHLIBPREFIX', 'SHLIBSUFFIX', 'LIBPREFIX', 'LIBSUFFIX')) return target, source shlib_action = SCons.Action.Action(shlib_generator, generator=1) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/CacheDir.py0000664000175000017500000002565413202656511020463 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/CacheDir.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __doc__ = """ CacheDir support """ import json import os import stat import sys import SCons.Action import SCons.Warnings cache_enabled = True cache_debug = False cache_force = False cache_show = False cache_readonly = False def CacheRetrieveFunc(target, source, env): t = target[0] fs = t.fs cd = env.get_CacheDir() cachedir, cachefile = cd.cachepath(t) if not fs.exists(cachefile): cd.CacheDebug('CacheRetrieve(%s): %s not in cache\n', t, cachefile) return 1 cd.CacheDebug('CacheRetrieve(%s): retrieving from %s\n', t, cachefile) if SCons.Action.execute_actions: if fs.islink(cachefile): fs.symlink(fs.readlink(cachefile), t.get_internal_path()) else: env.copy_from_cache(cachefile, t.get_internal_path()) st = fs.stat(cachefile) fs.chmod(t.get_internal_path(), stat.S_IMODE(st[stat.ST_MODE]) | stat.S_IWRITE) return 0 def CacheRetrieveString(target, source, env): t = target[0] fs = t.fs cd = env.get_CacheDir() cachedir, cachefile = cd.cachepath(t) if t.fs.exists(cachefile): return "Retrieved `%s' from cache" % t.get_internal_path() return None CacheRetrieve = SCons.Action.Action(CacheRetrieveFunc, CacheRetrieveString) CacheRetrieveSilent = SCons.Action.Action(CacheRetrieveFunc, None) def CachePushFunc(target, source, env): if cache_readonly: return t = target[0] if t.nocache: return fs = t.fs cd = env.get_CacheDir() cachedir, cachefile = cd.cachepath(t) if fs.exists(cachefile): # Don't bother copying it if it's already there. Note that # usually this "shouldn't happen" because if the file already # existed in cache, we'd have retrieved the file from there, # not built it. This can happen, though, in a race, if some # other person running the same build pushes their copy to # the cache after we decide we need to build it but before our # build completes. cd.CacheDebug('CachePush(%s): %s already exists in cache\n', t, cachefile) return cd.CacheDebug('CachePush(%s): pushing to %s\n', t, cachefile) tempfile = cachefile+'.tmp'+str(os.getpid()) errfmt = "Unable to copy %s to cache. Cache file is %s" if not fs.isdir(cachedir): try: fs.makedirs(cachedir) except EnvironmentError: # We may have received an exception because another process # has beaten us creating the directory. if not fs.isdir(cachedir): msg = errfmt % (str(target), cachefile) raise SCons.Errors.EnvironmentError(msg) try: if fs.islink(t.get_internal_path()): fs.symlink(fs.readlink(t.get_internal_path()), tempfile) else: fs.copy2(t.get_internal_path(), tempfile) fs.rename(tempfile, cachefile) st = fs.stat(t.get_internal_path()) fs.chmod(cachefile, stat.S_IMODE(st[stat.ST_MODE]) | stat.S_IWRITE) except EnvironmentError: # It's possible someone else tried writing the file at the # same time we did, or else that there was some problem like # the CacheDir being on a separate file system that's full. # In any case, inability to push a file to cache doesn't affect # the correctness of the build, so just print a warning. msg = errfmt % (str(target), cachefile) SCons.Warnings.warn(SCons.Warnings.CacheWriteErrorWarning, msg) CachePush = SCons.Action.Action(CachePushFunc, None) # Nasty hack to cut down to one warning for each cachedir path that needs # upgrading. warned = dict() class CacheDir(object): def __init__(self, path): try: import hashlib except ImportError: msg = "No hashlib or MD5 module available, CacheDir() not supported" SCons.Warnings.warn(SCons.Warnings.NoMD5ModuleWarning, msg) path = None self.path = path self.current_cache_debug = None self.debugFP = None self.config = dict() if path is None: return # See if there's a config file in the cache directory. If there is, # use it. If there isn't, and the directory exists and isn't empty, # produce a warning. If the directory doesn't exist or is empty, # write a config file. config_file = os.path.join(path, 'config') if not os.path.exists(config_file): # A note: There is a race hazard here, if two processes start and # attempt to create the cache directory at the same time. However, # python doesn't really give you the option to do exclusive file # creation (it doesn't even give you the option to error on opening # an existing file for writing...). The ordering of events here # as an attempt to alleviate this, on the basis that it's a pretty # unlikely occurence (it'd require two builds with a brand new cache # directory) if os.path.isdir(path) and len(os.listdir(path)) != 0: self.config['prefix_len'] = 1 # When building the project I was testing this on, the warning # was output over 20 times. That seems excessive global warned if self.path not in warned: msg = "Please upgrade your cache by running " +\ " scons-configure-cache.py " + self.path SCons.Warnings.warn(SCons.Warnings.CacheVersionWarning, msg) warned[self.path] = True else: if not os.path.isdir(path): try: os.makedirs(path) except OSError: # If someone else is trying to create the directory at # the same time as me, bad things will happen msg = "Failed to create cache directory " + path raise SCons.Errors.EnvironmentError(msg) self.config['prefix_len'] = 2 if not os.path.exists(config_file): try: with open(config_file, 'w') as config: json.dump(self.config, config) except: msg = "Failed to write cache configuration for " + path raise SCons.Errors.EnvironmentError(msg) else: try: with open(config_file) as config: self.config = json.load(config) except ValueError: msg = "Failed to read cache configuration for " + path raise SCons.Errors.EnvironmentError(msg) def CacheDebug(self, fmt, target, cachefile): if cache_debug != self.current_cache_debug: if cache_debug == '-': self.debugFP = sys.stdout elif cache_debug: self.debugFP = open(cache_debug, 'w') else: self.debugFP = None self.current_cache_debug = cache_debug if self.debugFP: self.debugFP.write(fmt % (target, os.path.split(cachefile)[1])) def is_enabled(self): return cache_enabled and not self.path is None def is_readonly(self): return cache_readonly def cachepath(self, node): """ """ if not self.is_enabled(): return None, None sig = node.get_cachedir_bsig() subdir = sig[:self.config['prefix_len']].upper() dir = os.path.join(self.path, subdir) return dir, os.path.join(dir, sig) def retrieve(self, node): """ This method is called from multiple threads in a parallel build, so only do thread safe stuff here. Do thread unsafe stuff in built(). Note that there's a special trick here with the execute flag (one that's not normally done for other actions). Basically if the user requested a no_exec (-n) build, then SCons.Action.execute_actions is set to 0 and when any action is called, it does its showing but then just returns zero instead of actually calling the action execution operation. The problem for caching is that if the file does NOT exist in cache then the CacheRetrieveString won't return anything to show for the task, but the Action.__call__ won't call CacheRetrieveFunc; instead it just returns zero, which makes the code below think that the file *was* successfully retrieved from the cache, therefore it doesn't do any subsequent building. However, the CacheRetrieveString didn't print anything because it didn't actually exist in the cache, and no more build actions will be performed, so the user just sees nothing. The fix is to tell Action.__call__ to always execute the CacheRetrieveFunc and then have the latter explicitly check SCons.Action.execute_actions itself. """ if not self.is_enabled(): return False env = node.get_build_env() if cache_show: if CacheRetrieveSilent(node, [], env, execute=1) == 0: node.build(presub=0, execute=0) return True else: if CacheRetrieve(node, [], env, execute=1) == 0: return True return False def push(self, node): if self.is_readonly() or not self.is_enabled(): return return CachePush(node, [], node.get_build_env()) def push_if_forced(self, node): if cache_force: return self.push(node) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Conftest.py0000664000175000017500000006723413202656511020606 0ustar bdbaddogbdbaddog00000000000000"""SCons.Conftest Autoconf-like configuration support; low level implementation of tests. """ # # Copyright (c) 2003 Stichting NLnet Labs # Copyright (c) 2001, 2002, 2003 Steven Knight # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # # # The purpose of this module is to define how a check is to be performed. # Use one of the Check...() functions below. # # # A context class is used that defines functions for carrying out the tests, # logging and messages. The following methods and members must be present: # # context.Display(msg) Function called to print messages that are normally # displayed for the user. Newlines are explicitly used. # The text should also be written to the logfile! # # context.Log(msg) Function called to write to a log file. # # context.BuildProg(text, ext) # Function called to build a program, using "ext" for the # file extention. Must return an empty string for # success, an error message for failure. # For reliable test results building should be done just # like an actual program would be build, using the same # command and arguments (including configure results so # far). # # context.CompileProg(text, ext) # Function called to compile a program, using "ext" for # the file extention. Must return an empty string for # success, an error message for failure. # For reliable test results compiling should be done just # like an actual source file would be compiled, using the # same command and arguments (including configure results # so far). # # context.AppendLIBS(lib_name_list) # Append "lib_name_list" to the value of LIBS. # "lib_namelist" is a list of strings. # Return the value of LIBS before changing it (any type # can be used, it is passed to SetLIBS() later.) # # context.PrependLIBS(lib_name_list) # Prepend "lib_name_list" to the value of LIBS. # "lib_namelist" is a list of strings. # Return the value of LIBS before changing it (any type # can be used, it is passed to SetLIBS() later.) # # context.SetLIBS(value) # Set LIBS to "value". The type of "value" is what # AppendLIBS() returned. # Return the value of LIBS before changing it (any type # can be used, it is passed to SetLIBS() later.) # # context.headerfilename # Name of file to append configure results to, usually # "confdefs.h". # The file must not exist or be empty when starting. # Empty or None to skip this (some tests will not work!). # # context.config_h (may be missing). If present, must be a string, which # will be filled with the contents of a config_h file. # # context.vardict Dictionary holding variables used for the tests and # stores results from the tests, used for the build # commands. # Normally contains "CC", "LIBS", "CPPFLAGS", etc. # # context.havedict Dictionary holding results from the tests that are to # be used inside a program. # Names often start with "HAVE_". These are zero # (feature not present) or one (feature present). Other # variables may have any value, e.g., "PERLVERSION" can # be a number and "SYSTEMNAME" a string. # import re # # PUBLIC VARIABLES # LogInputFiles = 1 # Set that to log the input files in case of a failed test LogErrorMessages = 1 # Set that to log Conftest-generated error messages # # PUBLIC FUNCTIONS # # Generic remarks: # - When a language is specified which is not supported the test fails. The # message is a bit different, because not all the arguments for the normal # message are available yet (chicken-egg problem). def CheckBuilder(context, text = None, language = None): """ Configure check to see if the compiler works. Note that this uses the current value of compiler and linker flags, make sure $CFLAGS, $CPPFLAGS and $LIBS are set correctly. "language" should be "C" or "C++" and is used to select the compiler. Default is "C". "text" may be used to specify the code to be build. Returns an empty string for success, an error message for failure. """ lang, suffix, msg = _lang2suffix(language) if msg: context.Display("%s\n" % msg) return msg if not text: text = """ int main() { return 0; } """ context.Display("Checking if building a %s file works... " % lang) ret = context.BuildProg(text, suffix) _YesNoResult(context, ret, None, text) return ret def CheckCC(context): """ Configure check for a working C compiler. This checks whether the C compiler, as defined in the $CC construction variable, can compile a C source file. It uses the current $CCCOM value too, so that it can test against non working flags. """ context.Display("Checking whether the C compiler works... ") text = """ int main() { return 0; } """ ret = _check_empty_program(context, 'CC', text, 'C') _YesNoResult(context, ret, None, text) return ret def CheckSHCC(context): """ Configure check for a working shared C compiler. This checks whether the C compiler, as defined in the $SHCC construction variable, can compile a C source file. It uses the current $SHCCCOM value too, so that it can test against non working flags. """ context.Display("Checking whether the (shared) C compiler works... ") text = """ int foo() { return 0; } """ ret = _check_empty_program(context, 'SHCC', text, 'C', use_shared = True) _YesNoResult(context, ret, None, text) return ret def CheckCXX(context): """ Configure check for a working CXX compiler. This checks whether the CXX compiler, as defined in the $CXX construction variable, can compile a CXX source file. It uses the current $CXXCOM value too, so that it can test against non working flags. """ context.Display("Checking whether the C++ compiler works... ") text = """ int main() { return 0; } """ ret = _check_empty_program(context, 'CXX', text, 'C++') _YesNoResult(context, ret, None, text) return ret def CheckSHCXX(context): """ Configure check for a working shared CXX compiler. This checks whether the CXX compiler, as defined in the $SHCXX construction variable, can compile a CXX source file. It uses the current $SHCXXCOM value too, so that it can test against non working flags. """ context.Display("Checking whether the (shared) C++ compiler works... ") text = """ int main() { return 0; } """ ret = _check_empty_program(context, 'SHCXX', text, 'C++', use_shared = True) _YesNoResult(context, ret, None, text) return ret def _check_empty_program(context, comp, text, language, use_shared = False): """Return 0 on success, 1 otherwise.""" if comp not in context.env or not context.env[comp]: # The compiler construction variable is not set or empty return 1 lang, suffix, msg = _lang2suffix(language) if msg: return 1 if use_shared: return context.CompileSharedObject(text, suffix) else: return context.CompileProg(text, suffix) def CheckFunc(context, function_name, header = None, language = None): """ Configure check for a function "function_name". "language" should be "C" or "C++" and is used to select the compiler. Default is "C". Optional "header" can be defined to define a function prototype, include a header file or anything else that comes before main(). Sets HAVE_function_name in context.havedict according to the result. Note that this uses the current value of compiler and linker flags, make sure $CFLAGS, $CPPFLAGS and $LIBS are set correctly. Returns an empty string for success, an error message for failure. """ # Remarks from autoconf: # - Don't include because on OSF/1 3.0 it includes # which includes which contains a prototype for select. # Similarly for bzero. # - assert.h is included to define __stub macros and hopefully few # prototypes, which can conflict with char $1(); below. # - Override any gcc2 internal prototype to avoid an error. # - We use char for the function declaration because int might match the # return type of a gcc2 builtin and then its argument prototype would # still apply. # - The GNU C library defines this for functions which it implements to # always fail with ENOSYS. Some functions are actually named something # starting with __ and the normal name is an alias. if context.headerfilename: includetext = '#include "%s"' % context.headerfilename else: includetext = '' if not header: header = """ #ifdef __cplusplus extern "C" #endif char %s();""" % function_name lang, suffix, msg = _lang2suffix(language) if msg: context.Display("Cannot check for %s(): %s\n" % (function_name, msg)) return msg text = """ %(include)s #include %(hdr)s int main() { #if defined (__stub_%(name)s) || defined (__stub___%(name)s) fail fail fail #else %(name)s(); #endif return 0; } """ % { 'name': function_name, 'include': includetext, 'hdr': header } context.Display("Checking for %s function %s()... " % (lang, function_name)) ret = context.BuildProg(text, suffix) _YesNoResult(context, ret, "HAVE_" + function_name, text, "Define to 1 if the system has the function `%s'." %\ function_name) return ret def CheckHeader(context, header_name, header = None, language = None, include_quotes = None): """ Configure check for a C or C++ header file "header_name". Optional "header" can be defined to do something before including the header file (unusual, supported for consistency). "language" should be "C" or "C++" and is used to select the compiler. Default is "C". Sets HAVE_header_name in context.havedict according to the result. Note that this uses the current value of compiler and linker flags, make sure $CFLAGS and $CPPFLAGS are set correctly. Returns an empty string for success, an error message for failure. """ # Why compile the program instead of just running the preprocessor? # It is possible that the header file exists, but actually using it may # fail (e.g., because it depends on other header files). Thus this test is # more strict. It may require using the "header" argument. # # Use <> by default, because the check is normally used for system header # files. SCons passes '""' to overrule this. # Include "confdefs.h" first, so that the header can use HAVE_HEADER_H. if context.headerfilename: includetext = '#include "%s"\n' % context.headerfilename else: includetext = '' if not header: header = "" lang, suffix, msg = _lang2suffix(language) if msg: context.Display("Cannot check for header file %s: %s\n" % (header_name, msg)) return msg if not include_quotes: include_quotes = "<>" text = "%s%s\n#include %s%s%s\n\n" % (includetext, header, include_quotes[0], header_name, include_quotes[1]) context.Display("Checking for %s header file %s... " % (lang, header_name)) ret = context.CompileProg(text, suffix) _YesNoResult(context, ret, "HAVE_" + header_name, text, "Define to 1 if you have the <%s> header file." % header_name) return ret def CheckType(context, type_name, fallback = None, header = None, language = None): """ Configure check for a C or C++ type "type_name". Optional "header" can be defined to include a header file. "language" should be "C" or "C++" and is used to select the compiler. Default is "C". Sets HAVE_type_name in context.havedict according to the result. Note that this uses the current value of compiler and linker flags, make sure $CFLAGS, $CPPFLAGS and $LIBS are set correctly. Returns an empty string for success, an error message for failure. """ # Include "confdefs.h" first, so that the header can use HAVE_HEADER_H. if context.headerfilename: includetext = '#include "%s"' % context.headerfilename else: includetext = '' if not header: header = "" lang, suffix, msg = _lang2suffix(language) if msg: context.Display("Cannot check for %s type: %s\n" % (type_name, msg)) return msg # Remarks from autoconf about this test: # - Grepping for the type in include files is not reliable (grep isn't # portable anyway). # - Using "TYPE my_var;" doesn't work for const qualified types in C++. # Adding an initializer is not valid for some C++ classes. # - Using the type as parameter to a function either fails for K&$ C or for # C++. # - Using "TYPE *my_var;" is valid in C for some types that are not # declared (struct something). # - Using "sizeof(TYPE)" is valid when TYPE is actually a variable. # - Using the previous two together works reliably. text = """ %(include)s %(header)s int main() { if ((%(name)s *) 0) return 0; if (sizeof (%(name)s)) return 0; } """ % { 'include': includetext, 'header': header, 'name': type_name } context.Display("Checking for %s type %s... " % (lang, type_name)) ret = context.BuildProg(text, suffix) _YesNoResult(context, ret, "HAVE_" + type_name, text, "Define to 1 if the system has the type `%s'." % type_name) if ret and fallback and context.headerfilename: f = open(context.headerfilename, "a") f.write("typedef %s %s;\n" % (fallback, type_name)) f.close() return ret def CheckTypeSize(context, type_name, header = None, language = None, expect = None): """This check can be used to get the size of a given type, or to check whether the type is of expected size. Arguments: - type : str the type to check - includes : sequence list of headers to include in the test code before testing the type - language : str 'C' or 'C++' - expect : int if given, will test wether the type has the given number of bytes. If not given, will automatically find the size. Returns: status : int 0 if the check failed, or the found size of the type if the check succeeded.""" # Include "confdefs.h" first, so that the header can use HAVE_HEADER_H. if context.headerfilename: includetext = '#include "%s"' % context.headerfilename else: includetext = '' if not header: header = "" lang, suffix, msg = _lang2suffix(language) if msg: context.Display("Cannot check for %s type: %s\n" % (type_name, msg)) return msg src = includetext + header if not expect is None: # Only check if the given size is the right one context.Display('Checking %s is %d bytes... ' % (type_name, expect)) # test code taken from autoconf: this is a pretty clever hack to find that # a type is of a given size using only compilation. This speeds things up # quite a bit compared to straightforward code using TryRun src = src + r""" typedef %s scons_check_type; int main() { static int test_array[1 - 2 * !(((long int) (sizeof(scons_check_type))) == %d)]; test_array[0] = 0; return 0; } """ st = context.CompileProg(src % (type_name, expect), suffix) if not st: context.Display("yes\n") _Have(context, "SIZEOF_%s" % type_name, expect, "The size of `%s', as computed by sizeof." % type_name) return expect else: context.Display("no\n") _LogFailed(context, src, st) return 0 else: # Only check if the given size is the right one context.Message('Checking size of %s ... ' % type_name) # We have to be careful with the program we wish to test here since # compilation will be attempted using the current environment's flags. # So make sure that the program will compile without any warning. For # example using: 'int main(int argc, char** argv)' will fail with the # '-Wall -Werror' flags since the variables argc and argv would not be # used in the program... # src = src + """ #include #include int main() { printf("%d", (int)sizeof(""" + type_name + """)); return 0; } """ st, out = context.RunProg(src, suffix) try: size = int(out) except ValueError: # If cannot convert output of test prog to an integer (the size), # something went wront, so just fail st = 1 size = 0 if not st: context.Display("yes\n") _Have(context, "SIZEOF_%s" % type_name, size, "The size of `%s', as computed by sizeof." % type_name) return size else: context.Display("no\n") _LogFailed(context, src, st) return 0 return 0 def CheckDeclaration(context, symbol, includes = None, language = None): """Checks whether symbol is declared. Use the same test as autoconf, that is test whether the symbol is defined as a macro or can be used as an r-value. Arguments: symbol : str the symbol to check includes : str Optional "header" can be defined to include a header file. language : str only C and C++ supported. Returns: status : bool True if the check failed, False if succeeded.""" # Include "confdefs.h" first, so that the header can use HAVE_HEADER_H. if context.headerfilename: includetext = '#include "%s"' % context.headerfilename else: includetext = '' if not includes: includes = "" lang, suffix, msg = _lang2suffix(language) if msg: context.Display("Cannot check for declaration %s: %s\n" % (symbol, msg)) return msg src = includetext + includes context.Display('Checking whether %s is declared... ' % symbol) src = src + r""" int main() { #ifndef %s (void) %s; #endif ; return 0; } """ % (symbol, symbol) st = context.CompileProg(src, suffix) _YesNoResult(context, st, "HAVE_DECL_" + symbol, src, "Set to 1 if %s is defined." % symbol) return st def CheckLib(context, libs, func_name = None, header = None, extra_libs = None, call = None, language = None, autoadd = 1, append = True): """ Configure check for a C or C++ libraries "libs". Searches through the list of libraries, until one is found where the test succeeds. Tests if "func_name" or "call" exists in the library. Note: if it exists in another library the test succeeds anyway! Optional "header" can be defined to include a header file. If not given a default prototype for "func_name" is added. Optional "extra_libs" is a list of library names to be added after "lib_name" in the build command. To be used for libraries that "lib_name" depends on. Optional "call" replaces the call to "func_name" in the test code. It must consist of complete C statements, including a trailing ";". Both "func_name" and "call" arguments are optional, and in that case, just linking against the libs is tested. "language" should be "C" or "C++" and is used to select the compiler. Default is "C". Note that this uses the current value of compiler and linker flags, make sure $CFLAGS, $CPPFLAGS and $LIBS are set correctly. Returns an empty string for success, an error message for failure. """ # Include "confdefs.h" first, so that the header can use HAVE_HEADER_H. if context.headerfilename: includetext = '#include "%s"' % context.headerfilename else: includetext = '' if not header: header = "" text = """ %s %s""" % (includetext, header) # Add a function declaration if needed. if func_name and func_name != "main": if not header: text = text + """ #ifdef __cplusplus extern "C" #endif char %s(); """ % func_name # The actual test code. if not call: call = "%s();" % func_name # if no function to test, leave main() blank text = text + """ int main() { %s return 0; } """ % (call or "") if call: i = call.find("\n") if i > 0: calltext = call[:i] + ".." elif call[-1] == ';': calltext = call[:-1] else: calltext = call for lib_name in libs: lang, suffix, msg = _lang2suffix(language) if msg: context.Display("Cannot check for library %s: %s\n" % (lib_name, msg)) return msg # if a function was specified to run in main(), say it if call: context.Display("Checking for %s in %s library %s... " % (calltext, lang, lib_name)) # otherwise, just say the name of library and language else: context.Display("Checking for %s library %s... " % (lang, lib_name)) if lib_name: l = [ lib_name ] if extra_libs: l.extend(extra_libs) if append: oldLIBS = context.AppendLIBS(l) else: oldLIBS = context.PrependLIBS(l) sym = "HAVE_LIB" + lib_name else: oldLIBS = -1 sym = None ret = context.BuildProg(text, suffix) _YesNoResult(context, ret, sym, text, "Define to 1 if you have the `%s' library." % lib_name) if oldLIBS != -1 and (ret or not autoadd): context.SetLIBS(oldLIBS) if not ret: return ret return ret def CheckProg(context, prog_name): """ Configure check for a specific program. Check whether program prog_name exists in path. If it is found, returns the path for it, otherwise returns None. """ context.Display("Checking whether %s program exists..." % prog_name) path = context.env.WhereIs(prog_name) if path: context.Display(path + "\n") else: context.Display("no\n") return path # # END OF PUBLIC FUNCTIONS # def _YesNoResult(context, ret, key, text, comment = None): """ Handle the result of a test with a "yes" or "no" result. :Parameters: - `ret` is the return value: empty if OK, error message when not. - `key` is the name of the symbol to be defined (HAVE_foo). - `text` is the source code of the program used for testing. - `comment` is the C comment to add above the line defining the symbol (the comment is automatically put inside a /\* \*/). If None, no comment is added. """ if key: _Have(context, key, not ret, comment) if ret: context.Display("no\n") _LogFailed(context, text, ret) else: context.Display("yes\n") def _Have(context, key, have, comment = None): """ Store result of a test in context.havedict and context.headerfilename. :Parameters: - `key` - is a "HAVE_abc" name. It is turned into all CAPITALS and non-alphanumerics are replaced by an underscore. - `have` - value as it should appear in the header file, include quotes when desired and escape special characters! - `comment` is the C comment to add above the line defining the symbol (the comment is automatically put inside a /\* \*/). If None, no comment is added. The value of "have" can be: - 1 - Feature is defined, add "#define key". - 0 - Feature is not defined, add "/\* #undef key \*/". Adding "undef" is what autoconf does. Not useful for the compiler, but it shows that the test was done. - number - Feature is defined to this number "#define key have". Doesn't work for 0 or 1, use a string then. - string - Feature is defined to this string "#define key have". """ key_up = key.upper() key_up = re.sub('[^A-Z0-9_]', '_', key_up) context.havedict[key_up] = have if have == 1: line = "#define %s 1\n" % key_up elif have == 0: line = "/* #undef %s */\n" % key_up elif isinstance(have, int): line = "#define %s %d\n" % (key_up, have) else: line = "#define %s %s\n" % (key_up, str(have)) if comment is not None: lines = "\n/* %s */\n" % comment + line else: lines = "\n" + line if context.headerfilename: f = open(context.headerfilename, "a") f.write(lines) f.close() elif hasattr(context,'config_h'): context.config_h = context.config_h + lines def _LogFailed(context, text, msg): """ Write to the log about a failed program. Add line numbers, so that error messages can be understood. """ if LogInputFiles: context.Log("Failed program was:\n") lines = text.split('\n') if len(lines) and lines[-1] == '': lines = lines[:-1] # remove trailing empty line n = 1 for line in lines: context.Log("%d: %s\n" % (n, line)) n = n + 1 if LogErrorMessages: context.Log("Error message: %s\n" % msg) def _lang2suffix(lang): """ Convert a language name to a suffix. When "lang" is empty or None C is assumed. Returns a tuple (lang, suffix, None) when it works. For an unrecognized language returns (None, None, msg). Where: - lang = the unified language name - suffix = the suffix, including the leading dot - msg = an error message """ if not lang or lang in ["C", "c"]: return ("C", ".c", None) if lang in ["c++", "C++", "cpp", "CXX", "cxx"]: return ("C++", ".cpp", None) return None, None, "Unsupported language: %s" % lang # vim: set sw=4 et sts=4 tw=79 fo+=l: # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Executor.py0000664000175000017500000005343313202656511020613 0ustar bdbaddogbdbaddog00000000000000"""SCons.Executor A module for executing actions with specific lists of target and source Nodes. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import print_function __revision__ = "src/engine/SCons/Executor.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import collections import SCons.Debug from SCons.Debug import logInstanceCreation import SCons.Errors import SCons.Memoize from SCons.compat import with_metaclass, NoSlotsPyPy class Batch(object): """Remembers exact association between targets and sources of executor.""" __slots__ = ('targets', 'sources') def __init__(self, targets=[], sources=[]): self.targets = targets self.sources = sources class TSList(collections.UserList): """A class that implements $TARGETS or $SOURCES expansions by wrapping an executor Method. This class is used in the Executor.lvars() to delay creation of NodeList objects until they're needed. Note that we subclass collections.UserList purely so that the is_Sequence() function will identify an object of this class as a list during variable expansion. We're not really using any collections.UserList methods in practice. """ def __init__(self, func): self.func = func def __getattr__(self, attr): nl = self.func() return getattr(nl, attr) def __getitem__(self, i): nl = self.func() return nl[i] def __getslice__(self, i, j): nl = self.func() i = max(i, 0); j = max(j, 0) return nl[i:j] def __str__(self): nl = self.func() return str(nl) def __repr__(self): nl = self.func() return repr(nl) class TSObject(object): """A class that implements $TARGET or $SOURCE expansions by wrapping an Executor method. """ def __init__(self, func): self.func = func def __getattr__(self, attr): n = self.func() return getattr(n, attr) def __str__(self): n = self.func() if n: return str(n) return '' def __repr__(self): n = self.func() if n: return repr(n) return '' def rfile(node): """ A function to return the results of a Node's rfile() method, if it exists, and the Node itself otherwise (if it's a Value Node, e.g.). """ try: rfile = node.rfile except AttributeError: return node else: return rfile() def execute_nothing(obj, target, kw): return 0 def execute_action_list(obj, target, kw): """Actually execute the action list.""" env = obj.get_build_env() kw = obj.get_kw(kw) status = 0 for act in obj.get_action_list(): args = ([], [], env) status = act(*args, **kw) if isinstance(status, SCons.Errors.BuildError): status.executor = obj raise status elif status: msg = "Error %s" % status raise SCons.Errors.BuildError( errstr=msg, node=obj.batches[0].targets, executor=obj, action=act) return status _do_execute_map = {0 : execute_nothing, 1 : execute_action_list} def execute_actions_str(obj): env = obj.get_build_env() return "\n".join([action.genstring(obj.get_all_targets(), obj.get_all_sources(), env) for action in obj.get_action_list()]) def execute_null_str(obj): return '' _execute_str_map = {0 : execute_null_str, 1 : execute_actions_str} class Executor(object, with_metaclass(NoSlotsPyPy)): """A class for controlling instances of executing an action. This largely exists to hold a single association of an action, environment, list of environment override dictionaries, targets and sources for later processing as needed. """ __slots__ = ('pre_actions', 'post_actions', 'env', 'overridelist', 'batches', 'builder_kw', '_memo', 'lvars', '_changed_sources_list', '_changed_targets_list', '_unchanged_sources_list', '_unchanged_targets_list', 'action_list', '_do_execute', '_execute_str') def __init__(self, action, env=None, overridelist=[{}], targets=[], sources=[], builder_kw={}): if SCons.Debug.track_instances: logInstanceCreation(self, 'Executor.Executor') self.set_action_list(action) self.pre_actions = [] self.post_actions = [] self.env = env self.overridelist = overridelist if targets or sources: self.batches = [Batch(targets[:], sources[:])] else: self.batches = [] self.builder_kw = builder_kw self._do_execute = 1 self._execute_str = 1 self._memo = {} def get_lvars(self): try: return self.lvars except AttributeError: self.lvars = { 'CHANGED_SOURCES' : TSList(self._get_changed_sources), 'CHANGED_TARGETS' : TSList(self._get_changed_targets), 'SOURCE' : TSObject(self._get_source), 'SOURCES' : TSList(self._get_sources), 'TARGET' : TSObject(self._get_target), 'TARGETS' : TSList(self._get_targets), 'UNCHANGED_SOURCES' : TSList(self._get_unchanged_sources), 'UNCHANGED_TARGETS' : TSList(self._get_unchanged_targets), } return self.lvars def _get_changes(self): cs = [] ct = [] us = [] ut = [] for b in self.batches: # don't add targets marked always build to unchanged lists # add to changed list as they always need to build if not b.targets[0].always_build and b.targets[0].is_up_to_date(): us.extend(list(map(rfile, b.sources))) ut.extend(b.targets) else: cs.extend(list(map(rfile, b.sources))) ct.extend(b.targets) self._changed_sources_list = SCons.Util.NodeList(cs) self._changed_targets_list = SCons.Util.NodeList(ct) self._unchanged_sources_list = SCons.Util.NodeList(us) self._unchanged_targets_list = SCons.Util.NodeList(ut) def _get_changed_sources(self, *args, **kw): try: return self._changed_sources_list except AttributeError: self._get_changes() return self._changed_sources_list def _get_changed_targets(self, *args, **kw): try: return self._changed_targets_list except AttributeError: self._get_changes() return self._changed_targets_list def _get_source(self, *args, **kw): return rfile(self.batches[0].sources[0]).get_subst_proxy() def _get_sources(self, *args, **kw): return SCons.Util.NodeList([rfile(n).get_subst_proxy() for n in self.get_all_sources()]) def _get_target(self, *args, **kw): return self.batches[0].targets[0].get_subst_proxy() def _get_targets(self, *args, **kw): return SCons.Util.NodeList([n.get_subst_proxy() for n in self.get_all_targets()]) def _get_unchanged_sources(self, *args, **kw): try: return self._unchanged_sources_list except AttributeError: self._get_changes() return self._unchanged_sources_list def _get_unchanged_targets(self, *args, **kw): try: return self._unchanged_targets_list except AttributeError: self._get_changes() return self._unchanged_targets_list def get_action_targets(self): if not self.action_list: return [] targets_string = self.action_list[0].get_targets(self.env, self) if targets_string[0] == '$': targets_string = targets_string[1:] return self.get_lvars()[targets_string] def set_action_list(self, action): import SCons.Util if not SCons.Util.is_List(action): if not action: import SCons.Errors raise SCons.Errors.UserError("Executor must have an action.") action = [action] self.action_list = action def get_action_list(self): if self.action_list is None: return [] return self.pre_actions + self.action_list + self.post_actions def get_all_targets(self): """Returns all targets for all batches of this Executor.""" result = [] for batch in self.batches: result.extend(batch.targets) return result def get_all_sources(self): """Returns all sources for all batches of this Executor.""" result = [] for batch in self.batches: result.extend(batch.sources) return result def get_all_children(self): """Returns all unique children (dependencies) for all batches of this Executor. The Taskmaster can recognize when it's already evaluated a Node, so we don't have to make this list unique for its intended canonical use case, but we expect there to be a lot of redundancy (long lists of batched .cc files #including the same .h files over and over), so removing the duplicates once up front should save the Taskmaster a lot of work. """ result = SCons.Util.UniqueList([]) for target in self.get_all_targets(): result.extend(target.children()) return result def get_all_prerequisites(self): """Returns all unique (order-only) prerequisites for all batches of this Executor. """ result = SCons.Util.UniqueList([]) for target in self.get_all_targets(): if target.prerequisites is not None: result.extend(target.prerequisites) return result def get_action_side_effects(self): """Returns all side effects for all batches of this Executor used by the underlying Action. """ result = SCons.Util.UniqueList([]) for target in self.get_action_targets(): result.extend(target.side_effects) return result @SCons.Memoize.CountMethodCall def get_build_env(self): """Fetch or create the appropriate build Environment for this Executor. """ try: return self._memo['get_build_env'] except KeyError: pass # Create the build environment instance with appropriate # overrides. These get evaluated against the current # environment's construction variables so that users can # add to existing values by referencing the variable in # the expansion. overrides = {} for odict in self.overridelist: overrides.update(odict) import SCons.Defaults env = self.env or SCons.Defaults.DefaultEnvironment() build_env = env.Override(overrides) self._memo['get_build_env'] = build_env return build_env def get_build_scanner_path(self, scanner): """Fetch the scanner path for this executor's targets and sources. """ env = self.get_build_env() try: cwd = self.batches[0].targets[0].cwd except (IndexError, AttributeError): cwd = None return scanner.path(env, cwd, self.get_all_targets(), self.get_all_sources()) def get_kw(self, kw={}): result = self.builder_kw.copy() result.update(kw) result['executor'] = self return result # use extra indirection because with new-style objects (Python 2.2 # and above) we can't override special methods, and nullify() needs # to be able to do this. def __call__(self, target, **kw): return _do_execute_map[self._do_execute](self, target, kw) def cleanup(self): self._memo = {} def add_sources(self, sources): """Add source files to this Executor's list. This is necessary for "multi" Builders that can be called repeatedly to build up a source file list for a given target.""" # TODO(batch): extend to multiple batches assert (len(self.batches) == 1) # TODO(batch): remove duplicates? sources = [x for x in sources if x not in self.batches[0].sources] self.batches[0].sources.extend(sources) def get_sources(self): return self.batches[0].sources def add_batch(self, targets, sources): """Add pair of associated target and source to this Executor's list. This is necessary for "batch" Builders that can be called repeatedly to build up a list of matching target and source files that will be used in order to update multiple target files at once from multiple corresponding source files, for tools like MSVC that support it.""" self.batches.append(Batch(targets, sources)) def prepare(self): """ Preparatory checks for whether this Executor can go ahead and (try to) build its targets. """ for s in self.get_all_sources(): if s.missing(): msg = "Source `%s' not found, needed by target `%s'." raise SCons.Errors.StopError(msg % (s, self.batches[0].targets[0])) def add_pre_action(self, action): self.pre_actions.append(action) def add_post_action(self, action): self.post_actions.append(action) # another extra indirection for new-style objects and nullify... def __str__(self): return _execute_str_map[self._execute_str](self) def nullify(self): self.cleanup() self._do_execute = 0 self._execute_str = 0 @SCons.Memoize.CountMethodCall def get_contents(self): """Fetch the signature contents. This is the main reason this class exists, so we can compute this once and cache it regardless of how many target or source Nodes there are. """ try: return self._memo['get_contents'] except KeyError: pass env = self.get_build_env() action_list = self.get_action_list() all_targets = self.get_all_targets() all_sources = self.get_all_sources() result = bytearray("",'utf-8').join([action.get_contents(all_targets, all_sources, env) for action in action_list]) self._memo['get_contents'] = result return result def get_timestamp(self): """Fetch a time stamp for this Executor. We don't have one, of course (only files do), but this is the interface used by the timestamp module. """ return 0 def scan_targets(self, scanner): # TODO(batch): scan by batches self.scan(scanner, self.get_all_targets()) def scan_sources(self, scanner): # TODO(batch): scan by batches if self.batches[0].sources: self.scan(scanner, self.get_all_sources()) def scan(self, scanner, node_list): """Scan a list of this Executor's files (targets or sources) for implicit dependencies and update all of the targets with them. This essentially short-circuits an N*M scan of the sources for each individual target, which is a hell of a lot more efficient. """ env = self.get_build_env() path = self.get_build_scanner_path kw = self.get_kw() # TODO(batch): scan by batches) deps = [] for node in node_list: node.disambiguate() deps.extend(node.get_implicit_deps(env, scanner, path, kw)) deps.extend(self.get_implicit_deps()) for tgt in self.get_all_targets(): tgt.add_to_implicit(deps) def _get_unignored_sources_key(self, node, ignore=()): return (node,) + tuple(ignore) @SCons.Memoize.CountDictCall(_get_unignored_sources_key) def get_unignored_sources(self, node, ignore=()): key = (node,) + tuple(ignore) try: memo_dict = self._memo['get_unignored_sources'] except KeyError: memo_dict = {} self._memo['get_unignored_sources'] = memo_dict else: try: return memo_dict[key] except KeyError: pass if node: # TODO: better way to do this (it's a linear search, # but it may not be critical path)? sourcelist = [] for b in self.batches: if node in b.targets: sourcelist = b.sources break else: sourcelist = self.get_all_sources() if ignore: idict = {} for i in ignore: idict[i] = 1 sourcelist = [s for s in sourcelist if s not in idict] memo_dict[key] = sourcelist return sourcelist def get_implicit_deps(self): """Return the executor's implicit dependencies, i.e. the nodes of the commands to be executed.""" result = [] build_env = self.get_build_env() for act in self.get_action_list(): deps = act.get_implicit_deps(self.get_all_targets(), self.get_all_sources(), build_env) result.extend(deps) return result _batch_executors = {} def GetBatchExecutor(key): return _batch_executors[key] def AddBatchExecutor(key, executor): assert key not in _batch_executors _batch_executors[key] = executor nullenv = None import SCons.Util class NullEnvironment(SCons.Util.Null): import SCons.CacheDir _CacheDir_path = None _CacheDir = SCons.CacheDir.CacheDir(None) def get_CacheDir(self): return self._CacheDir def get_NullEnvironment(): """Use singleton pattern for Null Environments.""" global nullenv if nullenv is None: nullenv = NullEnvironment() return nullenv class Null(object, with_metaclass(NoSlotsPyPy)): """A null Executor, with a null build Environment, that does nothing when the rest of the methods call it. This might be able to disappear when we refactor things to disassociate Builders from Nodes entirely, so we're not going to worry about unit tests for this--at least for now. """ __slots__ = ('pre_actions', 'post_actions', 'env', 'overridelist', 'batches', 'builder_kw', '_memo', 'lvars', '_changed_sources_list', '_changed_targets_list', '_unchanged_sources_list', '_unchanged_targets_list', 'action_list', '_do_execute', '_execute_str') def __init__(self, *args, **kw): if SCons.Debug.track_instances: logInstanceCreation(self, 'Executor.Null') self.batches = [Batch(kw['targets'][:], [])] def get_build_env(self): return get_NullEnvironment() def get_build_scanner_path(self): return None def cleanup(self): pass def prepare(self): pass def get_unignored_sources(self, *args, **kw): return tuple(()) def get_action_targets(self): return [] def get_action_list(self): return [] def get_all_targets(self): return self.batches[0].targets def get_all_sources(self): return self.batches[0].targets[0].sources def get_all_children(self): return self.batches[0].targets[0].children() def get_all_prerequisites(self): return [] def get_action_side_effects(self): return [] def __call__(self, *args, **kw): return 0 def get_contents(self): return '' def _morph(self): """Morph this Null executor to a real Executor object.""" batches = self.batches self.__class__ = Executor self.__init__([]) self.batches = batches # The following methods require morphing this Null Executor to a # real Executor object. def add_pre_action(self, action): self._morph() self.add_pre_action(action) def add_post_action(self, action): self._morph() self.add_post_action(action) def set_action_list(self, action): self._morph() self.set_action_list(action) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/SConf.py0000664000175000017500000011553113202656511020023 0ustar bdbaddogbdbaddog00000000000000"""SCons.SConf Autoconf-like configuration support. In other words, SConf allows to run tests on the build machine to detect capabilities of system and do some things based on result: generate config files, header files for C/C++, update variables in environment. Tests on the build system can detect if compiler sees header files, if libraries are installed, if some command line options are supported etc. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # from __future__ import print_function __revision__ = "src/engine/SCons/SConf.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.compat import io import os import re import sys import traceback import SCons.Action import SCons.Builder import SCons.Errors import SCons.Job import SCons.Node.FS import SCons.Taskmaster import SCons.Util import SCons.Warnings import SCons.Conftest from SCons.Debug import Trace # Turn off the Conftest error logging SCons.Conftest.LogInputFiles = 0 SCons.Conftest.LogErrorMessages = 0 # Set build_type = None build_types = ['clean', 'help'] def SetBuildType(type): global build_type build_type = type # to be set, if we are in dry-run mode dryrun = 0 AUTO=0 # use SCons dependency scanning for up-to-date checks FORCE=1 # force all tests to be rebuilt CACHE=2 # force all tests to be taken from cache (raise an error, if necessary) cache_mode = AUTO def SetCacheMode(mode): """Set the Configure cache mode. mode must be one of "auto", "force", or "cache".""" global cache_mode if mode == "auto": cache_mode = AUTO elif mode == "force": cache_mode = FORCE elif mode == "cache": cache_mode = CACHE else: raise ValueError("SCons.SConf.SetCacheMode: Unknown mode " + mode) progress_display = SCons.Util.display # will be overwritten by SCons.Script def SetProgressDisplay(display): """Set the progress display to use (called from SCons.Script)""" global progress_display progress_display = display SConfFS = None _ac_build_counter = 0 # incremented, whenever TryBuild is called _ac_config_logs = {} # all config.log files created in this build _ac_config_hs = {} # all config.h files created in this build sconf_global = None # current sconf object def _createConfigH(target, source, env): t = open(str(target[0]), "w") defname = re.sub('[^A-Za-z0-9_]', '_', str(target[0]).upper()) t.write("""#ifndef %(DEFNAME)s_SEEN #define %(DEFNAME)s_SEEN """ % {'DEFNAME' : defname}) t.write(source[0].get_contents().decode()) t.write(""" #endif /* %(DEFNAME)s_SEEN */ """ % {'DEFNAME' : defname}) t.close() def _stringConfigH(target, source, env): return "scons: Configure: creating " + str(target[0]) def NeedConfigHBuilder(): if len(_ac_config_hs) == 0: return False else: return True def CreateConfigHBuilder(env): """Called if necessary just before the building targets phase begins.""" action = SCons.Action.Action(_createConfigH, _stringConfigH) sconfigHBld = SCons.Builder.Builder(action=action) env.Append( BUILDERS={'SConfigHBuilder':sconfigHBld} ) for k in list(_ac_config_hs.keys()): env.SConfigHBuilder(k, env.Value(_ac_config_hs[k])) class SConfWarning(SCons.Warnings.Warning): pass SCons.Warnings.enableWarningClass(SConfWarning) # some error definitions class SConfError(SCons.Errors.UserError): def __init__(self,msg): SCons.Errors.UserError.__init__(self,msg) class ConfigureDryRunError(SConfError): """Raised when a file or directory needs to be updated during a Configure process, but the user requested a dry-run""" def __init__(self,target): if not isinstance(target, SCons.Node.FS.File): msg = 'Cannot create configure directory "%s" within a dry-run.' % str(target) else: msg = 'Cannot update configure test "%s" within a dry-run.' % str(target) SConfError.__init__(self,msg) class ConfigureCacheError(SConfError): """Raised when a use explicitely requested the cache feature, but the test is run the first time.""" def __init__(self,target): SConfError.__init__(self, '"%s" is not yet built and cache is forced.' % str(target)) # define actions for building text files def _createSource( target, source, env ): fd = open(str(target[0]), "w") fd.write(source[0].get_contents().decode()) fd.close() def _stringSource( target, source, env ): return (str(target[0]) + ' <-\n |' + source[0].get_contents().decode().replace( '\n', "\n |" ) ) class SConfBuildInfo(SCons.Node.FS.FileBuildInfo): """ Special build info for targets of configure tests. Additional members are result (did the builder succeed last time?) and string, which contains messages of the original build phase. """ __slots__ = ('result', 'string') def __init__(self): self.result = None # -> 0/None -> no error, != 0 error self.string = None # the stdout / stderr output when building the target def set_build_result(self, result, string): self.result = result self.string = string class Streamer(object): """ 'Sniffer' for a file-like writable object. Similar to the unix tool tee. """ def __init__(self, orig): self.orig = orig self.s = io.StringIO() def write(self, str): if self.orig: self.orig.write(str) try: self.s.write(str) except TypeError as e: # "unicode argument expected" bug in IOStream (python 2.x) self.s.write(str.decode()) def writelines(self, lines): for l in lines: self.write(l + '\n') def getvalue(self): """ Return everything written to orig since the Streamer was created. """ return self.s.getvalue() def flush(self): if self.orig: self.orig.flush() self.s.flush() class SConfBuildTask(SCons.Taskmaster.AlwaysTask): """ This is almost the same as SCons.Script.BuildTask. Handles SConfErrors correctly and knows about the current cache_mode. """ def display(self, message): if sconf_global.logstream: sconf_global.logstream.write("scons: Configure: " + message + "\n") def display_cached_string(self, bi): """ Logs the original builder messages, given the SConfBuildInfo instance bi. """ if not isinstance(bi, SConfBuildInfo): SCons.Warnings.warn(SConfWarning, "The stored build information has an unexpected class: %s" % bi.__class__) else: self.display("The original builder output was:\n" + (" |" + str(bi.string)).replace("\n", "\n |")) def failed(self): # check, if the reason was a ConfigureDryRunError or a # ConfigureCacheError and if yes, reraise the exception exc_type = self.exc_info()[0] if issubclass(exc_type, SConfError): raise elif issubclass(exc_type, SCons.Errors.BuildError): # we ignore Build Errors (occurs, when a test doesn't pass) # Clear the exception to prevent the contained traceback # to build a reference cycle. self.exc_clear() else: self.display('Caught exception while building "%s":\n' % self.targets[0]) sys.excepthook(*self.exc_info()) return SCons.Taskmaster.Task.failed(self) def collect_node_states(self): # returns (is_up_to_date, cached_error, cachable) # where is_up_to_date is 1, if the node(s) are up_to_date # cached_error is 1, if the node(s) are up_to_date, but the # build will fail # cachable is 0, if some nodes are not in our cache T = 0 changed = False cached_error = False cachable = True for t in self.targets: if T: Trace('%s' % (t)) bi = t.get_stored_info().binfo if isinstance(bi, SConfBuildInfo): if T: Trace(': SConfBuildInfo') if cache_mode == CACHE: t.set_state(SCons.Node.up_to_date) if T: Trace(': set_state(up_to-date)') else: if T: Trace(': get_state() %s' % t.get_state()) if T: Trace(': changed() %s' % t.changed()) if (t.get_state() != SCons.Node.up_to_date and t.changed()): changed = True if T: Trace(': changed %s' % changed) cached_error = cached_error or bi.result else: if T: Trace(': else') # the node hasn't been built in a SConf context or doesn't # exist cachable = False changed = ( t.get_state() != SCons.Node.up_to_date ) if T: Trace(': changed %s' % changed) if T: Trace('\n') return (not changed, cached_error, cachable) def execute(self): if not self.targets[0].has_builder(): return sconf = sconf_global is_up_to_date, cached_error, cachable = self.collect_node_states() if cache_mode == CACHE and not cachable: raise ConfigureCacheError(self.targets[0]) elif cache_mode == FORCE: is_up_to_date = 0 if cached_error and is_up_to_date: self.display("Building \"%s\" failed in a previous run and all " "its sources are up to date." % str(self.targets[0])) binfo = self.targets[0].get_stored_info().binfo self.display_cached_string(binfo) raise SCons.Errors.BuildError # will be 'caught' in self.failed elif is_up_to_date: self.display("\"%s\" is up to date." % str(self.targets[0])) binfo = self.targets[0].get_stored_info().binfo self.display_cached_string(binfo) elif dryrun: raise ConfigureDryRunError(self.targets[0]) else: # note stdout and stderr are the same here s = sys.stdout = sys.stderr = Streamer(sys.stdout) try: env = self.targets[0].get_build_env() if cache_mode == FORCE: # Set up the Decider() to force rebuilds by saying # that every source has changed. Note that we still # call the environment's underlying source decider so # that the correct .sconsign info will get calculated # and keep the build state consistent. def force_build(dependency, target, prev_ni, env_decider=env.decide_source): env_decider(dependency, target, prev_ni) return True if env.decide_source.__code__ is not force_build.__code__: env.Decider(force_build) env['PSTDOUT'] = env['PSTDERR'] = s try: sconf.cached = 0 self.targets[0].build() finally: sys.stdout = sys.stderr = env['PSTDOUT'] = \ env['PSTDERR'] = sconf.logstream except KeyboardInterrupt: raise except SystemExit: exc_value = sys.exc_info()[1] raise SCons.Errors.ExplicitExit(self.targets[0],exc_value.code) except Exception as e: for t in self.targets: binfo = SConfBuildInfo() binfo.merge(t.get_binfo()) binfo.set_build_result(1, s.getvalue()) sconsign_entry = SCons.SConsign.SConsignEntry() sconsign_entry.binfo = binfo #sconsign_entry.ninfo = self.get_ninfo() # We'd like to do this as follows: # t.store_info(binfo) # However, we need to store it as an SConfBuildInfo # object, and store_info() will turn it into a # regular FileNodeInfo if the target is itself a # regular File. sconsign = t.dir.sconsign() sconsign.set_entry(t.name, sconsign_entry) sconsign.merge() raise e else: for t in self.targets: binfo = SConfBuildInfo() binfo.merge(t.get_binfo()) binfo.set_build_result(0, s.getvalue()) sconsign_entry = SCons.SConsign.SConsignEntry() sconsign_entry.binfo = binfo #sconsign_entry.ninfo = self.get_ninfo() # We'd like to do this as follows: # t.store_info(binfo) # However, we need to store it as an SConfBuildInfo # object, and store_info() will turn it into a # regular FileNodeInfo if the target is itself a # regular File. sconsign = t.dir.sconsign() sconsign.set_entry(t.name, sconsign_entry) sconsign.merge() class SConfBase(object): """This is simply a class to represent a configure context. After creating a SConf object, you can call any tests. After finished with your tests, be sure to call the Finish() method, which returns the modified environment. Some words about caching: In most cases, it is not necessary to cache Test results explicitly. Instead, we use the scons dependency checking mechanism. For example, if one wants to compile a test program (SConf.TryLink), the compiler is only called, if the program dependencies have changed. However, if the program could not be compiled in a former SConf run, we need to explicitly cache this error. """ def __init__(self, env, custom_tests = {}, conf_dir='$CONFIGUREDIR', log_file='$CONFIGURELOG', config_h = None, _depth = 0): """Constructor. Pass additional tests in the custom_tests-dictionary, e.g. custom_tests={'CheckPrivate':MyPrivateTest}, where MyPrivateTest defines a custom test. Note also the conf_dir and log_file arguments (you may want to build tests in the VariantDir, not in the SourceDir) """ global SConfFS if not SConfFS: SConfFS = SCons.Node.FS.default_fs or \ SCons.Node.FS.FS(env.fs.pathTop) if sconf_global is not None: raise SCons.Errors.UserError self.env = env if log_file is not None: log_file = SConfFS.File(env.subst(log_file)) self.logfile = log_file self.logstream = None self.lastTarget = None self.depth = _depth self.cached = 0 # will be set, if all test results are cached # add default tests default_tests = { 'CheckCC' : CheckCC, 'CheckCXX' : CheckCXX, 'CheckSHCC' : CheckSHCC, 'CheckSHCXX' : CheckSHCXX, 'CheckFunc' : CheckFunc, 'CheckType' : CheckType, 'CheckTypeSize' : CheckTypeSize, 'CheckDeclaration' : CheckDeclaration, 'CheckHeader' : CheckHeader, 'CheckCHeader' : CheckCHeader, 'CheckCXXHeader' : CheckCXXHeader, 'CheckLib' : CheckLib, 'CheckLibWithHeader' : CheckLibWithHeader, 'CheckProg' : CheckProg, } self.AddTests(default_tests) self.AddTests(custom_tests) self.confdir = SConfFS.Dir(env.subst(conf_dir)) if config_h is not None: config_h = SConfFS.File(config_h) self.config_h = config_h self._startup() def Finish(self): """Call this method after finished with your tests: env = sconf.Finish() """ self._shutdown() return self.env def Define(self, name, value = None, comment = None): """ Define a pre processor symbol name, with the optional given value in the current config header. If value is None (default), then #define name is written. If value is not none, then #define name value is written. comment is a string which will be put as a C comment in the header, to explain the meaning of the value (appropriate C comments will be added automatically). """ lines = [] if comment: comment_str = "/* %s */" % comment lines.append(comment_str) if value is not None: define_str = "#define %s %s" % (name, value) else: define_str = "#define %s" % name lines.append(define_str) lines.append('') self.config_h_text = self.config_h_text + '\n'.join(lines) def BuildNodes(self, nodes): """ Tries to build the given nodes immediately. Returns 1 on success, 0 on error. """ if self.logstream is not None: # override stdout / stderr to write in log file oldStdout = sys.stdout sys.stdout = self.logstream oldStderr = sys.stderr sys.stderr = self.logstream # the engine assumes the current path is the SConstruct directory ... old_fs_dir = SConfFS.getcwd() old_os_dir = os.getcwd() SConfFS.chdir(SConfFS.Top, change_os_dir=1) # Because we take responsibility here for writing out our # own .sconsign info (see SConfBuildTask.execute(), above), # we override the store_info() method with a null place-holder # so we really control how it gets written. for n in nodes: n.store_info = 0 if not hasattr(n, 'attributes'): n.attributes = SCons.Node.Node.Attrs() n.attributes.keep_targetinfo = 1 ret = 1 try: # ToDo: use user options for calc save_max_drift = SConfFS.get_max_drift() SConfFS.set_max_drift(0) tm = SCons.Taskmaster.Taskmaster(nodes, SConfBuildTask) # we don't want to build tests in parallel jobs = SCons.Job.Jobs(1, tm ) jobs.run() for n in nodes: state = n.get_state() if (state != SCons.Node.executed and state != SCons.Node.up_to_date): # the node could not be built. we return 0 in this case ret = 0 finally: SConfFS.set_max_drift(save_max_drift) os.chdir(old_os_dir) SConfFS.chdir(old_fs_dir, change_os_dir=0) if self.logstream is not None: # restore stdout / stderr sys.stdout = oldStdout sys.stderr = oldStderr return ret def pspawn_wrapper(self, sh, escape, cmd, args, env): """Wrapper function for handling piped spawns. This looks to the calling interface (in Action.py) like a "normal" spawn, but associates the call with the PSPAWN variable from the construction environment and with the streams to which we want the output logged. This gets slid into the construction environment as the SPAWN variable so Action.py doesn't have to know or care whether it's spawning a piped command or not. """ return self.pspawn(sh, escape, cmd, args, env, self.logstream, self.logstream) def TryBuild(self, builder, text = None, extension = ""): """Low level TryBuild implementation. Normally you don't need to call that - you can use TryCompile / TryLink / TryRun instead """ global _ac_build_counter # Make sure we have a PSPAWN value, and save the current # SPAWN value. try: self.pspawn = self.env['PSPAWN'] except KeyError: raise SCons.Errors.UserError('Missing PSPAWN construction variable.') try: save_spawn = self.env['SPAWN'] except KeyError: raise SCons.Errors.UserError('Missing SPAWN construction variable.') nodesToBeBuilt = [] f = "conftest_" + str(_ac_build_counter) pref = self.env.subst( builder.builder.prefix ) suff = self.env.subst( builder.builder.suffix ) target = self.confdir.File(pref + f + suff) try: # Slide our wrapper into the construction environment as # the SPAWN function. self.env['SPAWN'] = self.pspawn_wrapper sourcetext = self.env.Value(text) if text is not None: textFile = self.confdir.File(f + extension) textFileNode = self.env.SConfSourceBuilder(target=textFile, source=sourcetext) nodesToBeBuilt.extend(textFileNode) source = textFileNode else: source = None nodes = builder(target = target, source = source) if not SCons.Util.is_List(nodes): nodes = [nodes] nodesToBeBuilt.extend(nodes) result = self.BuildNodes(nodesToBeBuilt) finally: self.env['SPAWN'] = save_spawn _ac_build_counter = _ac_build_counter + 1 if result: self.lastTarget = nodes[0] else: self.lastTarget = None return result def TryAction(self, action, text = None, extension = ""): """Tries to execute the given action with optional source file contents and optional source file extension , Returns the status (0 : failed, 1 : ok) and the contents of the output file. """ builder = SCons.Builder.Builder(action=action) self.env.Append( BUILDERS = {'SConfActionBuilder' : builder} ) ok = self.TryBuild(self.env.SConfActionBuilder, text, extension) del self.env['BUILDERS']['SConfActionBuilder'] if ok: outputStr = self.lastTarget.get_contents().decode() return (1, outputStr) return (0, "") def TryCompile( self, text, extension): """Compiles the program given in text to an env.Object, using extension as file extension (e.g. '.c'). Returns 1, if compilation was successful, 0 otherwise. The target is saved in self.lastTarget (for further processing). """ return self.TryBuild(self.env.Object, text, extension) def TryLink( self, text, extension ): """Compiles the program given in text to an executable env.Program, using extension as file extension (e.g. '.c'). Returns 1, if compilation was successful, 0 otherwise. The target is saved in self.lastTarget (for further processing). """ return self.TryBuild(self.env.Program, text, extension ) def TryRun(self, text, extension ): """Compiles and runs the program given in text, using extension as file extension (e.g. '.c'). Returns (1, outputStr) on success, (0, '') otherwise. The target (a file containing the program's stdout) is saved in self.lastTarget (for further processing). """ ok = self.TryLink(text, extension) if( ok ): prog = self.lastTarget pname = prog.get_internal_path() output = self.confdir.File(os.path.basename(pname)+'.out') node = self.env.Command(output, prog, [ [ pname, ">", "${TARGET}"] ]) ok = self.BuildNodes(node) if ok: outputStr = SCons.Util.to_str(output.get_contents()) return( 1, outputStr) return (0, "") class TestWrapper(object): """A wrapper around Tests (to ensure sanity)""" def __init__(self, test, sconf): self.test = test self.sconf = sconf def __call__(self, *args, **kw): if not self.sconf.active: raise SCons.Errors.UserError context = CheckContext(self.sconf) ret = self.test(context, *args, **kw) if self.sconf.config_h is not None: self.sconf.config_h_text = self.sconf.config_h_text + context.config_h context.Result("error: no result") return ret def AddTest(self, test_name, test_instance): """Adds test_class to this SConf instance. It can be called with self.test_name(...)""" setattr(self, test_name, SConfBase.TestWrapper(test_instance, self)) def AddTests(self, tests): """Adds all the tests given in the tests dictionary to this SConf instance """ for name in list(tests.keys()): self.AddTest(name, tests[name]) def _createDir( self, node ): dirName = str(node) if dryrun: if not os.path.isdir( dirName ): raise ConfigureDryRunError(dirName) else: if not os.path.isdir( dirName ): os.makedirs( dirName ) def _startup(self): """Private method. Set up logstream, and set the environment variables necessary for a piped build """ global _ac_config_logs global sconf_global global SConfFS self.lastEnvFs = self.env.fs self.env.fs = SConfFS self._createDir(self.confdir) self.confdir.up().add_ignore( [self.confdir] ) if self.logfile is not None and not dryrun: # truncate logfile, if SConf.Configure is called for the first time # in a build if self.logfile in _ac_config_logs: log_mode = "a" else: _ac_config_logs[self.logfile] = None log_mode = "w" fp = open(str(self.logfile), log_mode) self.logstream = SCons.Util.Unbuffered(fp) # logfile may stay in a build directory, so we tell # the build system not to override it with a eventually # existing file with the same name in the source directory self.logfile.dir.add_ignore( [self.logfile] ) tb = traceback.extract_stack()[-3-self.depth] old_fs_dir = SConfFS.getcwd() SConfFS.chdir(SConfFS.Top, change_os_dir=0) self.logstream.write('file %s,line %d:\n\tConfigure(confdir = %s)\n' % (tb[0], tb[1], str(self.confdir)) ) SConfFS.chdir(old_fs_dir) else: self.logstream = None # we use a special builder to create source files from TEXT action = SCons.Action.Action(_createSource, _stringSource) sconfSrcBld = SCons.Builder.Builder(action=action) self.env.Append( BUILDERS={'SConfSourceBuilder':sconfSrcBld} ) self.config_h_text = _ac_config_hs.get(self.config_h, "") self.active = 1 # only one SConf instance should be active at a time ... sconf_global = self def _shutdown(self): """Private method. Reset to non-piped spawn""" global sconf_global, _ac_config_hs if not self.active: raise SCons.Errors.UserError("Finish may be called only once!") if self.logstream is not None and not dryrun: self.logstream.write("\n") self.logstream.close() self.logstream = None # remove the SConfSourceBuilder from the environment blds = self.env['BUILDERS'] del blds['SConfSourceBuilder'] self.env.Replace( BUILDERS=blds ) self.active = 0 sconf_global = None if not self.config_h is None: _ac_config_hs[self.config_h] = self.config_h_text self.env.fs = self.lastEnvFs class CheckContext(object): """Provides a context for configure tests. Defines how a test writes to the screen and log file. A typical test is just a callable with an instance of CheckContext as first argument: def CheckCustom(context, ...): context.Message('Checking my weird test ... ') ret = myWeirdTestFunction(...) context.Result(ret) Often, myWeirdTestFunction will be one of context.TryCompile/context.TryLink/context.TryRun. The results of those are cached, for they are only rebuild, if the dependencies have changed. """ def __init__(self, sconf): """Constructor. Pass the corresponding SConf instance.""" self.sconf = sconf self.did_show_result = 0 # for Conftest.py: self.vardict = {} self.havedict = {} self.headerfilename = None self.config_h = "" # config_h text will be stored here # we don't regenerate the config.h file after each test. That means, # that tests won't be able to include the config.h file, and so # they can't do an #ifdef HAVE_XXX_H. This shouldn't be a major # issue, though. If it turns out, that we need to include config.h # in tests, we must ensure, that the dependencies are worked out # correctly. Note that we can't use Conftest.py's support for config.h, # cause we will need to specify a builder for the config.h file ... def Message(self, text): """Inform about what we are doing right now, e.g. 'Checking for SOMETHING ... ' """ self.Display(text) self.sconf.cached = 1 self.did_show_result = 0 def Result(self, res): """Inform about the result of the test. If res is not a string, displays 'yes' or 'no' depending on whether res is evaluated as true or false. The result is only displayed when self.did_show_result is not set. """ if isinstance(res, str): text = res elif res: text = "yes" else: text = "no" if self.did_show_result == 0: # Didn't show result yet, do it now. self.Display(text + "\n") self.did_show_result = 1 def TryBuild(self, *args, **kw): return self.sconf.TryBuild(*args, **kw) def TryAction(self, *args, **kw): return self.sconf.TryAction(*args, **kw) def TryCompile(self, *args, **kw): return self.sconf.TryCompile(*args, **kw) def TryLink(self, *args, **kw): return self.sconf.TryLink(*args, **kw) def TryRun(self, *args, **kw): return self.sconf.TryRun(*args, **kw) def __getattr__( self, attr ): if( attr == 'env' ): return self.sconf.env elif( attr == 'lastTarget' ): return self.sconf.lastTarget else: raise AttributeError("CheckContext instance has no attribute '%s'" % attr) #### Stuff used by Conftest.py (look there for explanations). def BuildProg(self, text, ext): self.sconf.cached = 1 # TODO: should use self.vardict for $CC, $CPPFLAGS, etc. return not self.TryBuild(self.env.Program, text, ext) def CompileProg(self, text, ext): self.sconf.cached = 1 # TODO: should use self.vardict for $CC, $CPPFLAGS, etc. return not self.TryBuild(self.env.Object, text, ext) def CompileSharedObject(self, text, ext): self.sconf.cached = 1 # TODO: should use self.vardict for $SHCC, $CPPFLAGS, etc. return not self.TryBuild(self.env.SharedObject, text, ext) def RunProg(self, text, ext): self.sconf.cached = 1 # TODO: should use self.vardict for $CC, $CPPFLAGS, etc. st, out = self.TryRun(text, ext) return not st, out def AppendLIBS(self, lib_name_list): oldLIBS = self.env.get( 'LIBS', [] ) self.env.Append(LIBS = lib_name_list) return oldLIBS def PrependLIBS(self, lib_name_list): oldLIBS = self.env.get( 'LIBS', [] ) self.env.Prepend(LIBS = lib_name_list) return oldLIBS def SetLIBS(self, val): oldLIBS = self.env.get( 'LIBS', [] ) self.env.Replace(LIBS = val) return oldLIBS def Display(self, msg): if self.sconf.cached: # We assume that Display is called twice for each test here # once for the Checking for ... message and once for the result. # The self.sconf.cached flag can only be set between those calls msg = "(cached) " + msg self.sconf.cached = 0 progress_display(msg, append_newline=0) self.Log("scons: Configure: " + msg + "\n") def Log(self, msg): if self.sconf.logstream is not None: self.sconf.logstream.write(msg) #### End of stuff used by Conftest.py. def SConf(*args, **kw): if kw.get(build_type, True): kw['_depth'] = kw.get('_depth', 0) + 1 for bt in build_types: try: del kw[bt] except KeyError: pass return SConfBase(*args, **kw) else: return SCons.Util.Null() def CheckFunc(context, function_name, header = None, language = None): res = SCons.Conftest.CheckFunc(context, function_name, header = header, language = language) context.did_show_result = 1 return not res def CheckType(context, type_name, includes = "", language = None): res = SCons.Conftest.CheckType(context, type_name, header = includes, language = language) context.did_show_result = 1 return not res def CheckTypeSize(context, type_name, includes = "", language = None, expect = None): res = SCons.Conftest.CheckTypeSize(context, type_name, header = includes, language = language, expect = expect) context.did_show_result = 1 return res def CheckDeclaration(context, declaration, includes = "", language = None): res = SCons.Conftest.CheckDeclaration(context, declaration, includes = includes, language = language) context.did_show_result = 1 return not res def createIncludesFromHeaders(headers, leaveLast, include_quotes = '""'): # used by CheckHeader and CheckLibWithHeader to produce C - #include # statements from the specified header (list) if not SCons.Util.is_List(headers): headers = [headers] l = [] if leaveLast: lastHeader = headers[-1] headers = headers[:-1] else: lastHeader = None for s in headers: l.append("#include %s%s%s\n" % (include_quotes[0], s, include_quotes[1])) return ''.join(l), lastHeader def CheckHeader(context, header, include_quotes = '<>', language = None): """ A test for a C or C++ header file. """ prog_prefix, hdr_to_check = \ createIncludesFromHeaders(header, 1, include_quotes) res = SCons.Conftest.CheckHeader(context, hdr_to_check, prog_prefix, language = language, include_quotes = include_quotes) context.did_show_result = 1 return not res def CheckCC(context): res = SCons.Conftest.CheckCC(context) context.did_show_result = 1 return not res def CheckCXX(context): res = SCons.Conftest.CheckCXX(context) context.did_show_result = 1 return not res def CheckSHCC(context): res = SCons.Conftest.CheckSHCC(context) context.did_show_result = 1 return not res def CheckSHCXX(context): res = SCons.Conftest.CheckSHCXX(context) context.did_show_result = 1 return not res # Bram: Make this function obsolete? CheckHeader() is more generic. def CheckCHeader(context, header, include_quotes = '""'): """ A test for a C header file. """ return CheckHeader(context, header, include_quotes, language = "C") # Bram: Make this function obsolete? CheckHeader() is more generic. def CheckCXXHeader(context, header, include_quotes = '""'): """ A test for a C++ header file. """ return CheckHeader(context, header, include_quotes, language = "C++") def CheckLib(context, library = None, symbol = "main", header = None, language = None, autoadd = 1): """ A test for a library. See also CheckLibWithHeader. Note that library may also be None to test whether the given symbol compiles without flags. """ if library == []: library = [None] if not SCons.Util.is_List(library): library = [library] # ToDo: accept path for the library res = SCons.Conftest.CheckLib(context, library, symbol, header = header, language = language, autoadd = autoadd) context.did_show_result = 1 return not res # XXX # Bram: Can only include one header and can't use #ifdef HAVE_HEADER_H. def CheckLibWithHeader(context, libs, header, language, call = None, autoadd = 1): # ToDo: accept path for library. Support system header files. """ Another (more sophisticated) test for a library. Checks, if library and header is available for language (may be 'C' or 'CXX'). Call maybe be a valid expression _with_ a trailing ';'. As in CheckLib, we support library=None, to test if the call compiles without extra link flags. """ prog_prefix, dummy = \ createIncludesFromHeaders(header, 0) if libs == []: libs = [None] if not SCons.Util.is_List(libs): libs = [libs] res = SCons.Conftest.CheckLib(context, libs, None, prog_prefix, call = call, language = language, autoadd = autoadd) context.did_show_result = 1 return not res def CheckProg(context, prog_name): """Simple check if a program exists in the path. Returns the path for the application, or None if not found. """ res = SCons.Conftest.CheckProg(context, prog_name) context.did_show_result = 1 return res # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Subst.py0000664000175000017500000010567013202656511020116 0ustar bdbaddogbdbaddog00000000000000"""SCons.Subst SCons string substitution. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Subst.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import collections import re import SCons.Errors from SCons.Util import is_String, is_Sequence # Indexed by the SUBST_* constants below. _strconv = [SCons.Util.to_String_for_subst, SCons.Util.to_String_for_subst, SCons.Util.to_String_for_signature] AllowableExceptions = (IndexError, NameError) def SetAllowableExceptions(*excepts): global AllowableExceptions AllowableExceptions = [_f for _f in excepts if _f] def raise_exception(exception, target, s): name = exception.__class__.__name__ msg = "%s `%s' trying to evaluate `%s'" % (name, exception, s) if target: raise SCons.Errors.BuildError(target[0], msg) else: raise SCons.Errors.UserError(msg) class Literal(object): """A wrapper for a string. If you use this object wrapped around a string, then it will be interpreted as literal. When passed to the command interpreter, all special characters will be escaped.""" def __init__(self, lstr): self.lstr = lstr def __str__(self): return self.lstr def escape(self, escape_func): return escape_func(self.lstr) def for_signature(self): return self.lstr def is_literal(self): return 1 def __eq__(self, other): if not isinstance(other, Literal): return False return self.lstr == other.lstr def __neq__(self, other): return not self.__eq__(other) class SpecialAttrWrapper(object): """This is a wrapper for what we call a 'Node special attribute.' This is any of the attributes of a Node that we can reference from Environment variable substitution, such as $TARGET.abspath or $SOURCES[1].filebase. We implement the same methods as Literal so we can handle special characters, plus a for_signature method, such that we can return some canonical string during signature calculation to avoid unnecessary rebuilds.""" def __init__(self, lstr, for_signature=None): """The for_signature parameter, if supplied, will be the canonical string we return from for_signature(). Else we will simply return lstr.""" self.lstr = lstr if for_signature: self.forsig = for_signature else: self.forsig = lstr def __str__(self): return self.lstr def escape(self, escape_func): return escape_func(self.lstr) def for_signature(self): return self.forsig def is_literal(self): return 1 def quote_spaces(arg): """Generic function for putting double quotes around any string that has white space in it.""" if ' ' in arg or '\t' in arg: return '"%s"' % arg else: return str(arg) class CmdStringHolder(collections.UserString): """This is a special class used to hold strings generated by scons_subst() and scons_subst_list(). It defines a special method escape(). When passed a function with an escape algorithm for a particular platform, it will return the contained string with the proper escape sequences inserted. """ def __init__(self, cmd, literal=None): collections.UserString.__init__(self, cmd) self.literal = literal def is_literal(self): return self.literal def escape(self, escape_func, quote_func=quote_spaces): """Escape the string with the supplied function. The function is expected to take an arbitrary string, then return it with all special characters escaped and ready for passing to the command interpreter. After calling this function, the next call to str() will return the escaped string. """ if self.is_literal(): return escape_func(self.data) elif ' ' in self.data or '\t' in self.data: return quote_func(self.data) else: return self.data def escape_list(mylist, escape_func): """Escape a list of arguments by running the specified escape_func on every object in the list that has an escape() method.""" def escape(obj, escape_func=escape_func): try: e = obj.escape except AttributeError: return obj else: return e(escape_func) return list(map(escape, mylist)) class NLWrapper(object): """A wrapper class that delays turning a list of sources or targets into a NodeList until it's needed. The specified function supplied when the object is initialized is responsible for turning raw nodes into proxies that implement the special attributes like .abspath, .source, etc. This way, we avoid creating those proxies just "in case" someone is going to use $TARGET or the like, and only go through the trouble if we really have to. In practice, this might be a wash performance-wise, but it's a little cleaner conceptually... """ def __init__(self, list, func): self.list = list self.func = func def _return_nodelist(self): return self.nodelist def _gen_nodelist(self): mylist = self.list if mylist is None: mylist = [] elif not is_Sequence(mylist): mylist = [mylist] # The map(self.func) call is what actually turns # a list into appropriate proxies. self.nodelist = SCons.Util.NodeList(list(map(self.func, mylist))) self._create_nodelist = self._return_nodelist return self.nodelist _create_nodelist = _gen_nodelist class Targets_or_Sources(collections.UserList): """A class that implements $TARGETS or $SOURCES expansions by in turn wrapping a NLWrapper. This class handles the different methods used to access the list, calling the NLWrapper to create proxies on demand. Note that we subclass collections.UserList purely so that the is_Sequence() function will identify an object of this class as a list during variable expansion. We're not really using any collections.UserList methods in practice. """ def __init__(self, nl): self.nl = nl def __getattr__(self, attr): nl = self.nl._create_nodelist() return getattr(nl, attr) def __getitem__(self, i): nl = self.nl._create_nodelist() return nl[i] def __getslice__(self, i, j): nl = self.nl._create_nodelist() i = max(i, 0); j = max(j, 0) return nl[i:j] def __str__(self): nl = self.nl._create_nodelist() return str(nl) def __repr__(self): nl = self.nl._create_nodelist() return repr(nl) class Target_or_Source(object): """A class that implements $TARGET or $SOURCE expansions by in turn wrapping a NLWrapper. This class handles the different methods used to access an individual proxy Node, calling the NLWrapper to create a proxy on demand. """ def __init__(self, nl): self.nl = nl def __getattr__(self, attr): nl = self.nl._create_nodelist() try: nl0 = nl[0] except IndexError: # If there is nothing in the list, then we have no attributes to # pass through, so raise AttributeError for everything. raise AttributeError("NodeList has no attribute: %s" % attr) return getattr(nl0, attr) def __str__(self): nl = self.nl._create_nodelist() if nl: return str(nl[0]) return '' def __repr__(self): nl = self.nl._create_nodelist() if nl: return repr(nl[0]) return '' class NullNodeList(SCons.Util.NullSeq): def __call__(self, *args, **kwargs): return '' def __str__(self): return '' NullNodesList = NullNodeList() def subst_dict(target, source): """Create a dictionary for substitution of special construction variables. This translates the following special arguments: target - the target (object or array of objects), used to generate the TARGET and TARGETS construction variables source - the source (object or array of objects), used to generate the SOURCES and SOURCE construction variables """ dict = {} if target: def get_tgt_subst_proxy(thing): try: subst_proxy = thing.get_subst_proxy() except AttributeError: subst_proxy = thing # probably a string, just return it return subst_proxy tnl = NLWrapper(target, get_tgt_subst_proxy) dict['TARGETS'] = Targets_or_Sources(tnl) dict['TARGET'] = Target_or_Source(tnl) # This is a total cheat, but hopefully this dictionary goes # away soon anyway. We just let these expand to $TARGETS # because that's "good enough" for the use of ToolSurrogates # (see test/ToolSurrogate.py) to generate documentation. dict['CHANGED_TARGETS'] = '$TARGETS' dict['UNCHANGED_TARGETS'] = '$TARGETS' else: dict['TARGETS'] = NullNodesList dict['TARGET'] = NullNodesList if source: def get_src_subst_proxy(node): try: rfile = node.rfile except AttributeError: pass else: node = rfile() try: return node.get_subst_proxy() except AttributeError: return node # probably a String, just return it snl = NLWrapper(source, get_src_subst_proxy) dict['SOURCES'] = Targets_or_Sources(snl) dict['SOURCE'] = Target_or_Source(snl) # This is a total cheat, but hopefully this dictionary goes # away soon anyway. We just let these expand to $TARGETS # because that's "good enough" for the use of ToolSurrogates # (see test/ToolSurrogate.py) to generate documentation. dict['CHANGED_SOURCES'] = '$SOURCES' dict['UNCHANGED_SOURCES'] = '$SOURCES' else: dict['SOURCES'] = NullNodesList dict['SOURCE'] = NullNodesList return dict # Constants for the "mode" parameter to scons_subst_list() and # scons_subst(). SUBST_RAW gives the raw command line. SUBST_CMD # gives a command line suitable for passing to a shell. SUBST_SIG # gives a command line appropriate for calculating the signature # of a command line...if this changes, we should rebuild. SUBST_CMD = 0 SUBST_RAW = 1 SUBST_SIG = 2 _rm = re.compile(r'\$[()]') # Note the pattern below only matches $( or $) when there is no # preceeding $. (Thus the (?= 0: if key[0] == '{': key = key[1:-1] try: s = eval(key, self.gvars, lvars) except KeyboardInterrupt: raise except Exception as e: if e.__class__ in AllowableExceptions: return raise_exception(e, lvars['TARGETS'], s) else: if key in lvars: s = lvars[key] elif key in self.gvars: s = self.gvars[key] elif not NameError in AllowableExceptions: raise_exception(NameError(), lvars['TARGETS'], s) else: return # Before re-expanding the result, handle # recursive expansion by copying the local # variable dictionary and overwriting a null # string for the value of the variable name # we just expanded. lv = lvars.copy() var = key.split('.')[0] lv[var] = '' self.substitute(s, lv, 0) self.this_word() elif is_Sequence(s): for a in s: self.substitute(a, lvars, 1) self.next_word() elif callable(s): try: s = s(target=lvars['TARGETS'], source=lvars['SOURCES'], env=self.env, for_signature=(self.mode != SUBST_CMD)) except TypeError: # This probably indicates that it's a callable # object that doesn't match our calling arguments # (like an Action). if self.mode == SUBST_RAW: self.append(s) return s = self.conv(s) self.substitute(s, lvars, within_list) elif s is None: self.this_word() else: self.append(s) def substitute(self, args, lvars, within_list): """Substitute expansions in an argument or list of arguments. This serves as a wrapper for splitting up a string into separate tokens. """ if is_String(args) and not isinstance(args, CmdStringHolder): args = str(args) # In case it's a UserString. args = _separate_args.findall(args) for a in args: if a[0] in ' \t\n\r\f\v': if '\n' in a: self.next_line() elif within_list: self.append(a) else: self.next_word() else: self.expand(a, lvars, within_list) else: self.expand(args, lvars, within_list) def next_line(self): """Arrange for the next word to start a new line. This is like starting a new word, except that we have to append another line to the result.""" collections.UserList.append(self, []) self.next_word() def this_word(self): """Arrange for the next word to append to the end of the current last word in the result.""" self.append = self.add_to_current_word def next_word(self): """Arrange for the next word to start a new word.""" self.append = self.add_new_word def add_to_current_word(self, x): """Append the string x to the end of the current last word in the result. If that is not possible, then just add it as a new word. Make sure the entire concatenated string inherits the object attributes of x (in particular, the escape function) by wrapping it as CmdStringHolder.""" if not self.in_strip or self.mode != SUBST_SIG: try: current_word = self[-1][-1] except IndexError: self.add_new_word(x) else: # All right, this is a hack and it should probably # be refactored out of existence in the future. # The issue is that we want to smoosh words together # and make one file name that gets escaped if # we're expanding something like foo$EXTENSION, # but we don't want to smoosh them together if # it's something like >$TARGET, because then we'll # treat the '>' like it's part of the file name. # So for now, just hard-code looking for the special # command-line redirection characters... try: last_char = str(current_word)[-1] except IndexError: last_char = '\0' if last_char in '<>|': self.add_new_word(x) else: y = current_word + x # We used to treat a word appended to a literal # as a literal itself, but this caused problems # with interpreting quotes around space-separated # targets on command lines. Removing this makes # none of the "substantive" end-to-end tests fail, # so we'll take this out but leave it commented # for now in case there's a problem not covered # by the test cases and we need to resurrect this. #literal1 = self.literal(self[-1][-1]) #literal2 = self.literal(x) y = self.conv(y) if is_String(y): #y = CmdStringHolder(y, literal1 or literal2) y = CmdStringHolder(y, None) self[-1][-1] = y def add_new_word(self, x): if not self.in_strip or self.mode != SUBST_SIG: literal = self.literal(x) x = self.conv(x) if is_String(x): x = CmdStringHolder(x, literal) self[-1].append(x) self.append = self.add_to_current_word def literal(self, x): try: l = x.is_literal except AttributeError: return None else: return l() def open_strip(self, x): """Handle the "open strip" $( token.""" self.add_strip(x) self.in_strip = 1 def close_strip(self, x): """Handle the "close strip" $) token.""" self.add_strip(x) self.in_strip = None if conv is None: conv = _strconv[mode] # Doing this every time is a bit of a waste, since the Executor # has typically already populated the OverrideEnvironment with # $TARGET/$SOURCE variables. We're keeping this (for now), though, # because it supports existing behavior that allows us to call # an Action directly with an arbitrary target+source pair, which # we use in Tool/tex.py to handle calling $BIBTEX when necessary. # If we dropped that behavior (or found another way to cover it), # we could get rid of this call completely and just rely on the # Executor setting the variables. if 'TARGET' not in lvars: d = subst_dict(target, source) if d: lvars = lvars.copy() lvars.update(d) # We're (most likely) going to eval() things. If Python doesn't # find a __builtins__ value in the global dictionary used for eval(), # it copies the current global values for you. Avoid this by # setting it explicitly and then deleting, so we don't pollute the # construction environment Dictionary(ies) that are typically used # for expansion. gvars['__builtins__'] = __builtins__ ls = ListSubber(env, mode, conv, gvars) ls.substitute(strSubst, lvars, 0) try: del gvars['__builtins__'] except KeyError: pass return ls.data def scons_subst_once(strSubst, env, key): """Perform single (non-recursive) substitution of a single construction variable keyword. This is used when setting a variable when copying or overriding values in an Environment. We want to capture (expand) the old value before we override it, so people can do things like: env2 = env.Clone(CCFLAGS = '$CCFLAGS -g') We do this with some straightforward, brute-force code here... """ if isinstance(strSubst, str) and strSubst.find('$') < 0: return strSubst matchlist = ['$' + key, '${' + key + '}'] val = env.get(key, '') def sub_match(match, val=val, matchlist=matchlist): a = match.group(1) if a in matchlist: a = val if is_Sequence(a): return ' '.join(map(str, a)) else: return str(a) if is_Sequence(strSubst): result = [] for arg in strSubst: if is_String(arg): if arg in matchlist: arg = val if is_Sequence(arg): result.extend(arg) else: result.append(arg) else: result.append(_dollar_exps.sub(sub_match, arg)) else: result.append(arg) return result elif is_String(strSubst): return _dollar_exps.sub(sub_match, strSubst) else: return strSubst # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Util.py0000664000175000017500000014776513202656512017747 0ustar bdbaddogbdbaddog00000000000000"""SCons.Util Various utility functions go here. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Util.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import sys import copy import re import types import codecs import pprint PY3 = sys.version_info[0] == 3 try: from UserDict import UserDict except ImportError as e: from collections import UserDict try: from UserList import UserList except ImportError as e: from collections import UserList from collections import Iterable try: from UserString import UserString except ImportError as e: from collections import UserString # Don't "from types import ..." these because we need to get at the # types module later to look for UnicodeType. # Below not used? # InstanceType = types.InstanceType MethodType = types.MethodType FunctionType = types.FunctionType try: unicode except NameError: UnicodeType = str else: UnicodeType = unicode def dictify(keys, values, result={}): for k, v in zip(keys, values): result[k] = v return result _altsep = os.altsep if _altsep is None and sys.platform == 'win32': # My ActivePython 2.0.1 doesn't set os.altsep! What gives? _altsep = '/' if _altsep: def rightmost_separator(path, sep): return max(path.rfind(sep), path.rfind(_altsep)) else: def rightmost_separator(path, sep): return path.rfind(sep) # First two from the Python Cookbook, just for completeness. # (Yeah, yeah, YAGNI...) def containsAny(str, set): """Check whether sequence str contains ANY of the items in set.""" for c in set: if c in str: return 1 return 0 def containsAll(str, set): """Check whether sequence str contains ALL of the items in set.""" for c in set: if c not in str: return 0 return 1 def containsOnly(str, set): """Check whether sequence str contains ONLY items in set.""" for c in str: if c not in set: return 0 return 1 def splitext(path): "Same as os.path.splitext() but faster." sep = rightmost_separator(path, os.sep) dot = path.rfind('.') # An ext is only real if it has at least one non-digit char if dot > sep and not containsOnly(path[dot:], "0123456789."): return path[:dot],path[dot:] else: return path,"" def updrive(path): """ Make the drive letter (if any) upper case. This is useful because Windows is inconsistent on the case of the drive letter, which can cause inconsistencies when calculating command signatures. """ drive, rest = os.path.splitdrive(path) if drive: path = drive.upper() + rest return path class NodeList(UserList): """This class is almost exactly like a regular list of Nodes (actually it can hold any object), with one important difference. If you try to get an attribute from this list, it will return that attribute from every item in the list. For example: >>> someList = NodeList([ ' foo ', ' bar ' ]) >>> someList.strip() [ 'foo', 'bar' ] """ # def __init__(self, initlist=None): # self.data = [] # # print("TYPE:%s"%type(initlist)) # if initlist is not None: # # XXX should this accept an arbitrary sequence? # if type(initlist) == type(self.data): # self.data[:] = initlist # elif isinstance(initlist, (UserList, NodeList)): # self.data[:] = initlist.data[:] # elif isinstance(initlist, Iterable): # self.data = list(initlist) # else: # self.data = [ initlist,] def __nonzero__(self): return len(self.data) != 0 def __bool__(self): return self.__nonzero__() def __str__(self): return ' '.join(map(str, self.data)) def __iter__(self): return iter(self.data) def __call__(self, *args, **kwargs): result = [x(*args, **kwargs) for x in self.data] return self.__class__(result) def __getattr__(self, name): result = [getattr(x, name) for x in self.data] return self.__class__(result) def __getitem__(self, index): """ This comes for free on py2, but py3 slices of NodeList are returning a list breaking slicing nodelist and refering to properties and methods on contained object """ # return self.__class__(self.data[index]) if isinstance(index, slice): # Expand the slice object using range() # limited by number of items in self.data indices = index.indices(len(self.data)) return self.__class__([self[x] for x in range(*indices)]) else: # Return one item of the tart return self.data[index] _get_env_var = re.compile(r'^\$([_a-zA-Z]\w*|{[_a-zA-Z]\w*})$') def get_environment_var(varstr): """Given a string, first determine if it looks like a reference to a single environment variable, like "$FOO" or "${FOO}". If so, return that variable with no decorations ("FOO"). If not, return None.""" mo=_get_env_var.match(to_String(varstr)) if mo: var = mo.group(1) if var[0] == '{': return var[1:-1] else: return var else: return None class DisplayEngine(object): print_it = True def __call__(self, text, append_newline=1): if not self.print_it: return if append_newline: text = text + '\n' try: sys.stdout.write(UnicodeType(text)) except IOError: # Stdout might be connected to a pipe that has been closed # by now. The most likely reason for the pipe being closed # is that the user has press ctrl-c. It this is the case, # then SCons is currently shutdown. We therefore ignore # IOError's here so that SCons can continue and shutdown # properly so that the .sconsign is correctly written # before SCons exits. pass def set_mode(self, mode): self.print_it = mode def render_tree(root, child_func, prune=0, margin=[0], visited=None): """ Render a tree of nodes into an ASCII tree view. :Parameters: - `root`: the root node of the tree - `child_func`: the function called to get the children of a node - `prune`: don't visit the same node twice - `margin`: the format of the left margin to use for children of root. 1 results in a pipe, and 0 results in no pipe. - `visited`: a dictionary of visited nodes in the current branch if not prune, or in the whole tree if prune. """ rname = str(root) # Initialize 'visited' dict, if required if visited is None: visited = {} children = child_func(root) retval = "" for pipe in margin[:-1]: if pipe: retval = retval + "| " else: retval = retval + " " if rname in visited: return retval + "+-[" + rname + "]\n" retval = retval + "+-" + rname + "\n" if not prune: visited = copy.copy(visited) visited[rname] = 1 for i in range(len(children)): margin.append(i < len(children)-1) retval = retval + render_tree(children[i], child_func, prune, margin, visited) margin.pop() return retval IDX = lambda N: N and 1 or 0 def print_tree(root, child_func, prune=0, showtags=0, margin=[0], visited=None): """ Print a tree of nodes. This is like render_tree, except it prints lines directly instead of creating a string representation in memory, so that huge trees can be printed. :Parameters: - `root` - the root node of the tree - `child_func` - the function called to get the children of a node - `prune` - don't visit the same node twice - `showtags` - print status information to the left of each node line - `margin` - the format of the left margin to use for children of root. 1 results in a pipe, and 0 results in no pipe. - `visited` - a dictionary of visited nodes in the current branch if not prune, or in the whole tree if prune. """ rname = str(root) # Initialize 'visited' dict, if required if visited is None: visited = {} if showtags: if showtags == 2: legend = (' E = exists\n' + ' R = exists in repository only\n' + ' b = implicit builder\n' + ' B = explicit builder\n' + ' S = side effect\n' + ' P = precious\n' + ' A = always build\n' + ' C = current\n' + ' N = no clean\n' + ' H = no cache\n' + '\n') sys.stdout.write(legend) tags = ['['] tags.append(' E'[IDX(root.exists())]) tags.append(' R'[IDX(root.rexists() and not root.exists())]) tags.append(' BbB'[[0,1][IDX(root.has_explicit_builder())] + [0,2][IDX(root.has_builder())]]) tags.append(' S'[IDX(root.side_effect)]) tags.append(' P'[IDX(root.precious)]) tags.append(' A'[IDX(root.always_build)]) tags.append(' C'[IDX(root.is_up_to_date())]) tags.append(' N'[IDX(root.noclean)]) tags.append(' H'[IDX(root.nocache)]) tags.append(']') else: tags = [] def MMM(m): return [" ","| "][m] margins = list(map(MMM, margin[:-1])) children = child_func(root) if prune and rname in visited and children: sys.stdout.write(''.join(tags + margins + ['+-[', rname, ']']) + '\n') return sys.stdout.write(''.join(tags + margins + ['+-', rname]) + '\n') visited[rname] = 1 if children: margin.append(1) idx = IDX(showtags) for C in children[:-1]: print_tree(C, child_func, prune, idx, margin, visited) margin[-1] = 0 print_tree(children[-1], child_func, prune, idx, margin, visited) margin.pop() # Functions for deciding if things are like various types, mainly to # handle UserDict, UserList and UserString like their underlying types. # # Yes, all of this manual testing breaks polymorphism, and the real # Pythonic way to do all of this would be to just try it and handle the # exception, but handling the exception when it's not the right type is # often too slow. # We are using the following trick to speed up these # functions. Default arguments are used to take a snapshot of # the global functions and constants used by these functions. This # transforms accesses to global variable into local variables # accesses (i.e. LOAD_FAST instead of LOAD_GLOBAL). DictTypes = (dict, UserDict) ListTypes = (list, UserList) SequenceTypes = (list, tuple, UserList) # Note that profiling data shows a speed-up when comparing # explicitly with str and unicode instead of simply comparing # with basestring. (at least on Python 2.5.1) try: StringTypes = (str, unicode, UserString) except NameError: StringTypes = (str, UserString) # Empirically, it is faster to check explicitly for str and # unicode than for basestring. try: BaseStringTypes = (str, unicode) except NameError: BaseStringTypes = (str) def is_Dict(obj, isinstance=isinstance, DictTypes=DictTypes): return isinstance(obj, DictTypes) def is_List(obj, isinstance=isinstance, ListTypes=ListTypes): return isinstance(obj, ListTypes) def is_Sequence(obj, isinstance=isinstance, SequenceTypes=SequenceTypes): return isinstance(obj, SequenceTypes) def is_Tuple(obj, isinstance=isinstance, tuple=tuple): return isinstance(obj, tuple) def is_String(obj, isinstance=isinstance, StringTypes=StringTypes): return isinstance(obj, StringTypes) def is_Scalar(obj, isinstance=isinstance, StringTypes=StringTypes, SequenceTypes=SequenceTypes): # Profiling shows that there is an impressive speed-up of 2x # when explicitly checking for strings instead of just not # sequence when the argument (i.e. obj) is already a string. # But, if obj is a not string then it is twice as fast to # check only for 'not sequence'. The following code therefore # assumes that the obj argument is a string most of the time. return isinstance(obj, StringTypes) or not isinstance(obj, SequenceTypes) def do_flatten(sequence, result, isinstance=isinstance, StringTypes=StringTypes, SequenceTypes=SequenceTypes): for item in sequence: if isinstance(item, StringTypes) or not isinstance(item, SequenceTypes): result.append(item) else: do_flatten(item, result) def flatten(obj, isinstance=isinstance, StringTypes=StringTypes, SequenceTypes=SequenceTypes, do_flatten=do_flatten): """Flatten a sequence to a non-nested list. Flatten() converts either a single scalar or a nested sequence to a non-nested list. Note that flatten() considers strings to be scalars instead of sequences like Python would. """ if isinstance(obj, StringTypes) or not isinstance(obj, SequenceTypes): return [obj] result = [] for item in obj: if isinstance(item, StringTypes) or not isinstance(item, SequenceTypes): result.append(item) else: do_flatten(item, result) return result def flatten_sequence(sequence, isinstance=isinstance, StringTypes=StringTypes, SequenceTypes=SequenceTypes, do_flatten=do_flatten): """Flatten a sequence to a non-nested list. Same as flatten(), but it does not handle the single scalar case. This is slightly more efficient when one knows that the sequence to flatten can not be a scalar. """ result = [] for item in sequence: if isinstance(item, StringTypes) or not isinstance(item, SequenceTypes): result.append(item) else: do_flatten(item, result) return result # Generic convert-to-string functions that abstract away whether or # not the Python we're executing has Unicode support. The wrapper # to_String_for_signature() will use a for_signature() method if the # specified object has one. # def to_String(s, isinstance=isinstance, str=str, UserString=UserString, BaseStringTypes=BaseStringTypes): if isinstance(s,BaseStringTypes): # Early out when already a string! return s elif isinstance(s, UserString): # s.data can only be either a unicode or a regular # string. Please see the UserString initializer. return s.data else: return str(s) def to_String_for_subst(s, isinstance=isinstance, str=str, to_String=to_String, BaseStringTypes=BaseStringTypes, SequenceTypes=SequenceTypes, UserString=UserString): # Note that the test cases are sorted by order of probability. if isinstance(s, BaseStringTypes): return s elif isinstance(s, SequenceTypes): return ' '.join([to_String_for_subst(e) for e in s]) elif isinstance(s, UserString): # s.data can only be either a unicode or a regular # string. Please see the UserString initializer. return s.data else: return str(s) def to_String_for_signature(obj, to_String_for_subst=to_String_for_subst, AttributeError=AttributeError): try: f = obj.for_signature except AttributeError: if isinstance(obj, dict): # pprint will output dictionary in key sorted order # with py3.5 the order was randomized. In general depending on dictionary order # which was undefined until py3.6 (where it's by insertion order) was not wise. return pprint.pformat(obj, width=1000000) else: return to_String_for_subst(obj) else: return f() # The SCons "semi-deep" copy. # # This makes separate copies of lists (including UserList objects) # dictionaries (including UserDict objects) and tuples, but just copies # references to anything else it finds. # # A special case is any object that has a __semi_deepcopy__() method, # which we invoke to create the copy. Currently only used by # BuilderDict to actually prevent the copy operation (as invalid on that object). # # The dispatch table approach used here is a direct rip-off from the # normal Python copy module. _semi_deepcopy_dispatch = d = {} def semi_deepcopy_dict(x, exclude = [] ): copy = {} for key, val in x.items(): # The regular Python copy.deepcopy() also deepcopies the key, # as follows: # # copy[semi_deepcopy(key)] = semi_deepcopy(val) # # Doesn't seem like we need to, but we'll comment it just in case. if key not in exclude: copy[key] = semi_deepcopy(val) return copy d[dict] = semi_deepcopy_dict def _semi_deepcopy_list(x): return list(map(semi_deepcopy, x)) d[list] = _semi_deepcopy_list def _semi_deepcopy_tuple(x): return tuple(map(semi_deepcopy, x)) d[tuple] = _semi_deepcopy_tuple def semi_deepcopy(x): copier = _semi_deepcopy_dispatch.get(type(x)) if copier: return copier(x) else: if hasattr(x, '__semi_deepcopy__') and callable(x.__semi_deepcopy__): return x.__semi_deepcopy__() elif isinstance(x, UserDict): return x.__class__(semi_deepcopy_dict(x)) elif isinstance(x, UserList): return x.__class__(_semi_deepcopy_list(x)) return x class Proxy(object): """A simple generic Proxy class, forwarding all calls to subject. So, for the benefit of the python newbie, what does this really mean? Well, it means that you can take an object, let's call it 'objA', and wrap it in this Proxy class, with a statement like this proxyObj = Proxy(objA), Then, if in the future, you do something like this x = proxyObj.var1, since Proxy does not have a 'var1' attribute (but presumably objA does), the request actually is equivalent to saying x = objA.var1 Inherit from this class to create a Proxy. Note that, with new-style classes, this does *not* work transparently for Proxy subclasses that use special .__*__() method names, because those names are now bound to the class, not the individual instances. You now need to know in advance which .__*__() method names you want to pass on to the underlying Proxy object, and specifically delegate their calls like this: class Foo(Proxy): __str__ = Delegate('__str__') """ def __init__(self, subject): """Wrap an object as a Proxy object""" self._subject = subject def __getattr__(self, name): """Retrieve an attribute from the wrapped object. If the named attribute doesn't exist, AttributeError is raised""" return getattr(self._subject, name) def get(self): """Retrieve the entire wrapped object""" return self._subject def __eq__(self, other): if issubclass(other.__class__, self._subject.__class__): return self._subject == other return self.__dict__ == other.__dict__ class Delegate(object): """A Python Descriptor class that delegates attribute fetches to an underlying wrapped subject of a Proxy. Typical use: class Foo(Proxy): __str__ = Delegate('__str__') """ def __init__(self, attribute): self.attribute = attribute def __get__(self, obj, cls): if isinstance(obj, cls): return getattr(obj._subject, self.attribute) else: return self # attempt to load the windows registry module: can_read_reg = 0 try: import winreg can_read_reg = 1 hkey_mod = winreg RegOpenKeyEx = winreg.OpenKeyEx RegEnumKey = winreg.EnumKey RegEnumValue = winreg.EnumValue RegQueryValueEx = winreg.QueryValueEx RegError = winreg.error except ImportError: try: import win32api import win32con can_read_reg = 1 hkey_mod = win32con RegOpenKeyEx = win32api.RegOpenKeyEx RegEnumKey = win32api.RegEnumKey RegEnumValue = win32api.RegEnumValue RegQueryValueEx = win32api.RegQueryValueEx RegError = win32api.error except ImportError: class _NoError(Exception): pass RegError = _NoError WinError = None # Make sure we have a definition of WindowsError so we can # run platform-independent tests of Windows functionality on # platforms other than Windows. (WindowsError is, in fact, an # OSError subclass on Windows.) class PlainWindowsError(OSError): pass try: WinError = WindowsError except NameError: WinError = PlainWindowsError if can_read_reg: HKEY_CLASSES_ROOT = hkey_mod.HKEY_CLASSES_ROOT HKEY_LOCAL_MACHINE = hkey_mod.HKEY_LOCAL_MACHINE HKEY_CURRENT_USER = hkey_mod.HKEY_CURRENT_USER HKEY_USERS = hkey_mod.HKEY_USERS def RegGetValue(root, key): """This utility function returns a value in the registry without having to open the key first. Only available on Windows platforms with a version of Python that can read the registry. Returns the same thing as SCons.Util.RegQueryValueEx, except you just specify the entire path to the value, and don't have to bother opening the key first. So: Instead of: k = SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE, r'SOFTWARE\Microsoft\Windows\CurrentVersion') out = SCons.Util.RegQueryValueEx(k, 'ProgramFilesDir') You can write: out = SCons.Util.RegGetValue(SCons.Util.HKEY_LOCAL_MACHINE, r'SOFTWARE\Microsoft\Windows\CurrentVersion\ProgramFilesDir') """ # I would use os.path.split here, but it's not a filesystem # path... p = key.rfind('\\') + 1 keyp = key[:p-1] # -1 to omit trailing slash val = key[p:] k = RegOpenKeyEx(root, keyp) return RegQueryValueEx(k,val) else: HKEY_CLASSES_ROOT = None HKEY_LOCAL_MACHINE = None HKEY_CURRENT_USER = None HKEY_USERS = None def RegGetValue(root, key): raise WinError def RegOpenKeyEx(root, key): raise WinError if sys.platform == 'win32': def WhereIs(file, path=None, pathext=None, reject=[]): if path is None: try: path = os.environ['PATH'] except KeyError: return None if is_String(path): path = path.split(os.pathsep) if pathext is None: try: pathext = os.environ['PATHEXT'] except KeyError: pathext = '.COM;.EXE;.BAT;.CMD' if is_String(pathext): pathext = pathext.split(os.pathsep) for ext in pathext: if ext.lower() == file[-len(ext):].lower(): pathext = [''] break if not is_List(reject) and not is_Tuple(reject): reject = [reject] for dir in path: f = os.path.join(dir, file) for ext in pathext: fext = f + ext if os.path.isfile(fext): try: reject.index(fext) except ValueError: return os.path.normpath(fext) continue return None elif os.name == 'os2': def WhereIs(file, path=None, pathext=None, reject=[]): if path is None: try: path = os.environ['PATH'] except KeyError: return None if is_String(path): path = path.split(os.pathsep) if pathext is None: pathext = ['.exe', '.cmd'] for ext in pathext: if ext.lower() == file[-len(ext):].lower(): pathext = [''] break if not is_List(reject) and not is_Tuple(reject): reject = [reject] for dir in path: f = os.path.join(dir, file) for ext in pathext: fext = f + ext if os.path.isfile(fext): try: reject.index(fext) except ValueError: return os.path.normpath(fext) continue return None else: def WhereIs(file, path=None, pathext=None, reject=[]): import stat if path is None: try: path = os.environ['PATH'] except KeyError: return None if is_String(path): path = path.split(os.pathsep) if not is_List(reject) and not is_Tuple(reject): reject = [reject] for d in path: f = os.path.join(d, file) if os.path.isfile(f): try: st = os.stat(f) except OSError: # os.stat() raises OSError, not IOError if the file # doesn't exist, so in this case we let IOError get # raised so as to not mask possibly serious disk or # network issues. continue if stat.S_IMODE(st[stat.ST_MODE]) & 0o111: try: reject.index(f) except ValueError: return os.path.normpath(f) continue return None def PrependPath(oldpath, newpath, sep = os.pathsep, delete_existing=1, canonicalize=None): """This prepends newpath elements to the given oldpath. Will only add any particular path once (leaving the first one it encounters and ignoring the rest, to preserve path order), and will os.path.normpath and os.path.normcase all paths to help assure this. This can also handle the case where the given old path variable is a list instead of a string, in which case a list will be returned instead of a string. Example: Old Path: "/foo/bar:/foo" New Path: "/biz/boom:/foo" Result: "/biz/boom:/foo:/foo/bar" If delete_existing is 0, then adding a path that exists will not move it to the beginning; it will stay where it is in the list. If canonicalize is not None, it is applied to each element of newpath before use. """ orig = oldpath is_list = 1 paths = orig if not is_List(orig) and not is_Tuple(orig): paths = paths.split(sep) is_list = 0 if is_String(newpath): newpaths = newpath.split(sep) elif not is_List(newpath) and not is_Tuple(newpath): newpaths = [ newpath ] # might be a Dir else: newpaths = newpath if canonicalize: newpaths=list(map(canonicalize, newpaths)) if not delete_existing: # First uniquify the old paths, making sure to # preserve the first instance (in Unix/Linux, # the first one wins), and remembering them in normpaths. # Then insert the new paths at the head of the list # if they're not already in the normpaths list. result = [] normpaths = [] for path in paths: if not path: continue normpath = os.path.normpath(os.path.normcase(path)) if normpath not in normpaths: result.append(path) normpaths.append(normpath) newpaths.reverse() # since we're inserting at the head for path in newpaths: if not path: continue normpath = os.path.normpath(os.path.normcase(path)) if normpath not in normpaths: result.insert(0, path) normpaths.append(normpath) paths = result else: newpaths = newpaths + paths # prepend new paths normpaths = [] paths = [] # now we add them only if they are unique for path in newpaths: normpath = os.path.normpath(os.path.normcase(path)) if path and not normpath in normpaths: paths.append(path) normpaths.append(normpath) if is_list: return paths else: return sep.join(paths) def AppendPath(oldpath, newpath, sep = os.pathsep, delete_existing=1, canonicalize=None): """This appends new path elements to the given old path. Will only add any particular path once (leaving the last one it encounters and ignoring the rest, to preserve path order), and will os.path.normpath and os.path.normcase all paths to help assure this. This can also handle the case where the given old path variable is a list instead of a string, in which case a list will be returned instead of a string. Example: Old Path: "/foo/bar:/foo" New Path: "/biz/boom:/foo" Result: "/foo/bar:/biz/boom:/foo" If delete_existing is 0, then adding a path that exists will not move it to the end; it will stay where it is in the list. If canonicalize is not None, it is applied to each element of newpath before use. """ orig = oldpath is_list = 1 paths = orig if not is_List(orig) and not is_Tuple(orig): paths = paths.split(sep) is_list = 0 if is_String(newpath): newpaths = newpath.split(sep) elif not is_List(newpath) and not is_Tuple(newpath): newpaths = [ newpath ] # might be a Dir else: newpaths = newpath if canonicalize: newpaths=list(map(canonicalize, newpaths)) if not delete_existing: # add old paths to result, then # add new paths if not already present # (I thought about using a dict for normpaths for speed, # but it's not clear hashing the strings would be faster # than linear searching these typically short lists.) result = [] normpaths = [] for path in paths: if not path: continue result.append(path) normpaths.append(os.path.normpath(os.path.normcase(path))) for path in newpaths: if not path: continue normpath = os.path.normpath(os.path.normcase(path)) if normpath not in normpaths: result.append(path) normpaths.append(normpath) paths = result else: # start w/ new paths, add old ones if not present, # then reverse. newpaths = paths + newpaths # append new paths newpaths.reverse() normpaths = [] paths = [] # now we add them only if they are unique for path in newpaths: normpath = os.path.normpath(os.path.normcase(path)) if path and not normpath in normpaths: paths.append(path) normpaths.append(normpath) paths.reverse() if is_list: return paths else: return sep.join(paths) def AddPathIfNotExists(env_dict, key, path, sep=os.pathsep): """This function will take 'key' out of the dictionary 'env_dict', then add the path 'path' to that key if it is not already there. This treats the value of env_dict[key] as if it has a similar format to the PATH variable...a list of paths separated by tokens. The 'path' will get added to the list if it is not already there.""" try: is_list = 1 paths = env_dict[key] if not is_List(env_dict[key]): paths = paths.split(sep) is_list = 0 if os.path.normcase(path) not in list(map(os.path.normcase, paths)): paths = [ path ] + paths if is_list: env_dict[key] = paths else: env_dict[key] = sep.join(paths) except KeyError: env_dict[key] = path if sys.platform == 'cygwin': def get_native_path(path): """Transforms an absolute path into a native path for the system. In Cygwin, this converts from a Cygwin path to a Windows one.""" return os.popen('cygpath -w ' + path).read().replace('\n', '') else: def get_native_path(path): """Transforms an absolute path into a native path for the system. Non-Cygwin version, just leave the path alone.""" return path display = DisplayEngine() def Split(arg): if is_List(arg) or is_Tuple(arg): return arg elif is_String(arg): return arg.split() else: return [arg] class CLVar(UserList): """A class for command-line construction variables. This is a list that uses Split() to split an initial string along white-space arguments, and similarly to split any strings that get added. This allows us to Do the Right Thing with Append() and Prepend() (as well as straight Python foo = env['VAR'] + 'arg1 arg2') regardless of whether a user adds a list or a string to a command-line construction variable. """ def __init__(self, seq = []): UserList.__init__(self, Split(seq)) def __add__(self, other): return UserList.__add__(self, CLVar(other)) def __radd__(self, other): return UserList.__radd__(self, CLVar(other)) def __coerce__(self, other): return (self, CLVar(other)) def __str__(self): return ' '.join(self.data) # A dictionary that preserves the order in which items are added. # Submitted by David Benjamin to ActiveState's Python Cookbook web site: # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/107747 # Including fixes/enhancements from the follow-on discussions. class OrderedDict(UserDict): def __init__(self, dict = None): self._keys = [] UserDict.__init__(self, dict) def __delitem__(self, key): UserDict.__delitem__(self, key) self._keys.remove(key) def __setitem__(self, key, item): UserDict.__setitem__(self, key, item) if key not in self._keys: self._keys.append(key) def clear(self): UserDict.clear(self) self._keys = [] def copy(self): dict = OrderedDict() dict.update(self) return dict def items(self): return list(zip(self._keys, list(self.values()))) def keys(self): return self._keys[:] def popitem(self): try: key = self._keys[-1] except IndexError: raise KeyError('dictionary is empty') val = self[key] del self[key] return (key, val) def setdefault(self, key, failobj = None): UserDict.setdefault(self, key, failobj) if key not in self._keys: self._keys.append(key) def update(self, dict): for (key, val) in dict.items(): self.__setitem__(key, val) def values(self): return list(map(self.get, self._keys)) class Selector(OrderedDict): """A callable ordered dictionary that maps file suffixes to dictionary values. We preserve the order in which items are added so that get_suffix() calls always return the first suffix added.""" def __call__(self, env, source, ext=None): if ext is None: try: ext = source[0].get_suffix() except IndexError: ext = "" try: return self[ext] except KeyError: # Try to perform Environment substitution on the keys of # the dictionary before giving up. s_dict = {} for (k,v) in self.items(): if k is not None: s_k = env.subst(k) if s_k in s_dict: # We only raise an error when variables point # to the same suffix. If one suffix is literal # and a variable suffix contains this literal, # the literal wins and we don't raise an error. raise KeyError(s_dict[s_k][0], k, s_k) s_dict[s_k] = (k,v) try: return s_dict[ext][1] except KeyError: try: return self[None] except KeyError: return None if sys.platform == 'cygwin': # On Cygwin, os.path.normcase() lies, so just report back the # fact that the underlying Windows OS is case-insensitive. def case_sensitive_suffixes(s1, s2): return 0 else: def case_sensitive_suffixes(s1, s2): return (os.path.normcase(s1) != os.path.normcase(s2)) def adjustixes(fname, pre, suf, ensure_suffix=False): if pre: path, fn = os.path.split(os.path.normpath(fname)) if fn[:len(pre)] != pre: fname = os.path.join(path, pre + fn) # Only append a suffix if the suffix we're going to add isn't already # there, and if either we've been asked to ensure the specific suffix # is present or there's no suffix on it at all. if suf and fname[-len(suf):] != suf and \ (ensure_suffix or not splitext(fname)[1]): fname = fname + suf return fname # From Tim Peters, # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/52560 # ASPN: Python Cookbook: Remove duplicates from a sequence # (Also in the printed Python Cookbook.) def unique(s): """Return a list of the elements in s, but without duplicates. For example, unique([1,2,3,1,2,3]) is some permutation of [1,2,3], unique("abcabc") some permutation of ["a", "b", "c"], and unique(([1, 2], [2, 3], [1, 2])) some permutation of [[2, 3], [1, 2]]. For best speed, all sequence elements should be hashable. Then unique() will usually work in linear time. If not possible, the sequence elements should enjoy a total ordering, and if list(s).sort() doesn't raise TypeError it's assumed that they do enjoy a total ordering. Then unique() will usually work in O(N*log2(N)) time. If that's not possible either, the sequence elements must support equality-testing. Then unique() will usually work in quadratic time. """ n = len(s) if n == 0: return [] # Try using a dict first, as that's the fastest and will usually # work. If it doesn't work, it will usually fail quickly, so it # usually doesn't cost much to *try* it. It requires that all the # sequence elements be hashable, and support equality comparison. u = {} try: for x in s: u[x] = 1 except TypeError: pass # move on to the next method else: return list(u.keys()) del u # We can't hash all the elements. Second fastest is to sort, # which brings the equal elements together; then duplicates are # easy to weed out in a single pass. # NOTE: Python's list.sort() was designed to be efficient in the # presence of many duplicate elements. This isn't true of all # sort functions in all languages or libraries, so this approach # is more effective in Python than it may be elsewhere. try: t = sorted(s) except TypeError: pass # move on to the next method else: assert n > 0 last = t[0] lasti = i = 1 while i < n: if t[i] != last: t[lasti] = last = t[i] lasti = lasti + 1 i = i + 1 return t[:lasti] del t # Brute force is all that's left. u = [] for x in s: if x not in u: u.append(x) return u # From Alex Martelli, # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/52560 # ASPN: Python Cookbook: Remove duplicates from a sequence # First comment, dated 2001/10/13. # (Also in the printed Python Cookbook.) def uniquer(seq, idfun=None): if idfun is None: def idfun(x): return x seen = {} result = [] for item in seq: marker = idfun(item) # in old Python versions: # if seen.has_key(marker) # but in new ones: if marker in seen: continue seen[marker] = 1 result.append(item) return result # A more efficient implementation of Alex's uniquer(), this avoids the # idfun() argument and function-call overhead by assuming that all # items in the sequence are hashable. def uniquer_hashables(seq): seen = {} result = [] for item in seq: #if not item in seen: if item not in seen: seen[item] = 1 result.append(item) return result # Recipe 19.11 "Reading Lines with Continuation Characters", # by Alex Martelli, straight from the Python CookBook (2nd edition). def logical_lines(physical_lines, joiner=''.join): logical_line = [] for line in physical_lines: stripped = line.rstrip() if stripped.endswith('\\'): # a line which continues w/the next physical line logical_line.append(stripped[:-1]) else: # a line which does not continue, end of logical line logical_line.append(line) yield joiner(logical_line) logical_line = [] if logical_line: # end of sequence implies end of last logical line yield joiner(logical_line) class LogicalLines(object): """ Wrapper class for the logical_lines method. Allows us to read all "logical" lines at once from a given file object. """ def __init__(self, fileobj): self.fileobj = fileobj def readlines(self): result = [l for l in logical_lines(self.fileobj)] return result class UniqueList(UserList): def __init__(self, seq = []): UserList.__init__(self, seq) self.unique = True def __make_unique(self): if not self.unique: self.data = uniquer_hashables(self.data) self.unique = True def __lt__(self, other): self.__make_unique() return UserList.__lt__(self, other) def __le__(self, other): self.__make_unique() return UserList.__le__(self, other) def __eq__(self, other): self.__make_unique() return UserList.__eq__(self, other) def __ne__(self, other): self.__make_unique() return UserList.__ne__(self, other) def __gt__(self, other): self.__make_unique() return UserList.__gt__(self, other) def __ge__(self, other): self.__make_unique() return UserList.__ge__(self, other) def __cmp__(self, other): self.__make_unique() return UserList.__cmp__(self, other) def __len__(self): self.__make_unique() return UserList.__len__(self) def __getitem__(self, i): self.__make_unique() return UserList.__getitem__(self, i) def __setitem__(self, i, item): UserList.__setitem__(self, i, item) self.unique = False def __getslice__(self, i, j): self.__make_unique() return UserList.__getslice__(self, i, j) def __setslice__(self, i, j, other): UserList.__setslice__(self, i, j, other) self.unique = False def __add__(self, other): result = UserList.__add__(self, other) result.unique = False return result def __radd__(self, other): result = UserList.__radd__(self, other) result.unique = False return result def __iadd__(self, other): result = UserList.__iadd__(self, other) result.unique = False return result def __mul__(self, other): result = UserList.__mul__(self, other) result.unique = False return result def __rmul__(self, other): result = UserList.__rmul__(self, other) result.unique = False return result def __imul__(self, other): result = UserList.__imul__(self, other) result.unique = False return result def append(self, item): UserList.append(self, item) self.unique = False def insert(self, i): UserList.insert(self, i) self.unique = False def count(self, item): self.__make_unique() return UserList.count(self, item) def index(self, item): self.__make_unique() return UserList.index(self, item) def reverse(self): self.__make_unique() UserList.reverse(self) def sort(self, *args, **kwds): self.__make_unique() return UserList.sort(self, *args, **kwds) def extend(self, other): UserList.extend(self, other) self.unique = False class Unbuffered(object): """ A proxy class that wraps a file object, flushing after every write, and delegating everything else to the wrapped object. """ def __init__(self, file): self.file = file self.softspace = 0 ## backward compatibility; not supported in Py3k def write(self, arg): try: self.file.write(arg) self.file.flush() except IOError: # Stdout might be connected to a pipe that has been closed # by now. The most likely reason for the pipe being closed # is that the user has press ctrl-c. It this is the case, # then SCons is currently shutdown. We therefore ignore # IOError's here so that SCons can continue and shutdown # properly so that the .sconsign is correctly written # before SCons exits. pass def __getattr__(self, attr): return getattr(self.file, attr) def make_path_relative(path): """ makes an absolute path name to a relative pathname. """ if os.path.isabs(path): drive_s,path = os.path.splitdrive(path) import re if not drive_s: path=re.compile("/*(.*)").findall(path)[0] else: path=path[1:] assert( not os.path.isabs( path ) ), path return path # The original idea for AddMethod() and RenameFunction() come from the # following post to the ActiveState Python Cookbook: # # ASPN: Python Cookbook : Install bound methods in an instance # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/223613 # # That code was a little fragile, though, so the following changes # have been wrung on it: # # * Switched the installmethod() "object" and "function" arguments, # so the order reflects that the left-hand side is the thing being # "assigned to" and the right-hand side is the value being assigned. # # * Changed explicit type-checking to the "try: klass = object.__class__" # block in installmethod() below so that it still works with the # old-style classes that SCons uses. # # * Replaced the by-hand creation of methods and functions with use of # the "new" module, as alluded to in Alex Martelli's response to the # following Cookbook post: # # ASPN: Python Cookbook : Dynamically added methods to a class # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/81732 def AddMethod(obj, function, name=None): """ Adds either a bound method to an instance or the function itself (or an unbound method in Python 2) to a class. If name is ommited the name of the specified function is used by default. Example:: a = A() def f(self, x, y): self.z = x + y AddMethod(f, A, "add") a.add(2, 4) print(a.z) AddMethod(lambda self, i: self.l[i], a, "listIndex") print(a.listIndex(5)) """ if name is None: name = function.__name__ else: function = RenameFunction(function, name) # Note the Python version checks - WLB # Python 3.3 dropped the 3rd parameter from types.MethodType if hasattr(obj, '__class__') and obj.__class__ is not type: # "obj" is an instance, so it gets a bound method. if sys.version_info[:2] > (3, 2): method = MethodType(function, obj) else: method = MethodType(function, obj, obj.__class__) else: # Handle classes method = function setattr(obj, name, method) def RenameFunction(function, name): """ Returns a function identical to the specified function, but with the specified name. """ return FunctionType(function.__code__, function.__globals__, name, function.__defaults__) md5 = False def MD5signature(s): return str(s) def MD5filesignature(fname, chunksize=65536): with open(fname, "rb") as f: result = f.read() return result try: import hashlib except ImportError: pass else: if hasattr(hashlib, 'md5'): md5 = True def MD5signature(s): m = hashlib.md5() try: m.update(to_bytes(s)) except TypeError as e: m.update(to_bytes(str(s))) return m.hexdigest() def MD5filesignature(fname, chunksize=65536): m = hashlib.md5() f = open(fname, "rb") while True: blck = f.read(chunksize) if not blck: break m.update(to_bytes(blck)) f.close() return m.hexdigest() def MD5collect(signatures): """ Collects a list of signatures into an aggregate signature. signatures - a list of signatures returns - the aggregate signature """ if len(signatures) == 1: return signatures[0] else: return MD5signature(', '.join(signatures)) def silent_intern(x): """ Perform sys.intern() on the passed argument and return the result. If the input is ineligible (e.g. a unicode string) the original argument is returned and no exception is thrown. """ try: return sys.intern(x) except TypeError: return x # From Dinu C. Gherman, # Python Cookbook, second edition, recipe 6.17, p. 277. # Also: # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/68205 # ASPN: Python Cookbook: Null Object Design Pattern #TODO??? class Null(object): class Null(object): """ Null objects always and reliably "do nothing." """ def __new__(cls, *args, **kwargs): if not '_instance' in vars(cls): cls._instance = super(Null, cls).__new__(cls, *args, **kwargs) return cls._instance def __init__(self, *args, **kwargs): pass def __call__(self, *args, **kwargs): return self def __repr__(self): return "Null(0x%08X)" % id(self) def __nonzero__(self): return False def __bool__(self): return False def __getattr__(self, name): return self def __setattr__(self, name, value): return self def __delattr__(self, name): return self class NullSeq(Null): def __len__(self): return 0 def __iter__(self): return iter(()) def __getitem__(self, i): return self def __delitem__(self, i): return self def __setitem__(self, i, v): return self del __revision__ def to_bytes (s): if isinstance (s, (bytes, bytearray)) or bytes is str: return s return bytes (s, 'utf-8') def to_str (s): if bytes is str or is_String(s): return s return str (s, 'utf-8') # No cmp in py3, so we'll define it. def cmp(a, b): """ Define cmp because it's no longer available in python3 Works under python 2 as well """ return (a > b) - (a < b) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Variables/0000775000175000017500000000000013202656646020354 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Variables/ListVariable.py0000664000175000017500000001055413202656512023304 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Variables.ListVariable This file defines the option type for SCons implementing 'lists'. A 'list' option may either be 'all', 'none' or a list of names separated by comma. After the option has been processed, the option value holds either the named list elements, all list elements or no list elements at all. Usage example:: list_of_libs = Split('x11 gl qt ical') opts = Variables() opts.Add(ListVariable('shared', 'libraries to build as shared libraries', 'all', elems = list_of_libs)) ... for lib in list_of_libs: if lib in env['shared']: env.SharedObject(...) else: env.Object(...) """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Variables/ListVariable.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" # Known Bug: This should behave like a Set-Type, but does not really, # since elements can occur twice. __all__ = ['ListVariable',] import collections import SCons.Util class _ListVariable(collections.UserList): def __init__(self, initlist=[], allowedElems=[]): collections.UserList.__init__(self, [_f for _f in initlist if _f]) self.allowedElems = sorted(allowedElems) def __cmp__(self, other): raise NotImplementedError def __eq__(self, other): raise NotImplementedError def __ge__(self, other): raise NotImplementedError def __gt__(self, other): raise NotImplementedError def __le__(self, other): raise NotImplementedError def __lt__(self, other): raise NotImplementedError def __str__(self): if len(self) == 0: return 'none' self.data.sort() if self.data == self.allowedElems: return 'all' else: return ','.join(self) def prepare_to_store(self): return self.__str__() def _converter(val, allowedElems, mapdict): """ """ if val == 'none': val = [] elif val == 'all': val = allowedElems else: val = [_f for _f in val.split(',') if _f] val = [mapdict.get(v, v) for v in val] notAllowed = [v for v in val if not v in allowedElems] if notAllowed: raise ValueError("Invalid value(s) for option: %s" % ','.join(notAllowed)) return _ListVariable(val, allowedElems) ## def _validator(key, val, env): ## """ ## """ ## # todo: write validator for pgk list ## return 1 def ListVariable(key, help, default, names, map={}): """ The input parameters describe a 'package list' option, thus they are returned with the correct converter and validator appended. The result is usable for input to opts.Add() . A 'package list' option may either be 'all', 'none' or a list of package names (separated by space). """ names_str = 'allowed names: %s' % ' '.join(names) if SCons.Util.is_List(default): default = ','.join(default) help = '\n '.join( (help, '(all|none|comma-separated list of names)', names_str)) return (key, help, default, None, #_validator, lambda val: _converter(val, names, map)) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Variables/EnumVariable.py0000664000175000017500000000735313202656512023300 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Variables.EnumVariable This file defines the option type for SCons allowing only specified input-values. Usage example:: opts = Variables() opts.Add(EnumVariable('debug', 'debug output and symbols', 'no', allowed_values=('yes', 'no', 'full'), map={}, ignorecase=2)) ... if env['debug'] == 'full': ... """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Variables/EnumVariable.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __all__ = ['EnumVariable',] import SCons.Errors def _validator(key, val, env, vals): if not val in vals: raise SCons.Errors.UserError( 'Invalid value for option %s: %s. Valid values are: %s' % (key, val, vals)) def EnumVariable(key, help, default, allowed_values, map={}, ignorecase=0): """ The input parameters describe an option with only certain values allowed. They are returned with an appropriate converter and validator appended. The result is usable for input to Variables.Add(). 'key' and 'default' are the values to be passed on to Variables.Add(). 'help' will be appended by the allowed values automatically 'allowed_values' is a list of strings, which are allowed as values for this option. The 'map'-dictionary may be used for converting the input value into canonical values (e.g. for aliases). 'ignorecase' defines the behaviour of the validator: If ignorecase == 0, the validator/converter are case-sensitive. If ignorecase == 1, the validator/converter are case-insensitive. If ignorecase == 2, the validator/converter is case-insensitive and the converted value will always be lower-case. The 'validator' tests whether the value is in the list of allowed values. The 'converter' converts input values according to the given 'map'-dictionary (unmapped input values are returned unchanged). """ help = '%s (%s)' % (help, '|'.join(allowed_values)) # define validator if ignorecase >= 1: validator = lambda key, val, env: \ _validator(key, val.lower(), env, allowed_values) else: validator = lambda key, val, env: \ _validator(key, val, env, allowed_values) # define converter if ignorecase == 2: converter = lambda val: map.get(val.lower(), val).lower() elif ignorecase == 1: converter = lambda val: map.get(val.lower(), val) else: converter = lambda val: map.get(val, val) return (key, help, default, validator, converter) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Variables/PathVariable.py0000664000175000017500000001271413202656512023265 0ustar bdbaddogbdbaddog00000000000000"""SCons.Variables.PathVariable This file defines an option type for SCons implementing path settings. To be used whenever a user-specified path override should be allowed. Arguments to PathVariable are: option-name = name of this option on the command line (e.g. "prefix") option-help = help string for option option-dflt = default value for this option validator = [optional] validator for option value. Predefined validators are: PathAccept -- accepts any path setting; no validation PathIsDir -- path must be an existing directory PathIsDirCreate -- path must be a dir; will create PathIsFile -- path must be a file PathExists -- path must exist (any type) [default] The validator is a function that is called and which should return True or False to indicate if the path is valid. The arguments to the validator function are: (key, val, env). The key is the name of the option, the val is the path specified for the option, and the env is the env to which the Options have been added. Usage example:: Examples: prefix=/usr/local opts = Variables() opts = Variables() opts.Add(PathVariable('qtdir', 'where the root of Qt is installed', qtdir, PathIsDir)) opts.Add(PathVariable('qt_includes', 'where the Qt includes are installed', '$qtdir/includes', PathIsDirCreate)) opts.Add(PathVariable('qt_libraries', 'where the Qt library is installed', '$qtdir/lib')) """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Variables/PathVariable.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __all__ = ['PathVariable',] import os import os.path import SCons.Errors class _PathVariableClass(object): def PathAccept(self, key, val, env): """Accepts any path, no checking done.""" pass def PathIsDir(self, key, val, env): """Validator to check if Path is a directory.""" if not os.path.isdir(val): if os.path.isfile(val): m = 'Directory path for option %s is a file: %s' else: m = 'Directory path for option %s does not exist: %s' raise SCons.Errors.UserError(m % (key, val)) def PathIsDirCreate(self, key, val, env): """Validator to check if Path is a directory, creating it if it does not exist.""" if os.path.isfile(val): m = 'Path for option %s is a file, not a directory: %s' raise SCons.Errors.UserError(m % (key, val)) if not os.path.isdir(val): os.makedirs(val) def PathIsFile(self, key, val, env): """Validator to check if Path is a file""" if not os.path.isfile(val): if os.path.isdir(val): m = 'File path for option %s is a directory: %s' else: m = 'File path for option %s does not exist: %s' raise SCons.Errors.UserError(m % (key, val)) def PathExists(self, key, val, env): """Validator to check if Path exists""" if not os.path.exists(val): m = 'Path for option %s does not exist: %s' raise SCons.Errors.UserError(m % (key, val)) def __call__(self, key, help, default, validator=None): """ The input parameters describe a 'path list' option, thus they are returned with the correct converter and validator appended. The result is usable for input to opts.Add() . The 'default' option specifies the default path to use if the user does not specify an override with this option. validator is a validator, see this file for examples """ if validator is None: validator = self.PathExists if SCons.Util.is_List(key) or SCons.Util.is_Tuple(key): return (key, '%s ( /path/to/%s )' % (help, key[0]), default, validator, None) else: return (key, '%s ( /path/to/%s )' % (help, key), default, validator, None) PathVariable = _PathVariableClass() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Variables/PackageVariable.py0000664000175000017500000000707413202656512023727 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Variables.PackageVariable This file defines the option type for SCons implementing 'package activation'. To be used whenever a 'package' may be enabled/disabled and the package path may be specified. Usage example: Examples: x11=no (disables X11 support) x11=yes (will search for the package installation dir) x11=/usr/local/X11 (will check this path for existence) To replace autoconf's --with-xxx=yyy :: opts = Variables() opts.Add(PackageVariable('x11', 'use X11 installed here (yes = search some places', 'yes')) ... if env['x11'] == True: dir = ... search X11 in some standard places ... env['x11'] = dir if env['x11']: ... build with x11 ... """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Variables/PackageVariable.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __all__ = ['PackageVariable',] import SCons.Errors __enable_strings = ('1', 'yes', 'true', 'on', 'enable', 'search') __disable_strings = ('0', 'no', 'false', 'off', 'disable') def _converter(val): """ """ lval = val.lower() if lval in __enable_strings: return True if lval in __disable_strings: return False #raise ValueError("Invalid value for boolean option: %s" % val) return val def _validator(key, val, env, searchfunc): # NB: searchfunc is currently undocumented and unsupported """ """ # TODO write validator, check for path import os if env[key] is True: if searchfunc: env[key] = searchfunc(key, val) elif env[key] and not os.path.exists(val): raise SCons.Errors.UserError( 'Path does not exist for option %s: %s' % (key, val)) def PackageVariable(key, help, default, searchfunc=None): # NB: searchfunc is currently undocumented and unsupported """ The input parameters describe a 'package list' option, thus they are returned with the correct converter and validator appended. The result is usable for input to opts.Add() . A 'package list' option may either be 'all', 'none' or a list of package names (separated by space). """ help = '\n '.join( (help, '( yes | no | /path/to/%s )' % key)) return (key, help, default, lambda k, v, e: _validator(k,v,e,searchfunc), _converter) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Variables/__init__.py0000664000175000017500000002662113202656512022464 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Variables This file defines the Variables class that is used to add user-friendly customizable variables to an SCons build. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Variables/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os.path import sys from functools import cmp_to_key import SCons.Environment import SCons.Errors import SCons.Util import SCons.Warnings from .BoolVariable import BoolVariable # okay from .EnumVariable import EnumVariable # okay from .ListVariable import ListVariable # naja from .PackageVariable import PackageVariable # naja from .PathVariable import PathVariable # okay class Variables(object): instance=None """ Holds all the options, updates the environment with the variables, and renders the help text. """ def __init__(self, files=None, args=None, is_global=1): """ files - [optional] List of option configuration files to load (backward compatibility) If a single string is passed it is automatically placed in a file list """ # initialize arguments if files is None: files = [] if args is None: args = {} self.options = [] self.args = args if not SCons.Util.is_List(files): if files: files = [ files ] else: files = [] self.files = files self.unknown = {} # create the singleton instance if is_global: self=Variables.instance if not Variables.instance: Variables.instance=self def _do_add(self, key, help="", default=None, validator=None, converter=None): class Variable(object): pass option = Variable() # if we get a list or a tuple, we take the first element as the # option key and store the remaining in aliases. if SCons.Util.is_List(key) or SCons.Util.is_Tuple(key): option.key = key[0] option.aliases = key[1:] else: option.key = key option.aliases = [ key ] option.help = help option.default = default option.validator = validator option.converter = converter self.options.append(option) # options might be added after the 'unknown' dict has been set up, # so we remove the key and all its aliases from that dict for alias in list(option.aliases) + [ option.key ]: if alias in self.unknown: del self.unknown[alias] def keys(self): """ Returns the keywords for the options """ return [o.key for o in self.options] def Add(self, key, help="", default=None, validator=None, converter=None, **kw): """ Add an option. @param key: the name of the variable, or a list or tuple of arguments @param help: optional help text for the options @param default: optional default value @param validator: optional function that is called to validate the option's value @type validator: Called with (key, value, environment) @param converter: optional function that is called to convert the option's value before putting it in the environment. """ if SCons.Util.is_List(key) or isinstance(key, tuple): self._do_add(*key) return if not SCons.Util.is_String(key) or \ not SCons.Environment.is_valid_construction_var(key): raise SCons.Errors.UserError("Illegal Variables.Add() key `%s'" % str(key)) self._do_add(key, help, default, validator, converter) def AddVariables(self, *optlist): """ Add a list of options. Each list element is a tuple/list of arguments to be passed on to the underlying method for adding options. Example:: opt.AddVariables( ('debug', '', 0), ('CC', 'The C compiler'), ('VALIDATE', 'An option for testing validation', 'notset', validator, None), ) """ for o in optlist: self._do_add(*o) def Update(self, env, args=None): """ Update an environment with the option variables. env - the environment to update. """ values = {} # first set the defaults: for option in self.options: if not option.default is None: values[option.key] = option.default # next set the value specified in the options file for filename in self.files: if os.path.exists(filename): dir = os.path.split(os.path.abspath(filename))[0] if dir: sys.path.insert(0, dir) try: values['__name__'] = filename with open(filename, 'r') as f: contents = f.read() exec(contents, {}, values) finally: if dir: del sys.path[0] del values['__name__'] # set the values specified on the command line if args is None: args = self.args for arg, value in args.items(): added = False for option in self.options: if arg in list(option.aliases) + [ option.key ]: values[option.key] = value added = True if not added: self.unknown[arg] = value # put the variables in the environment: # (don't copy over variables that are not declared as options) for option in self.options: try: env[option.key] = values[option.key] except KeyError: pass # Call the convert functions: for option in self.options: if option.converter and option.key in values: value = env.subst('${%s}'%option.key) try: try: env[option.key] = option.converter(value) except TypeError: env[option.key] = option.converter(value, env) except ValueError as x: raise SCons.Errors.UserError('Error converting option: %s\n%s'%(option.key, x)) # Finally validate the values: for option in self.options: if option.validator and option.key in values: option.validator(option.key, env.subst('${%s}'%option.key), env) def UnknownVariables(self): """ Returns any options in the specified arguments lists that were not known, declared options in this object. """ return self.unknown def Save(self, filename, env): """ Saves all the options in the given file. This file can then be used to load the options next run. This can be used to create an option cache file. filename - Name of the file to save into env - the environment get the option values from """ # Create the file and write out the header try: fh = open(filename, 'w') try: # Make an assignment in the file for each option # within the environment that was assigned a value # other than the default. for option in self.options: try: value = env[option.key] try: prepare = value.prepare_to_store except AttributeError: try: eval(repr(value)) except KeyboardInterrupt: raise except: # Convert stuff that has a repr() that # cannot be evaluated into a string value = SCons.Util.to_String(value) else: value = prepare() defaultVal = env.subst(SCons.Util.to_String(option.default)) if option.converter: defaultVal = option.converter(defaultVal) if str(env.subst('${%s}' % option.key)) != str(defaultVal): fh.write('%s = %s\n' % (option.key, repr(value))) except KeyError: pass finally: fh.close() except IOError as x: raise SCons.Errors.UserError('Error writing options to file: %s\n%s' % (filename, x)) def GenerateHelpText(self, env, sort=None): """ Generate the help text for the options. env - an environment that is used to get the current values of the options. cmp - Either a function as follows: The specific sort function should take two arguments and return -1, 0 or 1 or a boolean to indicate if it should be sorted. """ if callable(sort): options = sorted(self.options, key=cmp_to_key(lambda x,y: sort(x.key,y.key))) elif sort is True: options = sorted(self.options, key=lambda x: x.key) else: options = self.options def format(opt, self=self, env=env): if opt.key in env: actual = env.subst('${%s}' % opt.key) else: actual = None return self.FormatVariableHelpText(env, opt.key, opt.help, opt.default, actual, opt.aliases) lines = [_f for _f in map(format, options) if _f] return ''.join(lines) format = '\n%s: %s\n default: %s\n actual: %s\n' format_ = '\n%s: %s\n default: %s\n actual: %s\n aliases: %s\n' def FormatVariableHelpText(self, env, key, help, default, actual, aliases=[]): # Don't display the key name itself as an alias. aliases = [a for a in aliases if a != key] if len(aliases)==0: return self.format % (key, help, default, actual) else: return self.format_ % (key, help, default, actual, aliases) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Variables/BoolVariable.py0000664000175000017500000000577113202656512023271 0ustar bdbaddogbdbaddog00000000000000"""engine.SCons.Variables.BoolVariable This file defines the option type for SCons implementing true/false values. Usage example:: opts = Variables() opts.Add(BoolVariable('embedded', 'build for an embedded system', 0)) ... if env['embedded'] == 1: ... """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Variables/BoolVariable.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __all__ = ['BoolVariable',] import SCons.Errors __true_strings = ('y', 'yes', 'true', 't', '1', 'on' , 'all' ) __false_strings = ('n', 'no', 'false', 'f', '0', 'off', 'none') def _text2bool(val): """ Converts strings to True/False depending on the 'truth' expressed by the string. If the string can't be converted, the original value will be returned. See '__true_strings' and '__false_strings' for values considered 'true' or 'false respectively. This is usable as 'converter' for SCons' Variables. """ lval = val.lower() if lval in __true_strings: return True if lval in __false_strings: return False raise ValueError("Invalid value for boolean option: %s" % val) def _validator(key, val, env): """ Validates the given value to be either '0' or '1'. This is usable as 'validator' for SCons' Variables. """ if not env[key] in (True, False): raise SCons.Errors.UserError( 'Invalid value for boolean option %s: %s' % (key, env[key])) def BoolVariable(key, help, default): """ The input parameters describe a boolean option, thus they are returned with the correct converter and validator appended. The 'help' text will by appended by '(yes|no) to show the valid valued. The result is usable for input to opts.Add(). """ return (key, '%s (yes|no)' % help, default, _validator, _text2bool) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Environment.py0000664000175000017500000027550713202656511021331 0ustar bdbaddogbdbaddog00000000000000"""SCons.Environment Base class for construction Environments. These are the primary objects used to communicate dependency and construction information to the build engine. Keyword arguments supplied when the construction Environment is created are construction variables used to initialize the Environment """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Environment.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import copy import os import sys import re import shlex from collections import UserDict import SCons.Action import SCons.Builder import SCons.Debug from SCons.Debug import logInstanceCreation import SCons.Defaults import SCons.Errors import SCons.Memoize import SCons.Node import SCons.Node.Alias import SCons.Node.FS import SCons.Node.Python import SCons.Platform import SCons.SConf import SCons.SConsign import SCons.Subst import SCons.Tool import SCons.Util import SCons.Warnings class _Null(object): pass _null = _Null _warn_copy_deprecated = True _warn_source_signatures_deprecated = True _warn_target_signatures_deprecated = True CleanTargets = {} CalculatorArgs = {} semi_deepcopy = SCons.Util.semi_deepcopy semi_deepcopy_dict = SCons.Util.semi_deepcopy_dict # Pull UserError into the global name space for the benefit of # Environment().SourceSignatures(), which has some import statements # which seem to mess up its ability to reference SCons directly. UserError = SCons.Errors.UserError def alias_builder(env, target, source): pass AliasBuilder = SCons.Builder.Builder(action = alias_builder, target_factory = SCons.Node.Alias.default_ans.Alias, source_factory = SCons.Node.FS.Entry, multi = 1, is_explicit = None, name='AliasBuilder') def apply_tools(env, tools, toolpath): # Store the toolpath in the Environment. if toolpath is not None: env['toolpath'] = toolpath if not tools: return # Filter out null tools from the list. for tool in [_f for _f in tools if _f]: if SCons.Util.is_List(tool) or isinstance(tool, tuple): toolname = tool[0] toolargs = tool[1] # should be a dict of kw args tool = env.Tool(toolname, **toolargs) else: env.Tool(tool) # These names are (or will be) controlled by SCons; users should never # set or override them. This warning can optionally be turned off, # but scons will still ignore the illegal variable names even if it's off. reserved_construction_var_names = [ 'CHANGED_SOURCES', 'CHANGED_TARGETS', 'SOURCE', 'SOURCES', 'TARGET', 'TARGETS', 'UNCHANGED_SOURCES', 'UNCHANGED_TARGETS', ] future_reserved_construction_var_names = [ #'HOST_OS', #'HOST_ARCH', #'HOST_CPU', ] def copy_non_reserved_keywords(dict): result = semi_deepcopy(dict) for k in list(result.keys()): if k in reserved_construction_var_names: msg = "Ignoring attempt to set reserved variable `$%s'" SCons.Warnings.warn(SCons.Warnings.ReservedVariableWarning, msg % k) del result[k] return result def _set_reserved(env, key, value): msg = "Ignoring attempt to set reserved variable `$%s'" SCons.Warnings.warn(SCons.Warnings.ReservedVariableWarning, msg % key) def _set_future_reserved(env, key, value): env._dict[key] = value msg = "`$%s' will be reserved in a future release and setting it will become ignored" SCons.Warnings.warn(SCons.Warnings.FutureReservedVariableWarning, msg % key) def _set_BUILDERS(env, key, value): try: bd = env._dict[key] for k in list(bd.keys()): del bd[k] except KeyError: bd = BuilderDict(kwbd, env) env._dict[key] = bd for k, v in value.items(): if not SCons.Builder.is_a_Builder(v): raise SCons.Errors.UserError('%s is not a Builder.' % repr(v)) bd.update(value) def _del_SCANNERS(env, key): del env._dict[key] env.scanner_map_delete() def _set_SCANNERS(env, key, value): env._dict[key] = value env.scanner_map_delete() def _delete_duplicates(l, keep_last): """Delete duplicates from a sequence, keeping the first or last.""" seen=set() result=[] if keep_last: # reverse in & out, then keep first l.reverse() for i in l: try: if i not in seen: result.append(i) seen.add(i) except TypeError: # probably unhashable. Just keep it. result.append(i) if keep_last: result.reverse() return result # The following is partly based on code in a comment added by Peter # Shannon at the following page (there called the "transplant" class): # # ASPN : Python Cookbook : Dynamically added methods to a class # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/81732 # # We had independently been using the idiom as BuilderWrapper, but # factoring out the common parts into this base class, and making # BuilderWrapper a subclass that overrides __call__() to enforce specific # Builder calling conventions, simplified some of our higher-layer code. class MethodWrapper(object): """ A generic Wrapper class that associates a method (which can actually be any callable) with an object. As part of creating this MethodWrapper object an attribute with the specified (by default, the name of the supplied method) is added to the underlying object. When that new "method" is called, our __call__() method adds the object as the first argument, simulating the Python behavior of supplying "self" on method calls. We hang on to the name by which the method was added to the underlying base class so that we can provide a method to "clone" ourselves onto a new underlying object being copied (without which we wouldn't need to save that info). """ def __init__(self, object, method, name=None): if name is None: name = method.__name__ self.object = object self.method = method self.name = name setattr(self.object, name, self) def __call__(self, *args, **kwargs): nargs = (self.object,) + args return self.method(*nargs, **kwargs) def clone(self, new_object): """ Returns an object that re-binds the underlying "method" to the specified new object. """ return self.__class__(new_object, self.method, self.name) class BuilderWrapper(MethodWrapper): """ A MethodWrapper subclass that that associates an environment with a Builder. This mainly exists to wrap the __call__() function so that all calls to Builders can have their argument lists massaged in the same way (treat a lone argument as the source, treat two arguments as target then source, make sure both target and source are lists) without having to have cut-and-paste code to do it. As a bit of obsessive backwards compatibility, we also intercept attempts to get or set the "env" or "builder" attributes, which were the names we used before we put the common functionality into the MethodWrapper base class. We'll keep this around for a while in case people shipped Tool modules that reached into the wrapper (like the Tool/qt.py module does, or did). There shouldn't be a lot attribute fetching or setting on these, so a little extra work shouldn't hurt. """ def __call__(self, target=None, source=_null, *args, **kw): if source is _null: source = target target = None if target is not None and not SCons.Util.is_List(target): target = [target] if source is not None and not SCons.Util.is_List(source): source = [source] return MethodWrapper.__call__(self, target, source, *args, **kw) def __repr__(self): return '' % repr(self.name) def __str__(self): return self.__repr__() def __getattr__(self, name): if name == 'env': return self.object elif name == 'builder': return self.method else: raise AttributeError(name) def __setattr__(self, name, value): if name == 'env': self.object = value elif name == 'builder': self.method = value else: self.__dict__[name] = value # This allows a Builder to be executed directly # through the Environment to which it's attached. # In practice, we shouldn't need this, because # builders actually get executed through a Node. # But we do have a unit test for this, and can't # yet rule out that it would be useful in the # future, so leave it for now. #def execute(self, **kw): # kw['env'] = self.env # self.builder.execute(**kw) class BuilderDict(UserDict): """This is a dictionary-like class used by an Environment to hold the Builders. We need to do this because every time someone changes the Builders in the Environment's BUILDERS dictionary, we must update the Environment's attributes.""" def __init__(self, dict, env): # Set self.env before calling the superclass initialization, # because it will end up calling our other methods, which will # need to point the values in this dictionary to self.env. self.env = env UserDict.__init__(self, dict) def __semi_deepcopy__(self): # These cannot be copied since they would both modify the same builder object, and indeed # just copying would modify the original builder raise TypeError( 'cannot semi_deepcopy a BuilderDict' ) def __setitem__(self, item, val): try: method = getattr(self.env, item).method except AttributeError: pass else: self.env.RemoveMethod(method) UserDict.__setitem__(self, item, val) BuilderWrapper(self.env, val, item) def __delitem__(self, item): UserDict.__delitem__(self, item) delattr(self.env, item) def update(self, dict): for i, v in dict.items(): self.__setitem__(i, v) _is_valid_var = re.compile(r'[_a-zA-Z]\w*$') def is_valid_construction_var(varstr): """Return if the specified string is a legitimate construction variable. """ return _is_valid_var.match(varstr) class SubstitutionEnvironment(object): """Base class for different flavors of construction environments. This class contains a minimal set of methods that handle construction variable expansion and conversion of strings to Nodes, which may or may not be actually useful as a stand-alone class. Which methods ended up in this class is pretty arbitrary right now. They're basically the ones which we've empirically determined are common to the different construction environment subclasses, and most of the others that use or touch the underlying dictionary of construction variables. Eventually, this class should contain all the methods that we determine are necessary for a "minimal" interface to the build engine. A full "native Python" SCons environment has gotten pretty heavyweight with all of the methods and Tools and construction variables we've jammed in there, so it would be nice to have a lighter weight alternative for interfaces that don't need all of the bells and whistles. (At some point, we'll also probably rename this class "Base," since that more reflects what we want this class to become, but because we've released comments that tell people to subclass Environment.Base to create their own flavors of construction environment, we'll save that for a future refactoring when this class actually becomes useful.) """ def __init__(self, **kw): """Initialization of an underlying SubstitutionEnvironment class. """ if SCons.Debug.track_instances: logInstanceCreation(self, 'Environment.SubstitutionEnvironment') self.fs = SCons.Node.FS.get_default_fs() self.ans = SCons.Node.Alias.default_ans self.lookup_list = SCons.Node.arg2nodes_lookups self._dict = kw.copy() self._init_special() self.added_methods = [] #self._memo = {} def _init_special(self): """Initial the dispatch tables for special handling of special construction variables.""" self._special_del = {} self._special_del['SCANNERS'] = _del_SCANNERS self._special_set = {} for key in reserved_construction_var_names: self._special_set[key] = _set_reserved for key in future_reserved_construction_var_names: self._special_set[key] = _set_future_reserved self._special_set['BUILDERS'] = _set_BUILDERS self._special_set['SCANNERS'] = _set_SCANNERS # Freeze the keys of self._special_set in a list for use by # methods that need to check. (Empirically, list scanning has # gotten better than dict.has_key() in Python 2.5.) self._special_set_keys = list(self._special_set.keys()) def __eq__(self, other): return self._dict == other._dict def __delitem__(self, key): special = self._special_del.get(key) if special: special(self, key) else: del self._dict[key] def __getitem__(self, key): return self._dict[key] def __setitem__(self, key, value): # This is heavily used. This implementation is the best we have # according to the timings in bench/env.__setitem__.py. # # The "key in self._special_set_keys" test here seems to perform # pretty well for the number of keys we have. A hard-coded # list works a little better in Python 2.5, but that has the # disadvantage of maybe getting out of sync if we ever add more # variable names. Using self._special_set.has_key() works a # little better in Python 2.4, but is worse than this test. # So right now it seems like a good trade-off, but feel free to # revisit this with bench/env.__setitem__.py as needed (and # as newer versions of Python come out). if key in self._special_set_keys: self._special_set[key](self, key, value) else: # If we already have the entry, then it's obviously a valid # key and we don't need to check. If we do check, using a # global, pre-compiled regular expression directly is more # efficient than calling another function or a method. if key not in self._dict \ and not _is_valid_var.match(key): raise SCons.Errors.UserError("Illegal construction variable `%s'" % key) self._dict[key] = value def get(self, key, default=None): """Emulates the get() method of dictionaries.""" return self._dict.get(key, default) def has_key(self, key): return key in self._dict def __contains__(self, key): return self._dict.__contains__(key) def items(self): return list(self._dict.items()) def arg2nodes(self, args, node_factory=_null, lookup_list=_null, **kw): if node_factory is _null: node_factory = self.fs.File if lookup_list is _null: lookup_list = self.lookup_list if not args: return [] args = SCons.Util.flatten(args) nodes = [] for v in args: if SCons.Util.is_String(v): n = None for l in lookup_list: n = l(v) if n is not None: break if n is not None: if SCons.Util.is_String(n): # n = self.subst(n, raw=1, **kw) kw['raw'] = 1 n = self.subst(n, **kw) if node_factory: n = node_factory(n) if SCons.Util.is_List(n): nodes.extend(n) else: nodes.append(n) elif node_factory: # v = node_factory(self.subst(v, raw=1, **kw)) kw['raw'] = 1 v = node_factory(self.subst(v, **kw)) if SCons.Util.is_List(v): nodes.extend(v) else: nodes.append(v) else: nodes.append(v) return nodes def gvars(self): return self._dict def lvars(self): return {} def subst(self, string, raw=0, target=None, source=None, conv=None, executor=None): """Recursively interpolates construction variables from the Environment into the specified string, returning the expanded result. Construction variables are specified by a $ prefix in the string and begin with an initial underscore or alphabetic character followed by any number of underscores or alphanumeric characters. The construction variable names may be surrounded by curly braces to separate the name from trailing characters. """ gvars = self.gvars() lvars = self.lvars() lvars['__env__'] = self if executor: lvars.update(executor.get_lvars()) return SCons.Subst.scons_subst(string, self, raw, target, source, gvars, lvars, conv) def subst_kw(self, kw, raw=0, target=None, source=None): nkw = {} for k, v in kw.items(): k = self.subst(k, raw, target, source) if SCons.Util.is_String(v): v = self.subst(v, raw, target, source) nkw[k] = v return nkw def subst_list(self, string, raw=0, target=None, source=None, conv=None, executor=None): """Calls through to SCons.Subst.scons_subst_list(). See the documentation for that function.""" gvars = self.gvars() lvars = self.lvars() lvars['__env__'] = self if executor: lvars.update(executor.get_lvars()) return SCons.Subst.scons_subst_list(string, self, raw, target, source, gvars, lvars, conv) def subst_path(self, path, target=None, source=None): """Substitute a path list, turning EntryProxies into Nodes and leaving Nodes (and other objects) as-is.""" if not SCons.Util.is_List(path): path = [path] def s(obj): """This is the "string conversion" routine that we have our substitutions use to return Nodes, not strings. This relies on the fact that an EntryProxy object has a get() method that returns the underlying Node that it wraps, which is a bit of architectural dependence that we might need to break or modify in the future in response to additional requirements.""" try: get = obj.get except AttributeError: obj = SCons.Util.to_String_for_subst(obj) else: obj = get() return obj r = [] for p in path: if SCons.Util.is_String(p): p = self.subst(p, target=target, source=source, conv=s) if SCons.Util.is_List(p): if len(p) == 1: p = p[0] else: # We have an object plus a string, or multiple # objects that we need to smush together. No choice # but to make them into a string. p = ''.join(map(SCons.Util.to_String_for_subst, p)) else: p = s(p) r.append(p) return r subst_target_source = subst def backtick(self, command): import subprocess # common arguments kw = { 'stdin' : 'devnull', 'stdout' : subprocess.PIPE, 'stderr' : subprocess.PIPE, 'universal_newlines' : True, } # if the command is a list, assume it's been quoted # othewise force a shell if not SCons.Util.is_List(command): kw['shell'] = True # run constructed command p = SCons.Action._subproc(self, command, **kw) out,err = p.communicate() status = p.wait() if err: sys.stderr.write(u"" + err) if status: raise OSError("'%s' exited %d" % (command, status)) return out def AddMethod(self, function, name=None): """ Adds the specified function as a method of this construction environment with the specified name. If the name is omitted, the default name is the name of the function itself. """ method = MethodWrapper(self, function, name) self.added_methods.append(method) def RemoveMethod(self, function): """ Removes the specified function's MethodWrapper from the added_methods list, so we don't re-bind it when making a clone. """ self.added_methods = [dm for dm in self.added_methods if not dm.method is function] def Override(self, overrides): """ Produce a modified environment whose variables are overridden by the overrides dictionaries. "overrides" is a dictionary that will override the variables of this environment. This function is much more efficient than Clone() or creating a new Environment because it doesn't copy the construction environment dictionary, it just wraps the underlying construction environment, and doesn't even create a wrapper object if there are no overrides. """ if not overrides: return self o = copy_non_reserved_keywords(overrides) if not o: return self overrides = {} merges = None for key, value in o.items(): if key == 'parse_flags': merges = value else: overrides[key] = SCons.Subst.scons_subst_once(value, self, key) env = OverrideEnvironment(self, overrides) if merges: env.MergeFlags(merges) return env def ParseFlags(self, *flags): """ Parse the set of flags and return a dict with the flags placed in the appropriate entry. The flags are treated as a typical set of command-line flags for a GNU-like toolchain and used to populate the entries in the dict immediately below. If one of the flag strings begins with a bang (exclamation mark), it is assumed to be a command and the rest of the string is executed; the result of that evaluation is then added to the dict. """ dict = { 'ASFLAGS' : SCons.Util.CLVar(''), 'CFLAGS' : SCons.Util.CLVar(''), 'CCFLAGS' : SCons.Util.CLVar(''), 'CXXFLAGS' : SCons.Util.CLVar(''), 'CPPDEFINES' : [], 'CPPFLAGS' : SCons.Util.CLVar(''), 'CPPPATH' : [], 'FRAMEWORKPATH' : SCons.Util.CLVar(''), 'FRAMEWORKS' : SCons.Util.CLVar(''), 'LIBPATH' : [], 'LIBS' : [], 'LINKFLAGS' : SCons.Util.CLVar(''), 'RPATH' : [], } def do_parse(arg): # if arg is a sequence, recurse with each element if not arg: return if not SCons.Util.is_String(arg): for t in arg: do_parse(t) return # if arg is a command, execute it if arg[0] == '!': arg = self.backtick(arg[1:]) # utility function to deal with -D option def append_define(name, dict = dict): t = name.split('=') if len(t) == 1: dict['CPPDEFINES'].append(name) else: dict['CPPDEFINES'].append([t[0], '='.join(t[1:])]) # Loop through the flags and add them to the appropriate option. # This tries to strike a balance between checking for all possible # flags and keeping the logic to a finite size, so it doesn't # check for some that don't occur often. It particular, if the # flag is not known to occur in a config script and there's a way # of passing the flag to the right place (by wrapping it in a -W # flag, for example) we don't check for it. Note that most # preprocessor options are not handled, since unhandled options # are placed in CCFLAGS, so unless the preprocessor is invoked # separately, these flags will still get to the preprocessor. # Other options not currently handled: # -iqoutedir (preprocessor search path) # -u symbol (linker undefined symbol) # -s (linker strip files) # -static* (linker static binding) # -shared* (linker dynamic binding) # -symbolic (linker global binding) # -R dir (deprecated linker rpath) # IBM compilers may also accept -qframeworkdir=foo params = shlex.split(arg) append_next_arg_to = None # for multi-word args for arg in params: if append_next_arg_to: if append_next_arg_to == 'CPPDEFINES': append_define(arg) elif append_next_arg_to == '-include': t = ('-include', self.fs.File(arg)) dict['CCFLAGS'].append(t) elif append_next_arg_to == '-isysroot': t = ('-isysroot', arg) dict['CCFLAGS'].append(t) dict['LINKFLAGS'].append(t) elif append_next_arg_to == '-isystem': t = ('-isystem', arg) dict['CCFLAGS'].append(t) elif append_next_arg_to == '-arch': t = ('-arch', arg) dict['CCFLAGS'].append(t) dict['LINKFLAGS'].append(t) else: dict[append_next_arg_to].append(arg) append_next_arg_to = None elif not arg[0] in ['-', '+']: dict['LIBS'].append(self.fs.File(arg)) elif arg == '-dylib_file': dict['LINKFLAGS'].append(arg) append_next_arg_to = 'LINKFLAGS' elif arg[:2] == '-L': if arg[2:]: dict['LIBPATH'].append(arg[2:]) else: append_next_arg_to = 'LIBPATH' elif arg[:2] == '-l': if arg[2:]: dict['LIBS'].append(arg[2:]) else: append_next_arg_to = 'LIBS' elif arg[:2] == '-I': if arg[2:]: dict['CPPPATH'].append(arg[2:]) else: append_next_arg_to = 'CPPPATH' elif arg[:4] == '-Wa,': dict['ASFLAGS'].append(arg[4:]) dict['CCFLAGS'].append(arg) elif arg[:4] == '-Wl,': if arg[:11] == '-Wl,-rpath=': dict['RPATH'].append(arg[11:]) elif arg[:7] == '-Wl,-R,': dict['RPATH'].append(arg[7:]) elif arg[:6] == '-Wl,-R': dict['RPATH'].append(arg[6:]) else: dict['LINKFLAGS'].append(arg) elif arg[:4] == '-Wp,': dict['CPPFLAGS'].append(arg) elif arg[:2] == '-D': if arg[2:]: append_define(arg[2:]) else: append_next_arg_to = 'CPPDEFINES' elif arg == '-framework': append_next_arg_to = 'FRAMEWORKS' elif arg[:14] == '-frameworkdir=': dict['FRAMEWORKPATH'].append(arg[14:]) elif arg[:2] == '-F': if arg[2:]: dict['FRAMEWORKPATH'].append(arg[2:]) else: append_next_arg_to = 'FRAMEWORKPATH' elif arg in ['-mno-cygwin', '-pthread', '-openmp', '-fopenmp']: dict['CCFLAGS'].append(arg) dict['LINKFLAGS'].append(arg) elif arg == '-mwindows': dict['LINKFLAGS'].append(arg) elif arg[:5] == '-std=': if arg[5:].find('++')!=-1: key='CXXFLAGS' else: key='CFLAGS' dict[key].append(arg) elif arg[0] == '+': dict['CCFLAGS'].append(arg) dict['LINKFLAGS'].append(arg) elif arg in ['-include', '-isysroot', '-isystem', '-arch']: append_next_arg_to = arg else: dict['CCFLAGS'].append(arg) for arg in flags: do_parse(arg) return dict def MergeFlags(self, args, unique=1, dict=None): """ Merge the dict in args into the construction variables of this env, or the passed-in dict. If args is not a dict, it is converted into a dict using ParseFlags. If unique is not set, the flags are appended rather than merged. """ if dict is None: dict = self if not SCons.Util.is_Dict(args): args = self.ParseFlags(args) if not unique: self.Append(**args) return self for key, value in args.items(): if not value: continue try: orig = self[key] except KeyError: orig = value else: if not orig: orig = value elif value: # Add orig and value. The logic here was lifted from # part of env.Append() (see there for a lot of comments # about the order in which things are tried) and is # used mainly to handle coercion of strings to CLVar to # "do the right thing" given (e.g.) an original CCFLAGS # string variable like '-pipe -Wall'. try: orig = orig + value except (KeyError, TypeError): try: add_to_orig = orig.append except AttributeError: value.insert(0, orig) orig = value else: add_to_orig(value) t = [] if key[-4:] == 'PATH': ### keep left-most occurence for v in orig: if v not in t: t.append(v) else: ### keep right-most occurence orig.reverse() for v in orig: if v not in t: t.insert(0, v) self[key] = t return self def default_decide_source(dependency, target, prev_ni): f = SCons.Defaults.DefaultEnvironment().decide_source return f(dependency, target, prev_ni) def default_decide_target(dependency, target, prev_ni): f = SCons.Defaults.DefaultEnvironment().decide_target return f(dependency, target, prev_ni) def default_copy_from_cache(src, dst): f = SCons.Defaults.DefaultEnvironment().copy_from_cache return f(src, dst) class Base(SubstitutionEnvironment): """Base class for "real" construction Environments. These are the primary objects used to communicate dependency and construction information to the build engine. Keyword arguments supplied when the construction Environment is created are construction variables used to initialize the Environment. """ ####################################################################### # This is THE class for interacting with the SCons build engine, # and it contains a lot of stuff, so we're going to try to keep this # a little organized by grouping the methods. ####################################################################### ####################################################################### # Methods that make an Environment act like a dictionary. These have # the expected standard names for Python mapping objects. Note that # we don't actually make an Environment a subclass of UserDict for # performance reasons. Note also that we only supply methods for # dictionary functionality that we actually need and use. ####################################################################### def __init__(self, platform=None, tools=None, toolpath=None, variables=None, parse_flags = None, **kw): """ Initialization of a basic SCons construction environment, including setting up special construction variables like BUILDER, PLATFORM, etc., and searching for and applying available Tools. Note that we do *not* call the underlying base class (SubsitutionEnvironment) initialization, because we need to initialize things in a very specific order that doesn't work with the much simpler base class initialization. """ if SCons.Debug.track_instances: logInstanceCreation(self, 'Environment.Base') self._memo = {} self.fs = SCons.Node.FS.get_default_fs() self.ans = SCons.Node.Alias.default_ans self.lookup_list = SCons.Node.arg2nodes_lookups self._dict = semi_deepcopy(SCons.Defaults.ConstructionEnvironment) self._init_special() self.added_methods = [] # We don't use AddMethod, or define these as methods in this # class, because we *don't* want these functions to be bound # methods. They need to operate independently so that the # settings will work properly regardless of whether a given # target ends up being built with a Base environment or an # OverrideEnvironment or what have you. self.decide_target = default_decide_target self.decide_source = default_decide_source self.copy_from_cache = default_copy_from_cache self._dict['BUILDERS'] = BuilderDict(self._dict['BUILDERS'], self) if platform is None: platform = self._dict.get('PLATFORM', None) if platform is None: platform = SCons.Platform.Platform() if SCons.Util.is_String(platform): platform = SCons.Platform.Platform(platform) self._dict['PLATFORM'] = str(platform) platform(self) self._dict['HOST_OS'] = self._dict.get('HOST_OS',None) self._dict['HOST_ARCH'] = self._dict.get('HOST_ARCH',None) # Now set defaults for TARGET_{OS|ARCH} self._dict['TARGET_OS'] = self._dict.get('TARGET_OS',None) self._dict['TARGET_ARCH'] = self._dict.get('TARGET_ARCH',None) # Apply the passed-in and customizable variables to the # environment before calling the tools, because they may use # some of them during initialization. if 'options' in kw: # Backwards compatibility: they may stll be using the # old "options" keyword. variables = kw['options'] del kw['options'] self.Replace(**kw) keys = list(kw.keys()) if variables: keys = keys + list(variables.keys()) variables.Update(self) save = {} for k in keys: try: save[k] = self._dict[k] except KeyError: # No value may have been set if they tried to pass in a # reserved variable name like TARGETS. pass SCons.Tool.Initializers(self) if tools is None: tools = self._dict.get('TOOLS', None) if tools is None: tools = ['default'] apply_tools(self, tools, toolpath) # Now restore the passed-in and customized variables # to the environment, since the values the user set explicitly # should override any values set by the tools. for key, val in save.items(): self._dict[key] = val # Finally, apply any flags to be merged in if parse_flags: self.MergeFlags(parse_flags) ####################################################################### # Utility methods that are primarily for internal use by SCons. # These begin with lower-case letters. ####################################################################### def get_builder(self, name): """Fetch the builder with the specified name from the environment. """ try: return self._dict['BUILDERS'][name] except KeyError: return None def get_CacheDir(self): try: path = self._CacheDir_path except AttributeError: path = SCons.Defaults.DefaultEnvironment()._CacheDir_path try: if path == self._last_CacheDir_path: return self._last_CacheDir except AttributeError: pass cd = SCons.CacheDir.CacheDir(path) self._last_CacheDir_path = path self._last_CacheDir = cd return cd def get_factory(self, factory, default='File'): """Return a factory function for creating Nodes for this construction environment. """ name = default try: is_node = issubclass(factory, SCons.Node.FS.Base) except TypeError: # The specified factory isn't a Node itself--it's # most likely None, or possibly a callable. pass else: if is_node: # The specified factory is a Node (sub)class. Try to # return the FS method that corresponds to the Node's # name--that is, we return self.fs.Dir if they want a Dir, # self.fs.File for a File, etc. try: name = factory.__name__ except AttributeError: pass else: factory = None if not factory: # They passed us None, or we picked up a name from a specified # class, so return the FS method. (Note that we *don't* # use our own self.{Dir,File} methods because that would # cause env.subst() to be called twice on the file name, # interfering with files that have $$ in them.) factory = getattr(self.fs, name) return factory @SCons.Memoize.CountMethodCall def _gsm(self): try: return self._memo['_gsm'] except KeyError: pass result = {} try: scanners = self._dict['SCANNERS'] except KeyError: pass else: # Reverse the scanner list so that, if multiple scanners # claim they can scan the same suffix, earlier scanners # in the list will overwrite later scanners, so that # the result looks like a "first match" to the user. if not SCons.Util.is_List(scanners): scanners = [scanners] else: scanners = scanners[:] # copy so reverse() doesn't mod original scanners.reverse() for scanner in scanners: for k in scanner.get_skeys(self): if k and self['PLATFORM'] == 'win32': k = k.lower() result[k] = scanner self._memo['_gsm'] = result return result def get_scanner(self, skey): """Find the appropriate scanner given a key (usually a file suffix). """ if skey and self['PLATFORM'] == 'win32': skey = skey.lower() return self._gsm().get(skey) def scanner_map_delete(self, kw=None): """Delete the cached scanner map (if we need to). """ try: del self._memo['_gsm'] except KeyError: pass def _update(self, dict): """Update an environment's values directly, bypassing the normal checks that occur when users try to set items. """ self._dict.update(dict) def get_src_sig_type(self): try: return self.src_sig_type except AttributeError: t = SCons.Defaults.DefaultEnvironment().src_sig_type self.src_sig_type = t return t def get_tgt_sig_type(self): try: return self.tgt_sig_type except AttributeError: t = SCons.Defaults.DefaultEnvironment().tgt_sig_type self.tgt_sig_type = t return t ####################################################################### # Public methods for manipulating an Environment. These begin with # upper-case letters. The essential characteristic of methods in # this section is that they do *not* have corresponding same-named # global functions. For example, a stand-alone Append() function # makes no sense, because Append() is all about appending values to # an Environment's construction variables. ####################################################################### def Append(self, **kw): """Append values to existing construction variables in an Environment. """ kw = copy_non_reserved_keywords(kw) for key, val in kw.items(): # It would be easier on the eyes to write this using # "continue" statements whenever we finish processing an item, # but Python 1.5.2 apparently doesn't let you use "continue" # within try:-except: blocks, so we have to nest our code. try: if key == 'CPPDEFINES' and SCons.Util.is_String(self._dict[key]): self._dict[key] = [self._dict[key]] orig = self._dict[key] except KeyError: # No existing variable in the environment, so just set # it to the new value. if key == 'CPPDEFINES' and SCons.Util.is_String(val): self._dict[key] = [val] else: self._dict[key] = val else: try: # Check if the original looks like a dictionary. # If it is, we can't just try adding the value because # dictionaries don't have __add__() methods, and # things like UserList will incorrectly coerce the # original dict to a list (which we don't want). update_dict = orig.update except AttributeError: try: # Most straightforward: just try to add them # together. This will work in most cases, when the # original and new values are of compatible types. self._dict[key] = orig + val except (KeyError, TypeError): try: # Check if the original is a list. add_to_orig = orig.append except AttributeError: # The original isn't a list, but the new # value is (by process of elimination), # so insert the original in the new value # (if there's one to insert) and replace # the variable with it. if orig: val.insert(0, orig) self._dict[key] = val else: # The original is a list, so append the new # value to it (if there's a value to append). if val: add_to_orig(val) else: # The original looks like a dictionary, so update it # based on what we think the value looks like. if SCons.Util.is_List(val): if key == 'CPPDEFINES': tmp = [] for (k, v) in orig.items(): if v is not None: tmp.append((k, v)) else: tmp.append((k,)) orig = tmp orig += val self._dict[key] = orig else: for v in val: orig[v] = None else: try: update_dict(val) except (AttributeError, TypeError, ValueError): if SCons.Util.is_Dict(val): for k, v in val.items(): orig[k] = v else: orig[val] = None self.scanner_map_delete(kw) # allow Dirs and strings beginning with # for top-relative # Note this uses the current env's fs (in self). def _canonicalize(self, path): if not SCons.Util.is_String(path): # typically a Dir path = str(path) if path and path[0] == '#': path = str(self.fs.Dir(path)) return path def AppendENVPath(self, name, newpath, envname = 'ENV', sep = os.pathsep, delete_existing=1): """Append path elements to the path 'name' in the 'ENV' dictionary for this environment. Will only add any particular path once, and will normpath and normcase all paths to help assure this. This can also handle the case where the env variable is a list instead of a string. If delete_existing is 0, a newpath which is already in the path will not be moved to the end (it will be left where it is). """ orig = '' if envname in self._dict and name in self._dict[envname]: orig = self._dict[envname][name] nv = SCons.Util.AppendPath(orig, newpath, sep, delete_existing, canonicalize=self._canonicalize) if envname not in self._dict: self._dict[envname] = {} self._dict[envname][name] = nv def AppendUnique(self, delete_existing=0, **kw): """Append values to existing construction variables in an Environment, if they're not already there. If delete_existing is 1, removes existing values first, so values move to end. """ kw = copy_non_reserved_keywords(kw) for key, val in kw.items(): if SCons.Util.is_List(val): val = _delete_duplicates(val, delete_existing) if key not in self._dict or self._dict[key] in ('', None): self._dict[key] = val elif SCons.Util.is_Dict(self._dict[key]) and \ SCons.Util.is_Dict(val): self._dict[key].update(val) elif SCons.Util.is_List(val): dk = self._dict[key] if key == 'CPPDEFINES': tmp = [] for i in val: if SCons.Util.is_List(i): if len(i) >= 2: tmp.append((i[0], i[1])) else: tmp.append((i[0],)) elif SCons.Util.is_Tuple(i): tmp.append(i) else: tmp.append((i,)) val = tmp # Construct a list of (key, value) tuples. if SCons.Util.is_Dict(dk): tmp = [] for (k, v) in dk.items(): if v is not None: tmp.append((k, v)) else: tmp.append((k,)) dk = tmp elif SCons.Util.is_String(dk): dk = [(dk,)] else: tmp = [] for i in dk: if SCons.Util.is_List(i): if len(i) >= 2: tmp.append((i[0], i[1])) else: tmp.append((i[0],)) elif SCons.Util.is_Tuple(i): tmp.append(i) else: tmp.append((i,)) dk = tmp else: if not SCons.Util.is_List(dk): dk = [dk] if delete_existing: dk = [x for x in dk if x not in val] else: val = [x for x in val if x not in dk] self._dict[key] = dk + val else: dk = self._dict[key] if SCons.Util.is_List(dk): if key == 'CPPDEFINES': tmp = [] for i in dk: if SCons.Util.is_List(i): if len(i) >= 2: tmp.append((i[0], i[1])) else: tmp.append((i[0],)) elif SCons.Util.is_Tuple(i): tmp.append(i) else: tmp.append((i,)) dk = tmp # Construct a list of (key, value) tuples. if SCons.Util.is_Dict(val): tmp = [] for (k, v) in val.items(): if v is not None: tmp.append((k, v)) else: tmp.append((k,)) val = tmp elif SCons.Util.is_String(val): val = [(val,)] if delete_existing: dk = list(filter(lambda x, val=val: x not in val, dk)) self._dict[key] = dk + val else: dk = [x for x in dk if x not in val] self._dict[key] = dk + val else: # By elimination, val is not a list. Since dk is a # list, wrap val in a list first. if delete_existing: dk = list(filter(lambda x, val=val: x not in val, dk)) self._dict[key] = dk + [val] else: if not val in dk: self._dict[key] = dk + [val] else: if key == 'CPPDEFINES': if SCons.Util.is_String(dk): dk = [dk] elif SCons.Util.is_Dict(dk): tmp = [] for (k, v) in dk.items(): if v is not None: tmp.append((k, v)) else: tmp.append((k,)) dk = tmp if SCons.Util.is_String(val): if val in dk: val = [] else: val = [val] elif SCons.Util.is_Dict(val): tmp = [] for i,j in val.items(): if j is not None: tmp.append((i,j)) else: tmp.append(i) val = tmp if delete_existing: dk = [x for x in dk if x not in val] self._dict[key] = dk + val self.scanner_map_delete(kw) def Clone(self, tools=[], toolpath=None, parse_flags = None, **kw): """Return a copy of a construction Environment. The copy is like a Python "deep copy"--that is, independent copies are made recursively of each objects--except that a reference is copied when an object is not deep-copyable (like a function). There are no references to any mutable objects in the original Environment. """ builders = self._dict.get('BUILDERS', {}) clone = copy.copy(self) # BUILDERS is not safe to do a simple copy clone._dict = semi_deepcopy_dict(self._dict, ['BUILDERS']) clone._dict['BUILDERS'] = BuilderDict(builders, clone) # Check the methods added via AddMethod() and re-bind them to # the cloned environment. Only do this if the attribute hasn't # been overwritten by the user explicitly and still points to # the added method. clone.added_methods = [] for mw in self.added_methods: if mw == getattr(self, mw.name): clone.added_methods.append(mw.clone(clone)) clone._memo = {} # Apply passed-in variables before the tools # so the tools can use the new variables kw = copy_non_reserved_keywords(kw) new = {} for key, value in kw.items(): new[key] = SCons.Subst.scons_subst_once(value, self, key) clone.Replace(**new) apply_tools(clone, tools, toolpath) # apply them again in case the tools overwrote them clone.Replace(**new) # Finally, apply any flags to be merged in if parse_flags: clone.MergeFlags(parse_flags) if SCons.Debug.track_instances: logInstanceCreation(self, 'Environment.EnvironmentClone') return clone def Copy(self, *args, **kw): global _warn_copy_deprecated if _warn_copy_deprecated: msg = "The env.Copy() method is deprecated; use the env.Clone() method instead." SCons.Warnings.warn(SCons.Warnings.DeprecatedCopyWarning, msg) _warn_copy_deprecated = False return self.Clone(*args, **kw) def _changed_build(self, dependency, target, prev_ni): if dependency.changed_state(target, prev_ni): return 1 return self.decide_source(dependency, target, prev_ni) def _changed_content(self, dependency, target, prev_ni): return dependency.changed_content(target, prev_ni) def _changed_source(self, dependency, target, prev_ni): target_env = dependency.get_build_env() type = target_env.get_tgt_sig_type() if type == 'source': return target_env.decide_source(dependency, target, prev_ni) else: return target_env.decide_target(dependency, target, prev_ni) def _changed_timestamp_then_content(self, dependency, target, prev_ni): return dependency.changed_timestamp_then_content(target, prev_ni) def _changed_timestamp_newer(self, dependency, target, prev_ni): return dependency.changed_timestamp_newer(target, prev_ni) def _changed_timestamp_match(self, dependency, target, prev_ni): return dependency.changed_timestamp_match(target, prev_ni) def _copy_from_cache(self, src, dst): return self.fs.copy(src, dst) def _copy2_from_cache(self, src, dst): return self.fs.copy2(src, dst) def Decider(self, function): copy_function = self._copy2_from_cache if function in ('MD5', 'content'): if not SCons.Util.md5: raise UserError("MD5 signatures are not available in this version of Python.") function = self._changed_content elif function == 'MD5-timestamp': function = self._changed_timestamp_then_content elif function in ('timestamp-newer', 'make'): function = self._changed_timestamp_newer copy_function = self._copy_from_cache elif function == 'timestamp-match': function = self._changed_timestamp_match elif not callable(function): raise UserError("Unknown Decider value %s" % repr(function)) # We don't use AddMethod because we don't want to turn the # function, which only expects three arguments, into a bound # method, which would add self as an initial, fourth argument. self.decide_target = function self.decide_source = function self.copy_from_cache = copy_function def Detect(self, progs): """Return the first available program in progs. """ if not SCons.Util.is_List(progs): progs = [ progs ] for prog in progs: path = self.WhereIs(prog) if path: return prog return None def Dictionary(self, *args): if not args: return self._dict dlist = [self._dict[x] for x in args] if len(dlist) == 1: dlist = dlist[0] return dlist def Dump(self, key = None): """ Using the standard Python pretty printer, return the contents of the scons build environment as a string. If the key passed in is anything other than None, then that will be used as an index into the build environment dictionary and whatever is found there will be fed into the pretty printer. Note that this key is case sensitive. """ import pprint pp = pprint.PrettyPrinter(indent=2) if key: dict = self.Dictionary(key) else: dict = self.Dictionary() return pp.pformat(dict) def FindIxes(self, paths, prefix, suffix): """ Search a list of paths for something that matches the prefix and suffix. paths - the list of paths or nodes. prefix - construction variable for the prefix. suffix - construction variable for the suffix. """ suffix = self.subst('$'+suffix) prefix = self.subst('$'+prefix) for path in paths: dir,name = os.path.split(str(path)) if name[:len(prefix)] == prefix and name[-len(suffix):] == suffix: return path def ParseConfig(self, command, function=None, unique=1): """ Use the specified function to parse the output of the command in order to modify the current environment. The 'command' can be a string or a list of strings representing a command and its arguments. 'Function' is an optional argument that takes the environment, the output of the command, and the unique flag. If no function is specified, MergeFlags, which treats the output as the result of a typical 'X-config' command (i.e. gtk-config), will merge the output into the appropriate variables. """ if function is None: def parse_conf(env, cmd, unique=unique): return env.MergeFlags(cmd, unique) function = parse_conf if SCons.Util.is_List(command): command = ' '.join(command) command = self.subst(command) return function(self, self.backtick(command)) def ParseDepends(self, filename, must_exist=None, only_one=0): """ Parse a mkdep-style file for explicit dependencies. This is completely abusable, and should be unnecessary in the "normal" case of proper SCons configuration, but it may help make the transition from a Make hierarchy easier for some people to swallow. It can also be genuinely useful when using a tool that can write a .d file, but for which writing a scanner would be too complicated. """ filename = self.subst(filename) try: fp = open(filename, 'r') except IOError: if must_exist: raise return lines = SCons.Util.LogicalLines(fp).readlines() lines = [l for l in lines if l[0] != '#'] tdlist = [] for line in lines: try: target, depends = line.split(':', 1) except (AttributeError, ValueError): # Throws AttributeError if line isn't a string. Can throw # ValueError if line doesn't split into two or more elements. pass else: tdlist.append((target.split(), depends.split())) if only_one: targets = [] for td in tdlist: targets.extend(td[0]) if len(targets) > 1: raise SCons.Errors.UserError( "More than one dependency target found in `%s': %s" % (filename, targets)) for target, depends in tdlist: self.Depends(target, depends) def Platform(self, platform): platform = self.subst(platform) return SCons.Platform.Platform(platform)(self) def Prepend(self, **kw): """Prepend values to existing construction variables in an Environment. """ kw = copy_non_reserved_keywords(kw) for key, val in kw.items(): # It would be easier on the eyes to write this using # "continue" statements whenever we finish processing an item, # but Python 1.5.2 apparently doesn't let you use "continue" # within try:-except: blocks, so we have to nest our code. try: orig = self._dict[key] except KeyError: # No existing variable in the environment, so just set # it to the new value. self._dict[key] = val else: try: # Check if the original looks like a dictionary. # If it is, we can't just try adding the value because # dictionaries don't have __add__() methods, and # things like UserList will incorrectly coerce the # original dict to a list (which we don't want). update_dict = orig.update except AttributeError: try: # Most straightforward: just try to add them # together. This will work in most cases, when the # original and new values are of compatible types. self._dict[key] = val + orig except (KeyError, TypeError): try: # Check if the added value is a list. add_to_val = val.append except AttributeError: # The added value isn't a list, but the # original is (by process of elimination), # so insert the the new value in the original # (if there's one to insert). if val: orig.insert(0, val) else: # The added value is a list, so append # the original to it (if there's a value # to append). if orig: add_to_val(orig) self._dict[key] = val else: # The original looks like a dictionary, so update it # based on what we think the value looks like. if SCons.Util.is_List(val): for v in val: orig[v] = None else: try: update_dict(val) except (AttributeError, TypeError, ValueError): if SCons.Util.is_Dict(val): for k, v in val.items(): orig[k] = v else: orig[val] = None self.scanner_map_delete(kw) def PrependENVPath(self, name, newpath, envname = 'ENV', sep = os.pathsep, delete_existing=1): """Prepend path elements to the path 'name' in the 'ENV' dictionary for this environment. Will only add any particular path once, and will normpath and normcase all paths to help assure this. This can also handle the case where the env variable is a list instead of a string. If delete_existing is 0, a newpath which is already in the path will not be moved to the front (it will be left where it is). """ orig = '' if envname in self._dict and name in self._dict[envname]: orig = self._dict[envname][name] nv = SCons.Util.PrependPath(orig, newpath, sep, delete_existing, canonicalize=self._canonicalize) if envname not in self._dict: self._dict[envname] = {} self._dict[envname][name] = nv def PrependUnique(self, delete_existing=0, **kw): """Prepend values to existing construction variables in an Environment, if they're not already there. If delete_existing is 1, removes existing values first, so values move to front. """ kw = copy_non_reserved_keywords(kw) for key, val in kw.items(): if SCons.Util.is_List(val): val = _delete_duplicates(val, not delete_existing) if key not in self._dict or self._dict[key] in ('', None): self._dict[key] = val elif SCons.Util.is_Dict(self._dict[key]) and \ SCons.Util.is_Dict(val): self._dict[key].update(val) elif SCons.Util.is_List(val): dk = self._dict[key] if not SCons.Util.is_List(dk): dk = [dk] if delete_existing: dk = [x for x in dk if x not in val] else: val = [x for x in val if x not in dk] self._dict[key] = val + dk else: dk = self._dict[key] if SCons.Util.is_List(dk): # By elimination, val is not a list. Since dk is a # list, wrap val in a list first. if delete_existing: dk = [x for x in dk if x not in val] self._dict[key] = [val] + dk else: if not val in dk: self._dict[key] = [val] + dk else: if delete_existing: dk = [x for x in dk if x not in val] self._dict[key] = val + dk self.scanner_map_delete(kw) def Replace(self, **kw): """Replace existing construction variables in an Environment with new construction variables and/or values. """ try: kwbd = kw['BUILDERS'] except KeyError: pass else: kwbd = BuilderDict(kwbd,self) del kw['BUILDERS'] self.__setitem__('BUILDERS', kwbd) kw = copy_non_reserved_keywords(kw) self._update(semi_deepcopy(kw)) self.scanner_map_delete(kw) def ReplaceIxes(self, path, old_prefix, old_suffix, new_prefix, new_suffix): """ Replace old_prefix with new_prefix and old_suffix with new_suffix. env - Environment used to interpolate variables. path - the path that will be modified. old_prefix - construction variable for the old prefix. old_suffix - construction variable for the old suffix. new_prefix - construction variable for the new prefix. new_suffix - construction variable for the new suffix. """ old_prefix = self.subst('$'+old_prefix) old_suffix = self.subst('$'+old_suffix) new_prefix = self.subst('$'+new_prefix) new_suffix = self.subst('$'+new_suffix) dir,name = os.path.split(str(path)) if name[:len(old_prefix)] == old_prefix: name = name[len(old_prefix):] if name[-len(old_suffix):] == old_suffix: name = name[:-len(old_suffix)] return os.path.join(dir, new_prefix+name+new_suffix) def SetDefault(self, **kw): for k in list(kw.keys()): if k in self._dict: del kw[k] self.Replace(**kw) def _find_toolpath_dir(self, tp): return self.fs.Dir(self.subst(tp)).srcnode().get_abspath() def Tool(self, tool, toolpath=None, **kw): if SCons.Util.is_String(tool): tool = self.subst(tool) if toolpath is None: toolpath = self.get('toolpath', []) toolpath = list(map(self._find_toolpath_dir, toolpath)) tool = SCons.Tool.Tool(tool, toolpath, **kw) tool(self) def WhereIs(self, prog, path=None, pathext=None, reject=[]): """Find prog in the path. """ if path is None: try: path = self['ENV']['PATH'] except KeyError: pass elif SCons.Util.is_String(path): path = self.subst(path) if pathext is None: try: pathext = self['ENV']['PATHEXT'] except KeyError: pass elif SCons.Util.is_String(pathext): pathext = self.subst(pathext) prog = SCons.Util.CLVar(self.subst(prog)) # support "program --with-args" path = SCons.Util.WhereIs(prog[0], path, pathext, reject) if path: return path return None ####################################################################### # Public methods for doing real "SCons stuff" (manipulating # dependencies, setting attributes on targets, etc.). These begin # with upper-case letters. The essential characteristic of methods # in this section is that they all *should* have corresponding # same-named global functions. ####################################################################### def Action(self, *args, **kw): def subst_string(a, self=self): if SCons.Util.is_String(a): a = self.subst(a) return a nargs = list(map(subst_string, args)) nkw = self.subst_kw(kw) return SCons.Action.Action(*nargs, **nkw) def AddPreAction(self, files, action): nodes = self.arg2nodes(files, self.fs.Entry) action = SCons.Action.Action(action) uniq = {} for executor in [n.get_executor() for n in nodes]: uniq[executor] = 1 for executor in list(uniq.keys()): executor.add_pre_action(action) return nodes def AddPostAction(self, files, action): nodes = self.arg2nodes(files, self.fs.Entry) action = SCons.Action.Action(action) uniq = {} for executor in [n.get_executor() for n in nodes]: uniq[executor] = 1 for executor in list(uniq.keys()): executor.add_post_action(action) return nodes def Alias(self, target, source=[], action=None, **kw): tlist = self.arg2nodes(target, self.ans.Alias) if not SCons.Util.is_List(source): source = [source] source = [_f for _f in source if _f] if not action: if not source: # There are no source files and no action, so just # return a target list of classic Alias Nodes, without # any builder. The externally visible effect is that # this will make the wrapping Script.BuildTask class # say that there's "Nothing to be done" for this Alias, # instead of that it's "up to date." return tlist # No action, but there are sources. Re-call all the target # builders to add the sources to each target. result = [] for t in tlist: bld = t.get_builder(AliasBuilder) result.extend(bld(self, t, source)) return result nkw = self.subst_kw(kw) nkw.update({ 'action' : SCons.Action.Action(action), 'source_factory' : self.fs.Entry, 'multi' : 1, 'is_explicit' : None, }) bld = SCons.Builder.Builder(**nkw) # Apply the Builder separately to each target so that the Aliases # stay separate. If we did one "normal" Builder call with the # whole target list, then all of the target Aliases would be # associated under a single Executor. result = [] for t in tlist: # Calling the convert() method will cause a new Executor to be # created from scratch, so we have to explicitly initialize # it with the target's existing sources, plus our new ones, # so nothing gets lost. b = t.get_builder() if b is None or b is AliasBuilder: b = bld else: nkw['action'] = b.action + action b = SCons.Builder.Builder(**nkw) t.convert() result.extend(b(self, t, t.sources + source)) return result def AlwaysBuild(self, *targets): tlist = [] for t in targets: tlist.extend(self.arg2nodes(t, self.fs.Entry)) for t in tlist: t.set_always_build() return tlist def BuildDir(self, *args, **kw): msg = """BuildDir() and the build_dir keyword have been deprecated;\n\tuse VariantDir() and the variant_dir keyword instead.""" SCons.Warnings.warn(SCons.Warnings.DeprecatedBuildDirWarning, msg) if 'build_dir' in kw: kw['variant_dir'] = kw['build_dir'] del kw['build_dir'] return self.VariantDir(*args, **kw) def Builder(self, **kw): nkw = self.subst_kw(kw) return SCons.Builder.Builder(**nkw) def CacheDir(self, path): import SCons.CacheDir if path is not None: path = self.subst(path) self._CacheDir_path = path def Clean(self, targets, files): global CleanTargets tlist = self.arg2nodes(targets, self.fs.Entry) flist = self.arg2nodes(files, self.fs.Entry) for t in tlist: try: CleanTargets[t].extend(flist) except KeyError: CleanTargets[t] = flist def Configure(self, *args, **kw): nargs = [self] if args: nargs = nargs + self.subst_list(args)[0] nkw = self.subst_kw(kw) nkw['_depth'] = kw.get('_depth', 0) + 1 try: nkw['custom_tests'] = self.subst_kw(nkw['custom_tests']) except KeyError: pass return SCons.SConf.SConf(*nargs, **nkw) def Command(self, target, source, action, **kw): """Builds the supplied target files from the supplied source files using the supplied action. Action may be any type that the Builder constructor will accept for an action.""" bkw = { 'action' : action, 'target_factory' : self.fs.Entry, 'source_factory' : self.fs.Entry, } try: bkw['source_scanner'] = kw['source_scanner'] except KeyError: pass else: del kw['source_scanner'] bld = SCons.Builder.Builder(**bkw) return bld(self, target, source, **kw) def Depends(self, target, dependency): """Explicity specify that 'target's depend on 'dependency'.""" tlist = self.arg2nodes(target, self.fs.Entry) dlist = self.arg2nodes(dependency, self.fs.Entry) for t in tlist: t.add_dependency(dlist) return tlist def Dir(self, name, *args, **kw): """ """ s = self.subst(name) if SCons.Util.is_Sequence(s): result=[] for e in s: result.append(self.fs.Dir(e, *args, **kw)) return result return self.fs.Dir(s, *args, **kw) def PyPackageDir(self, modulename): s = self.subst(modulename) if SCons.Util.is_Sequence(s): result=[] for e in s: result.append(self.fs.PyPackageDir(e)) return result return self.fs.PyPackageDir(s) def NoClean(self, *targets): """Tags a target so that it will not be cleaned by -c""" tlist = [] for t in targets: tlist.extend(self.arg2nodes(t, self.fs.Entry)) for t in tlist: t.set_noclean() return tlist def NoCache(self, *targets): """Tags a target so that it will not be cached""" tlist = [] for t in targets: tlist.extend(self.arg2nodes(t, self.fs.Entry)) for t in tlist: t.set_nocache() return tlist def Entry(self, name, *args, **kw): """ """ s = self.subst(name) if SCons.Util.is_Sequence(s): result=[] for e in s: result.append(self.fs.Entry(e, *args, **kw)) return result return self.fs.Entry(s, *args, **kw) def Environment(self, **kw): return SCons.Environment.Environment(**self.subst_kw(kw)) def Execute(self, action, *args, **kw): """Directly execute an action through an Environment """ action = self.Action(action, *args, **kw) result = action([], [], self) if isinstance(result, SCons.Errors.BuildError): errstr = result.errstr if result.filename: errstr = result.filename + ': ' + errstr sys.stderr.write("scons: *** %s\n" % errstr) return result.status else: return result def File(self, name, *args, **kw): """ """ s = self.subst(name) if SCons.Util.is_Sequence(s): result=[] for e in s: result.append(self.fs.File(e, *args, **kw)) return result return self.fs.File(s, *args, **kw) def FindFile(self, file, dirs): file = self.subst(file) nodes = self.arg2nodes(dirs, self.fs.Dir) return SCons.Node.FS.find_file(file, tuple(nodes)) def Flatten(self, sequence): return SCons.Util.flatten(sequence) def GetBuildPath(self, files): result = list(map(str, self.arg2nodes(files, self.fs.Entry))) if SCons.Util.is_List(files): return result else: return result[0] def Glob(self, pattern, ondisk=True, source=False, strings=False, exclude=None): return self.fs.Glob(self.subst(pattern), ondisk, source, strings, exclude) def Ignore(self, target, dependency): """Ignore a dependency.""" tlist = self.arg2nodes(target, self.fs.Entry) dlist = self.arg2nodes(dependency, self.fs.Entry) for t in tlist: t.add_ignore(dlist) return tlist def Literal(self, string): return SCons.Subst.Literal(string) def Local(self, *targets): ret = [] for targ in targets: if isinstance(targ, SCons.Node.Node): targ.set_local() ret.append(targ) else: for t in self.arg2nodes(targ, self.fs.Entry): t.set_local() ret.append(t) return ret def Precious(self, *targets): tlist = [] for t in targets: tlist.extend(self.arg2nodes(t, self.fs.Entry)) for t in tlist: t.set_precious() return tlist def Pseudo(self, *targets): tlist = [] for t in targets: tlist.extend(self.arg2nodes(t, self.fs.Entry)) for t in tlist: t.set_pseudo() return tlist def Repository(self, *dirs, **kw): dirs = self.arg2nodes(list(dirs), self.fs.Dir) self.fs.Repository(*dirs, **kw) def Requires(self, target, prerequisite): """Specify that 'prerequisite' must be built before 'target', (but 'target' does not actually depend on 'prerequisite' and need not be rebuilt if it changes).""" tlist = self.arg2nodes(target, self.fs.Entry) plist = self.arg2nodes(prerequisite, self.fs.Entry) for t in tlist: t.add_prerequisite(plist) return tlist def Scanner(self, *args, **kw): nargs = [] for arg in args: if SCons.Util.is_String(arg): arg = self.subst(arg) nargs.append(arg) nkw = self.subst_kw(kw) return SCons.Scanner.Base(*nargs, **nkw) def SConsignFile(self, name=".sconsign", dbm_module=None): if name is not None: name = self.subst(name) if not os.path.isabs(name): name = os.path.join(str(self.fs.SConstruct_dir), name) if name: name = os.path.normpath(name) sconsign_dir = os.path.dirname(name) if sconsign_dir and not os.path.exists(sconsign_dir): self.Execute(SCons.Defaults.Mkdir(sconsign_dir)) SCons.SConsign.File(name, dbm_module) def SideEffect(self, side_effect, target): """Tell scons that side_effects are built as side effects of building targets.""" side_effects = self.arg2nodes(side_effect, self.fs.Entry) targets = self.arg2nodes(target, self.fs.Entry) for side_effect in side_effects: if side_effect.multiple_side_effect_has_builder(): raise SCons.Errors.UserError("Multiple ways to build the same target were specified for: %s" % str(side_effect)) side_effect.add_source(targets) side_effect.side_effect = 1 self.Precious(side_effect) for target in targets: target.side_effects.append(side_effect) return side_effects def SourceCode(self, entry, builder): """Arrange for a source code builder for (part of) a tree.""" msg = """SourceCode() has been deprecated and there is no replacement. \tIf you need this function, please contact scons-dev@scons.org""" SCons.Warnings.warn(SCons.Warnings.DeprecatedSourceCodeWarning, msg) entries = self.arg2nodes(entry, self.fs.Entry) for entry in entries: entry.set_src_builder(builder) return entries def SourceSignatures(self, type): global _warn_source_signatures_deprecated if _warn_source_signatures_deprecated: msg = "The env.SourceSignatures() method is deprecated;\n" + \ "\tconvert your build to use the env.Decider() method instead." SCons.Warnings.warn(SCons.Warnings.DeprecatedSourceSignaturesWarning, msg) _warn_source_signatures_deprecated = False type = self.subst(type) self.src_sig_type = type if type == 'MD5': if not SCons.Util.md5: raise UserError("MD5 signatures are not available in this version of Python.") self.decide_source = self._changed_content elif type == 'timestamp': self.decide_source = self._changed_timestamp_match else: raise UserError("Unknown source signature type '%s'" % type) def Split(self, arg): """This function converts a string or list into a list of strings or Nodes. This makes things easier for users by allowing files to be specified as a white-space separated list to be split. The input rules are: - A single string containing names separated by spaces. These will be split apart at the spaces. - A single Node instance - A list containing either strings or Node instances. Any strings in the list are not split at spaces. In all cases, the function returns a list of Nodes and strings.""" if SCons.Util.is_List(arg): return list(map(self.subst, arg)) elif SCons.Util.is_String(arg): return self.subst(arg).split() else: return [self.subst(arg)] def TargetSignatures(self, type): global _warn_target_signatures_deprecated if _warn_target_signatures_deprecated: msg = "The env.TargetSignatures() method is deprecated;\n" + \ "\tconvert your build to use the env.Decider() method instead." SCons.Warnings.warn(SCons.Warnings.DeprecatedTargetSignaturesWarning, msg) _warn_target_signatures_deprecated = False type = self.subst(type) self.tgt_sig_type = type if type in ('MD5', 'content'): if not SCons.Util.md5: raise UserError("MD5 signatures are not available in this version of Python.") self.decide_target = self._changed_content elif type == 'timestamp': self.decide_target = self._changed_timestamp_match elif type == 'build': self.decide_target = self._changed_build elif type == 'source': self.decide_target = self._changed_source else: raise UserError("Unknown target signature type '%s'"%type) def Value(self, value, built_value=None): """ """ return SCons.Node.Python.Value(value, built_value) def VariantDir(self, variant_dir, src_dir, duplicate=1): variant_dir = self.arg2nodes(variant_dir, self.fs.Dir)[0] src_dir = self.arg2nodes(src_dir, self.fs.Dir)[0] self.fs.VariantDir(variant_dir, src_dir, duplicate) def FindSourceFiles(self, node='.'): """ returns a list of all source files. """ node = self.arg2nodes(node, self.fs.Entry)[0] sources = [] def build_source(ss): for s in ss: if isinstance(s, SCons.Node.FS.Dir): build_source(s.all_children()) elif s.has_builder(): build_source(s.sources) elif isinstance(s.disambiguate(), SCons.Node.FS.File): sources.append(s) build_source(node.all_children()) def final_source(node): while (node != node.srcnode()): node = node.srcnode() return node sources = list(map( final_source, sources )); # remove duplicates return list(set(sources)) def FindInstalledFiles(self): """ returns the list of all targets of the Install and InstallAs Builder. """ from SCons.Tool import install if install._UNIQUE_INSTALLED_FILES is None: install._UNIQUE_INSTALLED_FILES = SCons.Util.uniquer_hashables(install._INSTALLED_FILES) return install._UNIQUE_INSTALLED_FILES class OverrideEnvironment(Base): """A proxy that overrides variables in a wrapped construction environment by returning values from an overrides dictionary in preference to values from the underlying subject environment. This is a lightweight (I hope) proxy that passes through most use of attributes to the underlying Environment.Base class, but has just enough additional methods defined to act like a real construction environment with overridden values. It can wrap either a Base construction environment, or another OverrideEnvironment, which can in turn nest arbitrary OverrideEnvironments... Note that we do *not* call the underlying base class (SubsitutionEnvironment) initialization, because we get most of those from proxying the attributes of the subject construction environment. But because we subclass SubstitutionEnvironment, this class also has inherited arg2nodes() and subst*() methods; those methods can't be proxied because they need *this* object's methods to fetch the values from the overrides dictionary. """ def __init__(self, subject, overrides={}): if SCons.Debug.track_instances: logInstanceCreation(self, 'Environment.OverrideEnvironment') self.__dict__['__subject'] = subject self.__dict__['overrides'] = overrides # Methods that make this class act like a proxy. def __getattr__(self, name): return getattr(self.__dict__['__subject'], name) def __setattr__(self, name, value): setattr(self.__dict__['__subject'], name, value) # Methods that make this class act like a dictionary. def __getitem__(self, key): try: return self.__dict__['overrides'][key] except KeyError: return self.__dict__['__subject'].__getitem__(key) def __setitem__(self, key, value): if not is_valid_construction_var(key): raise SCons.Errors.UserError("Illegal construction variable `%s'" % key) self.__dict__['overrides'][key] = value def __delitem__(self, key): try: del self.__dict__['overrides'][key] except KeyError: deleted = 0 else: deleted = 1 try: result = self.__dict__['__subject'].__delitem__(key) except KeyError: if not deleted: raise result = None return result def get(self, key, default=None): """Emulates the get() method of dictionaries.""" try: return self.__dict__['overrides'][key] except KeyError: return self.__dict__['__subject'].get(key, default) def has_key(self, key): try: self.__dict__['overrides'][key] return 1 except KeyError: return key in self.__dict__['__subject'] def __contains__(self, key): if self.__dict__['overrides'].__contains__(key): return 1 return self.__dict__['__subject'].__contains__(key) def Dictionary(self): """Emulates the items() method of dictionaries.""" d = self.__dict__['__subject'].Dictionary().copy() d.update(self.__dict__['overrides']) return d def items(self): """Emulates the items() method of dictionaries.""" return list(self.Dictionary().items()) # Overridden private construction environment methods. def _update(self, dict): """Update an environment's values directly, bypassing the normal checks that occur when users try to set items. """ self.__dict__['overrides'].update(dict) def gvars(self): return self.__dict__['__subject'].gvars() def lvars(self): lvars = self.__dict__['__subject'].lvars() lvars.update(self.__dict__['overrides']) return lvars # Overridden public construction environment methods. def Replace(self, **kw): kw = copy_non_reserved_keywords(kw) self.__dict__['overrides'].update(semi_deepcopy(kw)) # The entry point that will be used by the external world # to refer to a construction environment. This allows the wrapper # interface to extend a construction environment for its own purposes # by subclassing SCons.Environment.Base and then assigning the # class to SCons.Environment.Environment. Environment = Base def NoSubstitutionProxy(subject): """ An entry point for returning a proxy subclass instance that overrides the subst*() methods so they don't actually perform construction variable substitution. This is specifically intended to be the shim layer in between global function calls (which don't want construction variable substitution) and the DefaultEnvironment() (which would substitute variables if left to its own devices). We have to wrap this in a function that allows us to delay definition of the class until it's necessary, so that when it subclasses Environment it will pick up whatever Environment subclass the wrapper interface might have assigned to SCons.Environment.Environment. """ class _NoSubstitutionProxy(Environment): def __init__(self, subject): self.__dict__['__subject'] = subject def __getattr__(self, name): return getattr(self.__dict__['__subject'], name) def __setattr__(self, name, value): return setattr(self.__dict__['__subject'], name, value) def executor_to_lvars(self, kwdict): if 'executor' in kwdict: kwdict['lvars'] = kwdict['executor'].get_lvars() del kwdict['executor'] else: kwdict['lvars'] = {} def raw_to_mode(self, dict): try: raw = dict['raw'] except KeyError: pass else: del dict['raw'] dict['mode'] = raw def subst(self, string, *args, **kwargs): return string def subst_kw(self, kw, *args, **kwargs): return kw def subst_list(self, string, *args, **kwargs): nargs = (string, self,) + args nkw = kwargs.copy() nkw['gvars'] = {} self.executor_to_lvars(nkw) self.raw_to_mode(nkw) return SCons.Subst.scons_subst_list(*nargs, **nkw) def subst_target_source(self, string, *args, **kwargs): nargs = (string, self,) + args nkw = kwargs.copy() nkw['gvars'] = {} self.executor_to_lvars(nkw) self.raw_to_mode(nkw) return SCons.Subst.scons_subst(*nargs, **nkw) return _NoSubstitutionProxy(subject) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Node/0000775000175000017500000000000013202656646017331 5ustar bdbaddogbdbaddog00000000000000scons-3.0.1/engine/SCons/Node/Alias.py0000664000175000017500000001217013202656511020724 0ustar bdbaddogbdbaddog00000000000000 """scons.Node.Alias Alias nodes. This creates a hash of global Aliases (dummy targets). """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Node/Alias.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import collections import SCons.Errors import SCons.Node import SCons.Util class AliasNameSpace(collections.UserDict): def Alias(self, name, **kw): if isinstance(name, SCons.Node.Alias.Alias): return name try: a = self[name] except KeyError: a = SCons.Node.Alias.Alias(name, **kw) self[name] = a return a def lookup(self, name, **kw): try: return self[name] except KeyError: return None class AliasNodeInfo(SCons.Node.NodeInfoBase): __slots__ = ('csig',) current_version_id = 2 field_list = ['csig'] def str_to_node(self, s): return default_ans.Alias(s) def __getstate__(self): """ Return all fields that shall be pickled. Walk the slots in the class hierarchy and add those to the state dictionary. If a '__dict__' slot is available, copy all entries to the dictionary. Also include the version id, which is fixed for all instances of a class. """ state = getattr(self, '__dict__', {}).copy() for obj in type(self).mro(): for name in getattr(obj,'__slots__',()): if hasattr(self, name): state[name] = getattr(self, name) state['_version_id'] = self.current_version_id try: del state['__weakref__'] except KeyError: pass return state def __setstate__(self, state): """ Restore the attributes from a pickled state. """ # TODO check or discard version del state['_version_id'] for key, value in state.items(): if key not in ('__weakref__',): setattr(self, key, value) class AliasBuildInfo(SCons.Node.BuildInfoBase): __slots__ = () current_version_id = 2 class Alias(SCons.Node.Node): NodeInfo = AliasNodeInfo BuildInfo = AliasBuildInfo def __init__(self, name): SCons.Node.Node.__init__(self) self.name = name self.changed_since_last_build = 1 self.store_info = 0 def str_for_display(self): return '"' + self.__str__() + '"' def __str__(self): return self.name def make_ready(self): self.get_csig() really_build = SCons.Node.Node.build is_up_to_date = SCons.Node.Node.children_are_up_to_date def is_under(self, dir): # Make Alias nodes get built regardless of # what directory scons was run from. Alias nodes # are outside the filesystem: return 1 def get_contents(self): """The contents of an alias is the concatenation of the content signatures of all its sources.""" childsigs = [n.get_csig() for n in self.children()] return ''.join(childsigs) def sconsign(self): """An Alias is not recorded in .sconsign files""" pass # # # def build(self): """A "builder" for aliases.""" pass def convert(self): try: del self.builder except AttributeError: pass self.reset_executor() self.build = self.really_build def get_csig(self): """ Generate a node's content signature, the digested signature of its content. node - the node cache - alternate node to use for the signature cache returns - the content signature """ try: return self.ninfo.csig except AttributeError: pass contents = self.get_contents() csig = SCons.Util.MD5signature(contents) self.get_ninfo().csig = csig return csig default_ans = AliasNameSpace() SCons.Node.arg2nodes_lookups.append(default_ans.lookup) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Node/Python.py0000664000175000017500000001271413202656511021160 0ustar bdbaddogbdbaddog00000000000000"""scons.Node.Python Python nodes. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/Node/Python.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import SCons.Node class ValueNodeInfo(SCons.Node.NodeInfoBase): __slots__ = ('csig',) current_version_id = 2 field_list = ['csig'] def str_to_node(self, s): return Value(s) def __getstate__(self): """ Return all fields that shall be pickled. Walk the slots in the class hierarchy and add those to the state dictionary. If a '__dict__' slot is available, copy all entries to the dictionary. Also include the version id, which is fixed for all instances of a class. """ state = getattr(self, '__dict__', {}).copy() for obj in type(self).mro(): for name in getattr(obj,'__slots__',()): if hasattr(self, name): state[name] = getattr(self, name) state['_version_id'] = self.current_version_id try: del state['__weakref__'] except KeyError: pass return state def __setstate__(self, state): """ Restore the attributes from a pickled state. """ # TODO check or discard version del state['_version_id'] for key, value in state.items(): if key not in ('__weakref__',): setattr(self, key, value) class ValueBuildInfo(SCons.Node.BuildInfoBase): __slots__ = () current_version_id = 2 class Value(SCons.Node.Node): """A class for Python variables, typically passed on the command line or generated by a script, but not from a file or some other source. """ NodeInfo = ValueNodeInfo BuildInfo = ValueBuildInfo def __init__(self, value, built_value=None): SCons.Node.Node.__init__(self) self.value = value self.changed_since_last_build = 6 self.store_info = 0 if built_value is not None: self.built_value = built_value def str_for_display(self): return repr(self.value) def __str__(self): return str(self.value) def make_ready(self): self.get_csig() def build(self, **kw): if not hasattr(self, 'built_value'): SCons.Node.Node.build(self, **kw) is_up_to_date = SCons.Node.Node.children_are_up_to_date def is_under(self, dir): # Make Value nodes get built regardless of # what directory scons was run from. Value nodes # are outside the filesystem: return 1 def write(self, built_value): """Set the value of the node.""" self.built_value = built_value def read(self): """Return the value. If necessary, the value is built.""" self.build() if not hasattr(self, 'built_value'): self.built_value = self.value return self.built_value def get_text_contents(self): """By the assumption that the node.built_value is a deterministic product of the sources, the contents of a Value are the concatenation of all the contents of its sources. As the value need not be built when get_contents() is called, we cannot use the actual node.built_value.""" ###TODO: something reasonable about universal newlines contents = str(self.value) for kid in self.children(None): contents = contents + kid.get_contents().decode() return contents def get_contents(self): text_contents = self.get_text_contents() try: return text_contents.encode() except UnicodeDecodeError: # Already encoded as python2 str are bytes return text_contents def changed_since_last_build(self, target, prev_ni): cur_csig = self.get_csig() try: return cur_csig != prev_ni.csig except AttributeError: return 1 def get_csig(self, calc=None): """Because we're a Python value node and don't have a real timestamp, we get to ignore the calculator and just use the value contents.""" try: return self.ninfo.csig except AttributeError: pass contents = self.get_contents() self.get_ninfo().csig = contents return contents # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Node/FS.py0000664000175000017500000036437413202656511020223 0ustar bdbaddogbdbaddog00000000000000"""scons.Node.FS File system nodes. These Nodes represent the canonical external objects that people think of when they think of building software: files and directories. This holds a "default_fs" variable that should be initialized with an FS that can be used by scripts or modules looking for the canonical default. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. from __future__ import print_function __revision__ = "src/engine/SCons/Node/FS.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import fnmatch import os import re import shutil import stat import sys import time import codecs import SCons.Action import SCons.Debug from SCons.Debug import logInstanceCreation import SCons.Errors import SCons.Memoize import SCons.Node import SCons.Node.Alias import SCons.Subst import SCons.Util import SCons.Warnings from SCons.Debug import Trace print_duplicate = 0 def sconsign_none(node): raise NotImplementedError def sconsign_dir(node): """Return the .sconsign file info for this directory, creating it first if necessary.""" if not node._sconsign: import SCons.SConsign node._sconsign = SCons.SConsign.ForDirectory(node) return node._sconsign _sconsign_map = {0 : sconsign_none, 1 : sconsign_dir} class EntryProxyAttributeError(AttributeError): """ An AttributeError subclass for recording and displaying the name of the underlying Entry involved in an AttributeError exception. """ def __init__(self, entry_proxy, attribute): AttributeError.__init__(self) self.entry_proxy = entry_proxy self.attribute = attribute def __str__(self): entry = self.entry_proxy.get() fmt = "%s instance %s has no attribute %s" return fmt % (entry.__class__.__name__, repr(entry.name), repr(self.attribute)) # The max_drift value: by default, use a cached signature value for # any file that's been untouched for more than two days. default_max_drift = 2*24*60*60 # # We stringify these file system Nodes a lot. Turning a file system Node # into a string is non-trivial, because the final string representation # can depend on a lot of factors: whether it's a derived target or not, # whether it's linked to a repository or source directory, and whether # there's duplication going on. The normal technique for optimizing # calculations like this is to memoize (cache) the string value, so you # only have to do the calculation once. # # A number of the above factors, however, can be set after we've already # been asked to return a string for a Node, because a Repository() or # VariantDir() call or the like may not occur until later in SConscript # files. So this variable controls whether we bother trying to save # string values for Nodes. The wrapper interface can set this whenever # they're done mucking with Repository and VariantDir and the other stuff, # to let this module know it can start returning saved string values # for Nodes. # Save_Strings = None def save_strings(val): global Save_Strings Save_Strings = val # # Avoid unnecessary function calls by recording a Boolean value that # tells us whether or not os.path.splitdrive() actually does anything # on this system, and therefore whether we need to bother calling it # when looking up path names in various methods below. # do_splitdrive = None _my_splitdrive =None def initialize_do_splitdrive(): global do_splitdrive global has_unc drive, path = os.path.splitdrive('X:/foo') has_unc = hasattr(os.path, 'splitunc') do_splitdrive = not not drive or has_unc global _my_splitdrive if has_unc: def splitdrive(p): if p[1:2] == ':': return p[:2], p[2:] if p[0:2] == '//': # Note that we leave a leading slash in the path # because UNC paths are always absolute. return '//', p[1:] return '', p else: def splitdrive(p): if p[1:2] == ':': return p[:2], p[2:] return '', p _my_splitdrive = splitdrive # Keep some commonly used values in global variables to skip to # module look-up costs. global OS_SEP global UNC_PREFIX global os_sep_is_slash OS_SEP = os.sep UNC_PREFIX = OS_SEP + OS_SEP os_sep_is_slash = OS_SEP == '/' initialize_do_splitdrive() # Used to avoid invoking os.path.normpath if not necessary. needs_normpath_check = re.compile( r''' # We need to renormalize the path if it contains any consecutive # '/' characters. .*// | # We need to renormalize the path if it contains a '..' directory. # Note that we check for all the following cases: # # a) The path is a single '..' # b) The path starts with '..'. E.g. '../' or '../moredirs' # but we not match '..abc/'. # c) The path ends with '..'. E.g. '/..' or 'dirs/..' # d) The path contains a '..' in the middle. # E.g. dirs/../moredirs (.*/)?\.\.(?:/|$) | # We need to renormalize the path if it contains a '.' # directory, but NOT if it is a single '.' '/' characters. We # do not want to match a single '.' because this case is checked # for explicitly since this is common enough case. # # Note that we check for all the following cases: # # a) We don't match a single '.' # b) We match if the path starts with '.'. E.g. './' or # './moredirs' but we not match '.abc/'. # c) We match if the path ends with '.'. E.g. '/.' or # 'dirs/.' # d) We match if the path contains a '.' in the middle. # E.g. dirs/./moredirs \./|.*/\.(?:/|$) ''', re.VERBOSE ) needs_normpath_match = needs_normpath_check.match # # SCons.Action objects for interacting with the outside world. # # The Node.FS methods in this module should use these actions to # create and/or remove files and directories; they should *not* use # os.{link,symlink,unlink,mkdir}(), etc., directly. # # Using these SCons.Action objects ensures that descriptions of these # external activities are properly displayed, that the displays are # suppressed when the -s (silent) option is used, and (most importantly) # the actions are disabled when the the -n option is used, in which case # there should be *no* changes to the external file system(s)... # # For Now disable hard & softlinks for win32 # PY3 supports them, but the rest of SCons is not ready for this # in some cases user permissions may be required. # TODO: See if theres a reasonable way to enable using links on win32/64 if hasattr(os, 'link') and sys.platform != 'win32': def _hardlink_func(fs, src, dst): # If the source is a symlink, we can't just hard-link to it # because a relative symlink may point somewhere completely # different. We must disambiguate the symlink and then # hard-link the final destination file. while fs.islink(src): link = fs.readlink(src) if not os.path.isabs(link): src = link else: src = os.path.join(os.path.dirname(src), link) fs.link(src, dst) else: _hardlink_func = None if hasattr(os, 'symlink') and sys.platform != 'win32': def _softlink_func(fs, src, dst): fs.symlink(src, dst) else: _softlink_func = None def _copy_func(fs, src, dest): shutil.copy2(src, dest) st = fs.stat(src) fs.chmod(dest, stat.S_IMODE(st[stat.ST_MODE]) | stat.S_IWRITE) Valid_Duplicates = ['hard-soft-copy', 'soft-hard-copy', 'hard-copy', 'soft-copy', 'copy'] Link_Funcs = [] # contains the callables of the specified duplication style def set_duplicate(duplicate): # Fill in the Link_Funcs list according to the argument # (discarding those not available on the platform). # Set up the dictionary that maps the argument names to the # underlying implementations. We do this inside this function, # not in the top-level module code, so that we can remap os.link # and os.symlink for testing purposes. link_dict = { 'hard' : _hardlink_func, 'soft' : _softlink_func, 'copy' : _copy_func } if not duplicate in Valid_Duplicates: raise SCons.Errors.InternalError("The argument of set_duplicate " "should be in Valid_Duplicates") global Link_Funcs Link_Funcs = [] for func in duplicate.split('-'): if link_dict[func]: Link_Funcs.append(link_dict[func]) def LinkFunc(target, source, env): # Relative paths cause problems with symbolic links, so # we use absolute paths, which may be a problem for people # who want to move their soft-linked src-trees around. Those # people should use the 'hard-copy' mode, softlinks cannot be # used for that; at least I have no idea how ... src = source[0].get_abspath() dest = target[0].get_abspath() dir, file = os.path.split(dest) if dir and not target[0].fs.isdir(dir): os.makedirs(dir) if not Link_Funcs: # Set a default order of link functions. set_duplicate('hard-soft-copy') fs = source[0].fs # Now link the files with the previously specified order. for func in Link_Funcs: try: func(fs, src, dest) break except (IOError, OSError): # An OSError indicates something happened like a permissions # problem or an attempt to symlink across file-system # boundaries. An IOError indicates something like the file # not existing. In either case, keeping trying additional # functions in the list and only raise an error if the last # one failed. if func == Link_Funcs[-1]: # exception of the last link method (copy) are fatal raise return 0 Link = SCons.Action.Action(LinkFunc, None) def LocalString(target, source, env): return 'Local copy of %s from %s' % (target[0], source[0]) LocalCopy = SCons.Action.Action(LinkFunc, LocalString) def UnlinkFunc(target, source, env): t = target[0] t.fs.unlink(t.get_abspath()) return 0 Unlink = SCons.Action.Action(UnlinkFunc, None) def MkdirFunc(target, source, env): t = target[0] if not t.exists(): t.fs.mkdir(t.get_abspath()) return 0 Mkdir = SCons.Action.Action(MkdirFunc, None, presub=None) MkdirBuilder = None def get_MkdirBuilder(): global MkdirBuilder if MkdirBuilder is None: import SCons.Builder import SCons.Defaults # "env" will get filled in by Executor.get_build_env() # calling SCons.Defaults.DefaultEnvironment() when necessary. MkdirBuilder = SCons.Builder.Builder(action = Mkdir, env = None, explain = None, is_explicit = None, target_scanner = SCons.Defaults.DirEntryScanner, name = "MkdirBuilder") return MkdirBuilder class _Null(object): pass _null = _Null() # Cygwin's os.path.normcase pretends it's on a case-sensitive filesystem. _is_cygwin = sys.platform == "cygwin" if os.path.normcase("TeSt") == os.path.normpath("TeSt") and not _is_cygwin: def _my_normcase(x): return x else: def _my_normcase(x): return x.upper() class DiskChecker(object): def __init__(self, type, do, ignore): self.type = type self.do = do self.ignore = ignore self.func = do def __call__(self, *args, **kw): return self.func(*args, **kw) def set(self, list): if self.type in list: self.func = self.do else: self.func = self.ignore def do_diskcheck_match(node, predicate, errorfmt): result = predicate() try: # If calling the predicate() cached a None value from stat(), # remove it so it doesn't interfere with later attempts to # build this Node as we walk the DAG. (This isn't a great way # to do this, we're reaching into an interface that doesn't # really belong to us, but it's all about performance, so # for now we'll just document the dependency...) if node._memo['stat'] is None: del node._memo['stat'] except (AttributeError, KeyError): pass if result: raise TypeError(errorfmt % node.get_abspath()) def ignore_diskcheck_match(node, predicate, errorfmt): pass diskcheck_match = DiskChecker('match', do_diskcheck_match, ignore_diskcheck_match) diskcheckers = [ diskcheck_match, ] def set_diskcheck(list): for dc in diskcheckers: dc.set(list) def diskcheck_types(): return [dc.type for dc in diskcheckers] class EntryProxy(SCons.Util.Proxy): __str__ = SCons.Util.Delegate('__str__') # In PY3 if a class defines __eq__, then it must explicitly provide # __hash__. Since SCons.Util.Proxy provides __eq__ we need the following # see: https://docs.python.org/3.1/reference/datamodel.html#object.__hash__ __hash__ = SCons.Util.Delegate('__hash__') def __get_abspath(self): entry = self.get() return SCons.Subst.SpecialAttrWrapper(entry.get_abspath(), entry.name + "_abspath") def __get_filebase(self): name = self.get().name return SCons.Subst.SpecialAttrWrapper(SCons.Util.splitext(name)[0], name + "_filebase") def __get_suffix(self): name = self.get().name return SCons.Subst.SpecialAttrWrapper(SCons.Util.splitext(name)[1], name + "_suffix") def __get_file(self): name = self.get().name return SCons.Subst.SpecialAttrWrapper(name, name + "_file") def __get_base_path(self): """Return the file's directory and file name, with the suffix stripped.""" entry = self.get() return SCons.Subst.SpecialAttrWrapper(SCons.Util.splitext(entry.get_path())[0], entry.name + "_base") def __get_posix_path(self): """Return the path with / as the path separator, regardless of platform.""" if os_sep_is_slash: return self else: entry = self.get() r = entry.get_path().replace(OS_SEP, '/') return SCons.Subst.SpecialAttrWrapper(r, entry.name + "_posix") def __get_windows_path(self): """Return the path with \ as the path separator, regardless of platform.""" if OS_SEP == '\\': return self else: entry = self.get() r = entry.get_path().replace(OS_SEP, '\\') return SCons.Subst.SpecialAttrWrapper(r, entry.name + "_windows") def __get_srcnode(self): return EntryProxy(self.get().srcnode()) def __get_srcdir(self): """Returns the directory containing the source node linked to this node via VariantDir(), or the directory of this node if not linked.""" return EntryProxy(self.get().srcnode().dir) def __get_rsrcnode(self): return EntryProxy(self.get().srcnode().rfile()) def __get_rsrcdir(self): """Returns the directory containing the source node linked to this node via VariantDir(), or the directory of this node if not linked.""" return EntryProxy(self.get().srcnode().rfile().dir) def __get_dir(self): return EntryProxy(self.get().dir) dictSpecialAttrs = { "base" : __get_base_path, "posix" : __get_posix_path, "windows" : __get_windows_path, "win32" : __get_windows_path, "srcpath" : __get_srcnode, "srcdir" : __get_srcdir, "dir" : __get_dir, "abspath" : __get_abspath, "filebase" : __get_filebase, "suffix" : __get_suffix, "file" : __get_file, "rsrcpath" : __get_rsrcnode, "rsrcdir" : __get_rsrcdir, } def __getattr__(self, name): # This is how we implement the "special" attributes # such as base, posix, srcdir, etc. try: attr_function = self.dictSpecialAttrs[name] except KeyError: try: attr = SCons.Util.Proxy.__getattr__(self, name) except AttributeError as e: # Raise our own AttributeError subclass with an # overridden __str__() method that identifies the # name of the entry that caused the exception. raise EntryProxyAttributeError(self, name) return attr else: return attr_function(self) class Base(SCons.Node.Node): """A generic class for file system entries. This class is for when we don't know yet whether the entry being looked up is a file or a directory. Instances of this class can morph into either Dir or File objects by a later, more precise lookup. Note: this class does not define __cmp__ and __hash__ for efficiency reasons. SCons does a lot of comparing of Node.FS.{Base,Entry,File,Dir} objects, so those operations must be as fast as possible, which means we want to use Python's built-in object identity comparisons. """ __slots__ = ['name', 'fs', '_abspath', '_labspath', '_path', '_tpath', '_path_elements', 'dir', 'cwd', 'duplicate', '_local', 'sbuilder', '_proxy', '_func_sconsign'] def __init__(self, name, directory, fs): """Initialize a generic Node.FS.Base object. Call the superclass initialization, take care of setting up our relative and absolute paths, identify our parent directory, and indicate that this node should use signatures.""" if SCons.Debug.track_instances: logInstanceCreation(self, 'Node.FS.Base') SCons.Node.Node.__init__(self) # Filenames and paths are probably reused and are intern'ed to save some memory. # Filename with extension as it was specified when the object was # created; to obtain filesystem path, use Python str() function self.name = SCons.Util.silent_intern(name) self.fs = fs #: Reference to parent Node.FS object assert directory, "A directory must be provided" self._abspath = None self._labspath = None self._path = None self._tpath = None self._path_elements = None self.dir = directory self.cwd = None # will hold the SConscript directory for target nodes self.duplicate = directory.duplicate self.changed_since_last_build = 2 self._func_sconsign = 0 self._func_exists = 2 self._func_rexists = 2 self._func_get_contents = 0 self._func_target_from_source = 1 self.store_info = 1 def str_for_display(self): return '"' + self.__str__() + '"' def must_be_same(self, klass): """ This node, which already existed, is being looked up as the specified klass. Raise an exception if it isn't. """ if isinstance(self, klass) or klass is Entry: return raise TypeError("Tried to lookup %s '%s' as a %s." %\ (self.__class__.__name__, self.get_internal_path(), klass.__name__)) def get_dir(self): return self.dir def get_suffix(self): return SCons.Util.splitext(self.name)[1] def rfile(self): return self def __getattr__(self, attr): """ Together with the node_bwcomp dict defined below, this method provides a simple backward compatibility layer for the Node attributes 'abspath', 'labspath', 'path', 'tpath', 'suffix' and 'path_elements'. These Node attributes used to be directly available in v2.3 and earlier, but have been replaced by getter methods that initialize the single variables lazily when required, in order to save memory. The redirection to the getters lets older Tools and SConstruct continue to work without any additional changes, fully transparent to the user. Note, that __getattr__ is only called as fallback when the requested attribute can't be found, so there should be no speed performance penalty involved for standard builds. """ if attr in node_bwcomp: return node_bwcomp[attr](self) raise AttributeError("%r object has no attribute %r" % (self.__class__, attr)) def __str__(self): """A Node.FS.Base object's string representation is its path name.""" global Save_Strings if Save_Strings: return self._save_str() return self._get_str() def __lt__(self, other): """ less than operator used by sorting on py3""" return str(self) < str(other) @SCons.Memoize.CountMethodCall def _save_str(self): try: return self._memo['_save_str'] except KeyError: pass result = SCons.Util.silent_intern(self._get_str()) self._memo['_save_str'] = result return result def _get_str(self): global Save_Strings if self.duplicate or self.is_derived(): return self.get_path() srcnode = self.srcnode() if srcnode.stat() is None and self.stat() is not None: result = self.get_path() else: result = srcnode.get_path() if not Save_Strings: # We're not at the point where we're saving the string # representations of FS Nodes (because we haven't finished # reading the SConscript files and need to have str() return # things relative to them). That also means we can't yet # cache values returned (or not returned) by stat(), since # Python code in the SConscript files might still create # or otherwise affect the on-disk file. So get rid of the # values that the underlying stat() method saved. try: del self._memo['stat'] except KeyError: pass if self is not srcnode: try: del srcnode._memo['stat'] except KeyError: pass return result rstr = __str__ @SCons.Memoize.CountMethodCall def stat(self): try: return self._memo['stat'] except KeyError: pass try: result = self.fs.stat(self.get_abspath()) except os.error: result = None self._memo['stat'] = result return result def exists(self): return SCons.Node._exists_map[self._func_exists](self) def rexists(self): return SCons.Node._rexists_map[self._func_rexists](self) def getmtime(self): st = self.stat() if st: return st[stat.ST_MTIME] else: return None def getsize(self): st = self.stat() if st: return st[stat.ST_SIZE] else: return None def isdir(self): st = self.stat() return st is not None and stat.S_ISDIR(st[stat.ST_MODE]) def isfile(self): st = self.stat() return st is not None and stat.S_ISREG(st[stat.ST_MODE]) if hasattr(os, 'symlink'): def islink(self): try: st = self.fs.lstat(self.get_abspath()) except os.error: return 0 return stat.S_ISLNK(st[stat.ST_MODE]) else: def islink(self): return 0 # no symlinks def is_under(self, dir): if self is dir: return 1 else: return self.dir.is_under(dir) def set_local(self): self._local = 1 def srcnode(self): """If this node is in a build path, return the node corresponding to its source file. Otherwise, return ourself. """ srcdir_list = self.dir.srcdir_list() if srcdir_list: srcnode = srcdir_list[0].Entry(self.name) srcnode.must_be_same(self.__class__) return srcnode return self def get_path(self, dir=None): """Return path relative to the current working directory of the Node.FS.Base object that owns us.""" if not dir: dir = self.fs.getcwd() if self == dir: return '.' path_elems = self.get_path_elements() pathname = '' try: i = path_elems.index(dir) except ValueError: for p in path_elems[:-1]: pathname += p.dirname else: for p in path_elems[i+1:-1]: pathname += p.dirname return pathname + path_elems[-1].name def set_src_builder(self, builder): """Set the source code builder for this node.""" self.sbuilder = builder if not self.has_builder(): self.builder_set(builder) def src_builder(self): """Fetch the source code builder for this node. If there isn't one, we cache the source code builder specified for the directory (which in turn will cache the value from its parent directory, and so on up to the file system root). """ try: scb = self.sbuilder except AttributeError: scb = self.dir.src_builder() self.sbuilder = scb return scb def get_abspath(self): """Get the absolute path of the file.""" return self.dir.entry_abspath(self.name) def get_labspath(self): """Get the absolute path of the file.""" return self.dir.entry_labspath(self.name) def get_internal_path(self): if self.dir._path == '.': return self.name else: return self.dir.entry_path(self.name) def get_tpath(self): if self.dir._tpath == '.': return self.name else: return self.dir.entry_tpath(self.name) def get_path_elements(self): return self.dir._path_elements + [self] def for_signature(self): # Return just our name. Even an absolute path would not work, # because that can change thanks to symlinks or remapped network # paths. return self.name def get_subst_proxy(self): try: return self._proxy except AttributeError: ret = EntryProxy(self) self._proxy = ret return ret def target_from_source(self, prefix, suffix, splitext=SCons.Util.splitext): """ Generates a target entry that corresponds to this entry (usually a source file) with the specified prefix and suffix. Note that this method can be overridden dynamically for generated files that need different behavior. See Tool/swig.py for an example. """ return SCons.Node._target_from_source_map[self._func_target_from_source](self, prefix, suffix, splitext) def _Rfindalldirs_key(self, pathlist): return pathlist @SCons.Memoize.CountDictCall(_Rfindalldirs_key) def Rfindalldirs(self, pathlist): """ Return all of the directories for a given path list, including corresponding "backing" directories in any repositories. The Node lookups are relative to this Node (typically a directory), so memoizing result saves cycles from looking up the same path for each target in a given directory. """ try: memo_dict = self._memo['Rfindalldirs'] except KeyError: memo_dict = {} self._memo['Rfindalldirs'] = memo_dict else: try: return memo_dict[pathlist] except KeyError: pass create_dir_relative_to_self = self.Dir result = [] for path in pathlist: if isinstance(path, SCons.Node.Node): result.append(path) else: dir = create_dir_relative_to_self(path) result.extend(dir.get_all_rdirs()) memo_dict[pathlist] = result return result def RDirs(self, pathlist): """Search for a list of directories in the Repository list.""" cwd = self.cwd or self.fs._cwd return cwd.Rfindalldirs(pathlist) @SCons.Memoize.CountMethodCall def rentry(self): try: return self._memo['rentry'] except KeyError: pass result = self if not self.exists(): norm_name = _my_normcase(self.name) for dir in self.dir.get_all_rdirs(): try: node = dir.entries[norm_name] except KeyError: if dir.entry_exists_on_disk(self.name): result = dir.Entry(self.name) break self._memo['rentry'] = result return result def _glob1(self, pattern, ondisk=True, source=False, strings=False): return [] # Dict that provides a simple backward compatibility # layer for the Node attributes 'abspath', 'labspath', # 'path', 'tpath' and 'path_elements'. # @see Base.__getattr__ above node_bwcomp = {'abspath' : Base.get_abspath, 'labspath' : Base.get_labspath, 'path' : Base.get_internal_path, 'tpath' : Base.get_tpath, 'path_elements' : Base.get_path_elements, 'suffix' : Base.get_suffix} class Entry(Base): """This is the class for generic Node.FS entries--that is, things that could be a File or a Dir, but we're just not sure yet. Consequently, the methods in this class really exist just to transform their associated object into the right class when the time comes, and then call the same-named method in the transformed class.""" __slots__ = ['scanner_paths', 'cachedir_csig', 'cachesig', 'repositories', 'srcdir', 'entries', 'searched', '_sconsign', 'variant_dirs', 'root', 'dirname', 'on_disk_entries', 'released_target_info', 'contentsig'] def __init__(self, name, directory, fs): Base.__init__(self, name, directory, fs) self._func_exists = 3 self._func_get_contents = 1 def diskcheck_match(self): pass def disambiguate(self, must_exist=None): """ """ if self.isdir(): self.__class__ = Dir self._morph() elif self.isfile(): self.__class__ = File self._morph() self.clear() else: # There was nothing on-disk at this location, so look in # the src directory. # # We can't just use self.srcnode() straight away because # that would create an actual Node for this file in the src # directory, and there might not be one. Instead, use the # dir_on_disk() method to see if there's something on-disk # with that name, in which case we can go ahead and call # self.srcnode() to create the right type of entry. srcdir = self.dir.srcnode() if srcdir != self.dir and \ srcdir.entry_exists_on_disk(self.name) and \ self.srcnode().isdir(): self.__class__ = Dir self._morph() elif must_exist: msg = "No such file or directory: '%s'" % self.get_abspath() raise SCons.Errors.UserError(msg) else: self.__class__ = File self._morph() self.clear() return self def rfile(self): """We're a generic Entry, but the caller is actually looking for a File at this point, so morph into one.""" self.__class__ = File self._morph() self.clear() return File.rfile(self) def scanner_key(self): return self.get_suffix() def get_contents(self): """Fetch the contents of the entry. Returns the exact binary contents of the file.""" return SCons.Node._get_contents_map[self._func_get_contents](self) def get_text_contents(self): """Fetch the decoded text contents of a Unicode encoded Entry. Since this should return the text contents from the file system, we check to see into what sort of subclass we should morph this Entry.""" try: self = self.disambiguate(must_exist=1) except SCons.Errors.UserError: # There was nothing on disk with which to disambiguate # this entry. Leave it as an Entry, but return a null # string so calls to get_text_contents() in emitters and # the like (e.g. in qt.py) don't have to disambiguate by # hand or catch the exception. return '' else: return self.get_text_contents() def must_be_same(self, klass): """Called to make sure a Node is a Dir. Since we're an Entry, we can morph into one.""" if self.__class__ is not klass: self.__class__ = klass self._morph() self.clear() # The following methods can get called before the Taskmaster has # had a chance to call disambiguate() directly to see if this Entry # should really be a Dir or a File. We therefore use these to call # disambiguate() transparently (from our caller's point of view). # # Right now, this minimal set of methods has been derived by just # looking at some of the methods that will obviously be called early # in any of the various Taskmasters' calling sequences, and then # empirically figuring out which additional methods are necessary # to make various tests pass. def exists(self): return SCons.Node._exists_map[self._func_exists](self) def rel_path(self, other): d = self.disambiguate() if d.__class__ is Entry: raise Exception("rel_path() could not disambiguate File/Dir") return d.rel_path(other) def new_ninfo(self): return self.disambiguate().new_ninfo() def _glob1(self, pattern, ondisk=True, source=False, strings=False): return self.disambiguate()._glob1(pattern, ondisk, source, strings) def get_subst_proxy(self): return self.disambiguate().get_subst_proxy() # This is for later so we can differentiate between Entry the class and Entry # the method of the FS class. _classEntry = Entry class LocalFS(object): # This class implements an abstraction layer for operations involving # a local file system. Essentially, this wraps any function in # the os, os.path or shutil modules that we use to actually go do # anything with or to the local file system. # # Note that there's a very good chance we'll refactor this part of # the architecture in some way as we really implement the interface(s) # for remote file system Nodes. For example, the right architecture # might be to have this be a subclass instead of a base class. # Nevertheless, we're using this as a first step in that direction. # # We're not using chdir() yet because the calling subclass method # needs to use os.chdir() directly to avoid recursion. Will we # really need this one? #def chdir(self, path): # return os.chdir(path) def chmod(self, path, mode): return os.chmod(path, mode) def copy(self, src, dst): return shutil.copy(src, dst) def copy2(self, src, dst): return shutil.copy2(src, dst) def exists(self, path): return os.path.exists(path) def getmtime(self, path): return os.path.getmtime(path) def getsize(self, path): return os.path.getsize(path) def isdir(self, path): return os.path.isdir(path) def isfile(self, path): return os.path.isfile(path) def link(self, src, dst): return os.link(src, dst) def lstat(self, path): return os.lstat(path) def listdir(self, path): return os.listdir(path) def makedirs(self, path): return os.makedirs(path) def mkdir(self, path): return os.mkdir(path) def rename(self, old, new): return os.rename(old, new) def stat(self, path): return os.stat(path) def symlink(self, src, dst): return os.symlink(src, dst) def open(self, path): return open(path) def unlink(self, path): return os.unlink(path) if hasattr(os, 'symlink'): def islink(self, path): return os.path.islink(path) else: def islink(self, path): return 0 # no symlinks if hasattr(os, 'readlink'): def readlink(self, file): return os.readlink(file) else: def readlink(self, file): return '' class FS(LocalFS): def __init__(self, path = None): """Initialize the Node.FS subsystem. The supplied path is the top of the source tree, where we expect to find the top-level build file. If no path is supplied, the current directory is the default. The path argument must be a valid absolute path. """ if SCons.Debug.track_instances: logInstanceCreation(self, 'Node.FS') self._memo = {} self.Root = {} self.SConstruct_dir = None self.max_drift = default_max_drift self.Top = None if path is None: self.pathTop = os.getcwd() else: self.pathTop = path self.defaultDrive = _my_normcase(_my_splitdrive(self.pathTop)[0]) self.Top = self.Dir(self.pathTop) self.Top._path = '.' self.Top._tpath = '.' self._cwd = self.Top DirNodeInfo.fs = self FileNodeInfo.fs = self def set_SConstruct_dir(self, dir): self.SConstruct_dir = dir def get_max_drift(self): return self.max_drift def set_max_drift(self, max_drift): self.max_drift = max_drift def getcwd(self): if hasattr(self, "_cwd"): return self._cwd else: return "" def chdir(self, dir, change_os_dir=0): """Change the current working directory for lookups. If change_os_dir is true, we will also change the "real" cwd to match. """ curr=self._cwd try: if dir is not None: self._cwd = dir if change_os_dir: os.chdir(dir.get_abspath()) except OSError: self._cwd = curr raise def get_root(self, drive): """ Returns the root directory for the specified drive, creating it if necessary. """ drive = _my_normcase(drive) try: return self.Root[drive] except KeyError: root = RootDir(drive, self) self.Root[drive] = root if not drive: self.Root[self.defaultDrive] = root elif drive == self.defaultDrive: self.Root[''] = root return root def _lookup(self, p, directory, fsclass, create=1): """ The generic entry point for Node lookup with user-supplied data. This translates arbitrary input into a canonical Node.FS object of the specified fsclass. The general approach for strings is to turn it into a fully normalized absolute path and then call the root directory's lookup_abs() method for the heavy lifting. If the path name begins with '#', it is unconditionally interpreted relative to the top-level directory of this FS. '#' is treated as a synonym for the top-level SConstruct directory, much like '~' is treated as a synonym for the user's home directory in a UNIX shell. So both '#foo' and '#/foo' refer to the 'foo' subdirectory underneath the top-level SConstruct directory. If the path name is relative, then the path is looked up relative to the specified directory, or the current directory (self._cwd, typically the SConscript directory) if the specified directory is None. """ if isinstance(p, Base): # It's already a Node.FS object. Make sure it's the right # class and return. p.must_be_same(fsclass) return p # str(p) in case it's something like a proxy object p = str(p) if not os_sep_is_slash: p = p.replace(OS_SEP, '/') if p[0:1] == '#': # There was an initial '#', so we strip it and override # whatever directory they may have specified with the # top-level SConstruct directory. p = p[1:] directory = self.Top # There might be a drive letter following the # '#'. Although it is not described in the SCons man page, # the regression test suite explicitly tests for that # syntax. It seems to mean the following thing: # # Assuming the the SCons top dir is in C:/xxx/yyy, # '#X:/toto' means X:/xxx/yyy/toto. # # i.e. it assumes that the X: drive has a directory # structure similar to the one found on drive C:. if do_splitdrive: drive, p = _my_splitdrive(p) if drive: root = self.get_root(drive) else: root = directory.root else: root = directory.root # We can only strip trailing after splitting the drive # since the drive might the UNC '//' prefix. p = p.strip('/') needs_normpath = needs_normpath_match(p) # The path is relative to the top-level SCons directory. if p in ('', '.'): p = directory.get_labspath() else: p = directory.get_labspath() + '/' + p else: if do_splitdrive: drive, p = _my_splitdrive(p) if drive and not p: # This causes a naked drive letter to be treated # as a synonym for the root directory on that # drive. p = '/' else: drive = '' # We can only strip trailing '/' since the drive might the # UNC '//' prefix. if p != '/': p = p.rstrip('/') needs_normpath = needs_normpath_match(p) if p[0:1] == '/': # Absolute path root = self.get_root(drive) else: # This is a relative lookup or to the current directory # (the path name is not absolute). Add the string to the # appropriate directory lookup path, after which the whole # thing gets normalized. if directory: if not isinstance(directory, Dir): directory = self.Dir(directory) else: directory = self._cwd if p in ('', '.'): p = directory.get_labspath() else: p = directory.get_labspath() + '/' + p if drive: root = self.get_root(drive) else: root = directory.root if needs_normpath is not None: # Normalize a pathname. Will return the same result for # equivalent paths. # # We take advantage of the fact that we have an absolute # path here for sure. In addition, we know that the # components of lookup path are separated by slashes at # this point. Because of this, this code is about 2X # faster than calling os.path.normpath() followed by # replacing os.sep with '/' again. ins = p.split('/')[1:] outs = [] for d in ins: if d == '..': try: outs.pop() except IndexError: pass elif d not in ('', '.'): outs.append(d) p = '/' + '/'.join(outs) return root._lookup_abs(p, fsclass, create) def Entry(self, name, directory = None, create = 1): """Look up or create a generic Entry node with the specified name. If the name is a relative path (begins with ./, ../, or a file name), then it is looked up relative to the supplied directory node, or to the top level directory of the FS (supplied at construction time) if no directory is supplied. """ return self._lookup(name, directory, Entry, create) def File(self, name, directory = None, create = 1): """Look up or create a File node with the specified name. If the name is a relative path (begins with ./, ../, or a file name), then it is looked up relative to the supplied directory node, or to the top level directory of the FS (supplied at construction time) if no directory is supplied. This method will raise TypeError if a directory is found at the specified path. """ return self._lookup(name, directory, File, create) def Dir(self, name, directory = None, create = True): """Look up or create a Dir node with the specified name. If the name is a relative path (begins with ./, ../, or a file name), then it is looked up relative to the supplied directory node, or to the top level directory of the FS (supplied at construction time) if no directory is supplied. This method will raise TypeError if a normal file is found at the specified path. """ return self._lookup(name, directory, Dir, create) def VariantDir(self, variant_dir, src_dir, duplicate=1): """Link the supplied variant directory to the source directory for purposes of building files.""" if not isinstance(src_dir, SCons.Node.Node): src_dir = self.Dir(src_dir) if not isinstance(variant_dir, SCons.Node.Node): variant_dir = self.Dir(variant_dir) if src_dir.is_under(variant_dir): raise SCons.Errors.UserError("Source directory cannot be under variant directory.") if variant_dir.srcdir: if variant_dir.srcdir == src_dir: return # We already did this. raise SCons.Errors.UserError("'%s' already has a source directory: '%s'."%(variant_dir, variant_dir.srcdir)) variant_dir.link(src_dir, duplicate) def Repository(self, *dirs): """Specify Repository directories to search.""" for d in dirs: if not isinstance(d, SCons.Node.Node): d = self.Dir(d) self.Top.addRepository(d) def PyPackageDir(self, modulename): """Locate the directory of a given python module name For example scons might resolve to Windows: C:\Python27\Lib\site-packages\scons-2.5.1 Linux: /usr/lib/scons This can be useful when we want to determine a toolpath based on a python module name""" dirpath = '' if sys.version_info[0] < 3 or (sys.version_info[0] == 3 and sys.version_info[1] in (0,1,2,3,4)): # Python2 Code import imp splitname = modulename.split('.') srchpths = sys.path for item in splitname: file, path, desc = imp.find_module(item, srchpths) if file is not None: path = os.path.dirname(path) srchpths = [path] dirpath = path else: # Python3 Code import importlib.util modspec = importlib.util.find_spec(modulename) dirpath = os.path.dirname(modspec.origin) return self._lookup(dirpath, None, Dir, True) def variant_dir_target_climb(self, orig, dir, tail): """Create targets in corresponding variant directories Climb the directory tree, and look up path names relative to any linked variant directories we find. Even though this loops and walks up the tree, we don't memoize the return value because this is really only used to process the command-line targets. """ targets = [] message = None fmt = "building associated VariantDir targets: %s" start_dir = dir while dir: for bd in dir.variant_dirs: if start_dir.is_under(bd): # If already in the build-dir location, don't reflect return [orig], fmt % str(orig) p = os.path.join(bd._path, *tail) targets.append(self.Entry(p)) tail = [dir.name] + tail dir = dir.up() if targets: message = fmt % ' '.join(map(str, targets)) return targets, message def Glob(self, pathname, ondisk=True, source=True, strings=False, exclude=None, cwd=None): """ Globs This is mainly a shim layer """ if cwd is None: cwd = self.getcwd() return cwd.glob(pathname, ondisk, source, strings, exclude) class DirNodeInfo(SCons.Node.NodeInfoBase): __slots__ = () # This should get reset by the FS initialization. current_version_id = 2 fs = None def str_to_node(self, s): top = self.fs.Top root = top.root if do_splitdrive: drive, s = _my_splitdrive(s) if drive: root = self.fs.get_root(drive) if not os.path.isabs(s): s = top.get_labspath() + '/' + s return root._lookup_abs(s, Entry) class DirBuildInfo(SCons.Node.BuildInfoBase): __slots__ = () current_version_id = 2 glob_magic_check = re.compile('[*?[]') def has_glob_magic(s): return glob_magic_check.search(s) is not None class Dir(Base): """A class for directories in a file system. """ __slots__ = ['scanner_paths', 'cachedir_csig', 'cachesig', 'repositories', 'srcdir', 'entries', 'searched', '_sconsign', 'variant_dirs', 'root', 'dirname', 'on_disk_entries', 'released_target_info', 'contentsig'] NodeInfo = DirNodeInfo BuildInfo = DirBuildInfo def __init__(self, name, directory, fs): if SCons.Debug.track_instances: logInstanceCreation(self, 'Node.FS.Dir') Base.__init__(self, name, directory, fs) self._morph() def _morph(self): """Turn a file system Node (either a freshly initialized directory object or a separate Entry object) into a proper directory object. Set up this directory's entries and hook it into the file system tree. Specify that directories (this Node) don't use signatures for calculating whether they're current. """ self.repositories = [] self.srcdir = None self.entries = {} self.entries['.'] = self self.entries['..'] = self.dir self.cwd = self self.searched = 0 self._sconsign = None self.variant_dirs = [] self.root = self.dir.root self.changed_since_last_build = 3 self._func_sconsign = 1 self._func_exists = 2 self._func_get_contents = 2 self._abspath = SCons.Util.silent_intern(self.dir.entry_abspath(self.name)) self._labspath = SCons.Util.silent_intern(self.dir.entry_labspath(self.name)) if self.dir._path == '.': self._path = SCons.Util.silent_intern(self.name) else: self._path = SCons.Util.silent_intern(self.dir.entry_path(self.name)) if self.dir._tpath == '.': self._tpath = SCons.Util.silent_intern(self.name) else: self._tpath = SCons.Util.silent_intern(self.dir.entry_tpath(self.name)) self._path_elements = self.dir._path_elements + [self] # For directories, we make a difference between the directory # 'name' and the directory 'dirname'. The 'name' attribute is # used when we need to print the 'name' of the directory or # when we it is used as the last part of a path. The 'dirname' # is used when the directory is not the last element of the # path. The main reason for making that distinction is that # for RoorDir's the dirname can not be easily inferred from # the name. For example, we have to add a '/' after a drive # letter but not after a UNC path prefix ('//'). self.dirname = self.name + OS_SEP # Don't just reset the executor, replace its action list, # because it might have some pre-or post-actions that need to # be preserved. # # But don't reset the executor if there is a non-null executor # attached already. The existing executor might have other # targets, in which case replacing the action list with a # Mkdir action is a big mistake. if not hasattr(self, 'executor'): self.builder = get_MkdirBuilder() self.get_executor().set_action_list(self.builder.action) else: # Prepend MkdirBuilder action to existing action list l = self.get_executor().action_list a = get_MkdirBuilder().action l.insert(0, a) self.get_executor().set_action_list(l) def diskcheck_match(self): diskcheck_match(self, self.isfile, "File %s found where directory expected.") def __clearRepositoryCache(self, duplicate=None): """Called when we change the repository(ies) for a directory. This clears any cached information that is invalidated by changing the repository.""" for node in list(self.entries.values()): if node != self.dir: if node != self and isinstance(node, Dir): node.__clearRepositoryCache(duplicate) else: node.clear() try: del node._srcreps except AttributeError: pass if duplicate is not None: node.duplicate=duplicate def __resetDuplicate(self, node): if node != self: node.duplicate = node.get_dir().duplicate def Entry(self, name): """ Looks up or creates an entry node named 'name' relative to this directory. """ return self.fs.Entry(name, self) def Dir(self, name, create=True): """ Looks up or creates a directory node named 'name' relative to this directory. """ return self.fs.Dir(name, self, create) def File(self, name): """ Looks up or creates a file node named 'name' relative to this directory. """ return self.fs.File(name, self) def link(self, srcdir, duplicate): """Set this directory as the variant directory for the supplied source directory.""" self.srcdir = srcdir self.duplicate = duplicate self.__clearRepositoryCache(duplicate) srcdir.variant_dirs.append(self) def getRepositories(self): """Returns a list of repositories for this directory. """ if self.srcdir and not self.duplicate: return self.srcdir.get_all_rdirs() + self.repositories return self.repositories @SCons.Memoize.CountMethodCall def get_all_rdirs(self): try: return list(self._memo['get_all_rdirs']) except KeyError: pass result = [self] fname = '.' dir = self while dir: for rep in dir.getRepositories(): result.append(rep.Dir(fname)) if fname == '.': fname = dir.name else: fname = dir.name + OS_SEP + fname dir = dir.up() self._memo['get_all_rdirs'] = list(result) return result def addRepository(self, dir): if dir != self and not dir in self.repositories: self.repositories.append(dir) dir._tpath = '.' self.__clearRepositoryCache() def up(self): return self.dir def _rel_path_key(self, other): return str(other) @SCons.Memoize.CountDictCall(_rel_path_key) def rel_path(self, other): """Return a path to "other" relative to this directory. """ # This complicated and expensive method, which constructs relative # paths between arbitrary Node.FS objects, is no longer used # by SCons itself. It was introduced to store dependency paths # in .sconsign files relative to the target, but that ended up # being significantly inefficient. # # We're continuing to support the method because some SConstruct # files out there started using it when it was available, and # we're all about backwards compatibility.. try: memo_dict = self._memo['rel_path'] except KeyError: memo_dict = {} self._memo['rel_path'] = memo_dict else: try: return memo_dict[other] except KeyError: pass if self is other: result = '.' elif not other in self._path_elements: try: other_dir = other.get_dir() except AttributeError: result = str(other) else: if other_dir is None: result = other.name else: dir_rel_path = self.rel_path(other_dir) if dir_rel_path == '.': result = other.name else: result = dir_rel_path + OS_SEP + other.name else: i = self._path_elements.index(other) + 1 path_elems = ['..'] * (len(self._path_elements) - i) \ + [n.name for n in other._path_elements[i:]] result = OS_SEP.join(path_elems) memo_dict[other] = result return result def get_env_scanner(self, env, kw={}): import SCons.Defaults return SCons.Defaults.DirEntryScanner def get_target_scanner(self): import SCons.Defaults return SCons.Defaults.DirEntryScanner def get_found_includes(self, env, scanner, path): """Return this directory's implicit dependencies. We don't bother caching the results because the scan typically shouldn't be requested more than once (as opposed to scanning .h file contents, which can be requested as many times as the files is #included by other files). """ if not scanner: return [] # Clear cached info for this Dir. If we already visited this # directory on our walk down the tree (because we didn't know at # that point it was being used as the source for another Node) # then we may have calculated build signature before realizing # we had to scan the disk. Now that we have to, though, we need # to invalidate the old calculated signature so that any node # dependent on our directory structure gets one that includes # info about everything on disk. self.clear() return scanner(self, env, path) # # Taskmaster interface subsystem # def prepare(self): pass def build(self, **kw): """A null "builder" for directories.""" global MkdirBuilder if self.builder is not MkdirBuilder: SCons.Node.Node.build(self, **kw) # # # def _create(self): """Create this directory, silently and without worrying about whether the builder is the default or not.""" listDirs = [] parent = self while parent: if parent.exists(): break listDirs.append(parent) p = parent.up() if p is None: # Don't use while: - else: for this condition because # if so, then parent is None and has no .path attribute. raise SCons.Errors.StopError(parent._path) parent = p listDirs.reverse() for dirnode in listDirs: try: # Don't call dirnode.build(), call the base Node method # directly because we definitely *must* create this # directory. The dirnode.build() method will suppress # the build if it's the default builder. SCons.Node.Node.build(dirnode) dirnode.get_executor().nullify() # The build() action may or may not have actually # created the directory, depending on whether the -n # option was used or not. Delete the _exists and # _rexists attributes so they can be reevaluated. dirnode.clear() except OSError: pass def multiple_side_effect_has_builder(self): global MkdirBuilder return self.builder is not MkdirBuilder and self.has_builder() def alter_targets(self): """Return any corresponding targets in a variant directory. """ return self.fs.variant_dir_target_climb(self, self, []) def scanner_key(self): """A directory does not get scanned.""" return None def get_text_contents(self): """We already emit things in text, so just return the binary version.""" return self.get_contents() def get_contents(self): """Return content signatures and names of all our children separated by new-lines. Ensure that the nodes are sorted.""" return SCons.Node._get_contents_map[self._func_get_contents](self) def get_csig(self): """Compute the content signature for Directory nodes. In general, this is not needed and the content signature is not stored in the DirNodeInfo. However, if get_contents on a Dir node is called which has a child directory, the child directory should return the hash of its contents.""" contents = self.get_contents() return SCons.Util.MD5signature(contents) def do_duplicate(self, src): pass def is_up_to_date(self): """If any child is not up-to-date, then this directory isn't, either.""" if self.builder is not MkdirBuilder and not self.exists(): return 0 up_to_date = SCons.Node.up_to_date for kid in self.children(): if kid.get_state() > up_to_date: return 0 return 1 def rdir(self): if not self.exists(): norm_name = _my_normcase(self.name) for dir in self.dir.get_all_rdirs(): try: node = dir.entries[norm_name] except KeyError: node = dir.dir_on_disk(self.name) if node and node.exists() and \ (isinstance(dir, Dir) or isinstance(dir, Entry)): return node return self def sconsign(self): """Return the .sconsign file info for this directory. """ return _sconsign_map[self._func_sconsign](self) def srcnode(self): """Dir has a special need for srcnode()...if we have a srcdir attribute set, then that *is* our srcnode.""" if self.srcdir: return self.srcdir return Base.srcnode(self) def get_timestamp(self): """Return the latest timestamp from among our children""" stamp = 0 for kid in self.children(): if kid.get_timestamp() > stamp: stamp = kid.get_timestamp() return stamp def get_abspath(self): """Get the absolute path of the file.""" return self._abspath def get_labspath(self): """Get the absolute path of the file.""" return self._labspath def get_internal_path(self): return self._path def get_tpath(self): return self._tpath def get_path_elements(self): return self._path_elements def entry_abspath(self, name): return self._abspath + OS_SEP + name def entry_labspath(self, name): return self._labspath + '/' + name def entry_path(self, name): return self._path + OS_SEP + name def entry_tpath(self, name): return self._tpath + OS_SEP + name def entry_exists_on_disk(self, name): """ Searches through the file/dir entries of the current directory, and returns True if a physical entry with the given name could be found. @see rentry_exists_on_disk """ try: d = self.on_disk_entries except AttributeError: d = {} try: entries = os.listdir(self._abspath) except OSError: pass else: for entry in map(_my_normcase, entries): d[entry] = True self.on_disk_entries = d if sys.platform == 'win32' or sys.platform == 'cygwin': name = _my_normcase(name) result = d.get(name) if result is None: # Belt-and-suspenders for Windows: check directly for # 8.3 file names that don't show up in os.listdir(). result = os.path.exists(self._abspath + OS_SEP + name) d[name] = result return result else: return name in d def rentry_exists_on_disk(self, name): """ Searches through the file/dir entries of the current *and* all its remote directories (repos), and returns True if a physical entry with the given name could be found. The local directory (self) gets searched first, so repositories take a lower precedence regarding the searching order. @see entry_exists_on_disk """ rentry_exists = self.entry_exists_on_disk(name) if not rentry_exists: # Search through the repository folders norm_name = _my_normcase(name) for rdir in self.get_all_rdirs(): try: node = rdir.entries[norm_name] if node: rentry_exists = True break except KeyError: if rdir.entry_exists_on_disk(name): rentry_exists = True break return rentry_exists @SCons.Memoize.CountMethodCall def srcdir_list(self): try: return self._memo['srcdir_list'] except KeyError: pass result = [] dirname = '.' dir = self while dir: if dir.srcdir: result.append(dir.srcdir.Dir(dirname)) dirname = dir.name + OS_SEP + dirname dir = dir.up() self._memo['srcdir_list'] = result return result def srcdir_duplicate(self, name): for dir in self.srcdir_list(): if self.is_under(dir): # We shouldn't source from something in the build path; # variant_dir is probably under src_dir, in which case # we are reflecting. break if dir.entry_exists_on_disk(name): srcnode = dir.Entry(name).disambiguate() if self.duplicate: node = self.Entry(name).disambiguate() node.do_duplicate(srcnode) return node else: return srcnode return None def _srcdir_find_file_key(self, filename): return filename @SCons.Memoize.CountDictCall(_srcdir_find_file_key) def srcdir_find_file(self, filename): try: memo_dict = self._memo['srcdir_find_file'] except KeyError: memo_dict = {} self._memo['srcdir_find_file'] = memo_dict else: try: return memo_dict[filename] except KeyError: pass def func(node): if (isinstance(node, File) or isinstance(node, Entry)) and \ (node.is_derived() or node.exists()): return node return None norm_name = _my_normcase(filename) for rdir in self.get_all_rdirs(): try: node = rdir.entries[norm_name] except KeyError: node = rdir.file_on_disk(filename) else: node = func(node) if node: result = (node, self) memo_dict[filename] = result return result for srcdir in self.srcdir_list(): for rdir in srcdir.get_all_rdirs(): try: node = rdir.entries[norm_name] except KeyError: node = rdir.file_on_disk(filename) else: node = func(node) if node: result = (File(filename, self, self.fs), srcdir) memo_dict[filename] = result return result result = (None, None) memo_dict[filename] = result return result def dir_on_disk(self, name): if self.entry_exists_on_disk(name): try: return self.Dir(name) except TypeError: pass node = self.srcdir_duplicate(name) if isinstance(node, File): return None return node def file_on_disk(self, name): if self.entry_exists_on_disk(name): try: return self.File(name) except TypeError: pass node = self.srcdir_duplicate(name) if isinstance(node, Dir): return None return node def walk(self, func, arg): """ Walk this directory tree by calling the specified function for each directory in the tree. This behaves like the os.path.walk() function, but for in-memory Node.FS.Dir objects. The function takes the same arguments as the functions passed to os.path.walk(): func(arg, dirname, fnames) Except that "dirname" will actually be the directory *Node*, not the string. The '.' and '..' entries are excluded from fnames. The fnames list may be modified in-place to filter the subdirectories visited or otherwise impose a specific order. The "arg" argument is always passed to func() and may be used in any way (or ignored, passing None is common). """ entries = self.entries names = list(entries.keys()) names.remove('.') names.remove('..') func(arg, self, names) for dirname in [n for n in names if isinstance(entries[n], Dir)]: entries[dirname].walk(func, arg) def glob(self, pathname, ondisk=True, source=False, strings=False, exclude=None): """ Returns a list of Nodes (or strings) matching a specified pathname pattern. Pathname patterns follow UNIX shell semantics: * matches any-length strings of any characters, ? matches any character, and [] can enclose lists or ranges of characters. Matches do not span directory separators. The matches take into account Repositories, returning local Nodes if a corresponding entry exists in a Repository (either an in-memory Node or something on disk). By defafult, the glob() function matches entries that exist on-disk, in addition to in-memory Nodes. Setting the "ondisk" argument to False (or some other non-true value) causes the glob() function to only match in-memory Nodes. The default behavior is to return both the on-disk and in-memory Nodes. The "source" argument, when true, specifies that corresponding source Nodes must be returned if you're globbing in a build directory (initialized with VariantDir()). The default behavior is to return Nodes local to the VariantDir(). The "strings" argument, when true, returns the matches as strings, not Nodes. The strings are path names relative to this directory. The "exclude" argument, if not None, must be a pattern or a list of patterns following the same UNIX shell semantics. Elements matching a least one pattern of this list will be excluded from the result. The underlying algorithm is adapted from the glob.glob() function in the Python library (but heavily modified), and uses fnmatch() under the covers. """ dirname, basename = os.path.split(pathname) if not dirname: result = self._glob1(basename, ondisk, source, strings) else: if has_glob_magic(dirname): list = self.glob(dirname, ondisk, source, False, exclude) else: list = [self.Dir(dirname, create=True)] result = [] for dir in list: r = dir._glob1(basename, ondisk, source, strings) if strings: r = [os.path.join(str(dir), x) for x in r] result.extend(r) if exclude: excludes = [] excludeList = SCons.Util.flatten(exclude) for x in excludeList: r = self.glob(x, ondisk, source, strings) excludes.extend(r) result = [x for x in result if not any(fnmatch.fnmatch(str(x), str(e)) for e in SCons.Util.flatten(excludes))] return sorted(result, key=lambda a: str(a)) def _glob1(self, pattern, ondisk=True, source=False, strings=False): """ Globs for and returns a list of entry names matching a single pattern in this directory. This searches any repositories and source directories for corresponding entries and returns a Node (or string) relative to the current directory if an entry is found anywhere. TODO: handle pattern with no wildcard """ search_dir_list = self.get_all_rdirs() for srcdir in self.srcdir_list(): search_dir_list.extend(srcdir.get_all_rdirs()) selfEntry = self.Entry names = [] for dir in search_dir_list: # We use the .name attribute from the Node because the keys of # the dir.entries dictionary are normalized (that is, all upper # case) on case-insensitive systems like Windows. node_names = [ v.name for k, v in dir.entries.items() if k not in ('.', '..') ] names.extend(node_names) if not strings: # Make sure the working directory (self) actually has # entries for all Nodes in repositories or variant dirs. for name in node_names: selfEntry(name) if ondisk: try: disk_names = os.listdir(dir._abspath) except os.error: continue names.extend(disk_names) if not strings: # We're going to return corresponding Nodes in # the local directory, so we need to make sure # those Nodes exist. We only want to create # Nodes for the entries that will match the # specified pattern, though, which means we # need to filter the list here, even though # the overall list will also be filtered later, # after we exit this loop. if pattern[0] != '.': disk_names = [x for x in disk_names if x[0] != '.'] disk_names = fnmatch.filter(disk_names, pattern) dirEntry = dir.Entry for name in disk_names: # Add './' before disk filename so that '#' at # beginning of filename isn't interpreted. name = './' + name node = dirEntry(name).disambiguate() n = selfEntry(name) if n.__class__ != node.__class__: n.__class__ = node.__class__ n._morph() names = set(names) if pattern[0] != '.': names = [x for x in names if x[0] != '.'] names = fnmatch.filter(names, pattern) if strings: return names return [self.entries[_my_normcase(n)] for n in names] class RootDir(Dir): """A class for the root directory of a file system. This is the same as a Dir class, except that the path separator ('/' or '\\') is actually part of the name, so we don't need to add a separator when creating the path names of entries within this directory. """ __slots__ = ['_lookupDict'] def __init__(self, drive, fs): if SCons.Debug.track_instances: logInstanceCreation(self, 'Node.FS.RootDir') SCons.Node.Node.__init__(self) # Handle all the types of drives: if drive == '': # No drive, regular UNIX root or Windows default drive. name = OS_SEP dirname = OS_SEP elif drive == '//': # UNC path name = UNC_PREFIX dirname = UNC_PREFIX else: # Windows drive letter name = drive dirname = drive + OS_SEP # Filename with extension as it was specified when the object was # created; to obtain filesystem path, use Python str() function self.name = SCons.Util.silent_intern(name) self.fs = fs #: Reference to parent Node.FS object self._path_elements = [self] self.dir = self self._func_rexists = 2 self._func_target_from_source = 1 self.store_info = 1 # Now set our paths to what we really want them to be. The # name should already contain any necessary separators, such # as the initial drive letter (the name) plus the directory # separator, except for the "lookup abspath," which does not # have the drive letter. self._abspath = dirname self._labspath = '' self._path = dirname self._tpath = dirname self.dirname = dirname self._morph() self.duplicate = 0 self._lookupDict = {} self._lookupDict[''] = self self._lookupDict['/'] = self self.root = self # The // entry is necessary because os.path.normpath() # preserves double slashes at the beginning of a path on Posix # platforms. if not has_unc: self._lookupDict['//'] = self def _morph(self): """Turn a file system Node (either a freshly initialized directory object or a separate Entry object) into a proper directory object. Set up this directory's entries and hook it into the file system tree. Specify that directories (this Node) don't use signatures for calculating whether they're current. """ self.repositories = [] self.srcdir = None self.entries = {} self.entries['.'] = self self.entries['..'] = self.dir self.cwd = self self.searched = 0 self._sconsign = None self.variant_dirs = [] self.changed_since_last_build = 3 self._func_sconsign = 1 self._func_exists = 2 self._func_get_contents = 2 # Don't just reset the executor, replace its action list, # because it might have some pre-or post-actions that need to # be preserved. # # But don't reset the executor if there is a non-null executor # attached already. The existing executor might have other # targets, in which case replacing the action list with a # Mkdir action is a big mistake. if not hasattr(self, 'executor'): self.builder = get_MkdirBuilder() self.get_executor().set_action_list(self.builder.action) else: # Prepend MkdirBuilder action to existing action list l = self.get_executor().action_list a = get_MkdirBuilder().action l.insert(0, a) self.get_executor().set_action_list(l) def must_be_same(self, klass): if klass is Dir: return Base.must_be_same(self, klass) def _lookup_abs(self, p, klass, create=1): """ Fast (?) lookup of a *normalized* absolute path. This method is intended for use by internal lookups with already-normalized path data. For general-purpose lookups, use the FS.Entry(), FS.Dir() or FS.File() methods. The caller is responsible for making sure we're passed a normalized absolute path; we merely let Python's dictionary look up and return the One True Node.FS object for the path. If a Node for the specified "p" doesn't already exist, and "create" is specified, the Node may be created after recursive invocation to find or create the parent directory or directories. """ k = _my_normcase(p) try: result = self._lookupDict[k] except KeyError: if not create: msg = "No such file or directory: '%s' in '%s' (and create is False)" % (p, str(self)) raise SCons.Errors.UserError(msg) # There is no Node for this path name, and we're allowed # to create it. dir_name, file_name = p.rsplit('/',1) dir_node = self._lookup_abs(dir_name, Dir) result = klass(file_name, dir_node, self.fs) # Double-check on disk (as configured) that the Node we # created matches whatever is out there in the real world. result.diskcheck_match() self._lookupDict[k] = result dir_node.entries[_my_normcase(file_name)] = result dir_node.implicit = None else: # There is already a Node for this path name. Allow it to # complain if we were looking for an inappropriate type. result.must_be_same(klass) return result def __str__(self): return self._abspath def entry_abspath(self, name): return self._abspath + name def entry_labspath(self, name): return '/' + name def entry_path(self, name): return self._path + name def entry_tpath(self, name): return self._tpath + name def is_under(self, dir): if self is dir: return 1 else: return 0 def up(self): return None def get_dir(self): return None def src_builder(self): return _null class FileNodeInfo(SCons.Node.NodeInfoBase): __slots__ = ('csig', 'timestamp', 'size') current_version_id = 2 field_list = ['csig', 'timestamp', 'size'] # This should get reset by the FS initialization. fs = None def str_to_node(self, s): top = self.fs.Top root = top.root if do_splitdrive: drive, s = _my_splitdrive(s) if drive: root = self.fs.get_root(drive) if not os.path.isabs(s): s = top.get_labspath() + '/' + s return root._lookup_abs(s, Entry) def __getstate__(self): """ Return all fields that shall be pickled. Walk the slots in the class hierarchy and add those to the state dictionary. If a '__dict__' slot is available, copy all entries to the dictionary. Also include the version id, which is fixed for all instances of a class. """ state = getattr(self, '__dict__', {}).copy() for obj in type(self).mro(): for name in getattr(obj,'__slots__',()): if hasattr(self, name): state[name] = getattr(self, name) state['_version_id'] = self.current_version_id try: del state['__weakref__'] except KeyError: pass return state def __setstate__(self, state): """ Restore the attributes from a pickled state. """ # TODO check or discard version del state['_version_id'] for key, value in state.items(): if key not in ('__weakref__',): setattr(self, key, value) class FileBuildInfo(SCons.Node.BuildInfoBase): __slots__ = () current_version_id = 2 def convert_to_sconsign(self): """ Converts this FileBuildInfo object for writing to a .sconsign file This replaces each Node in our various dependency lists with its usual string representation: relative to the top-level SConstruct directory, or an absolute path if it's outside. """ if os_sep_is_slash: node_to_str = str else: def node_to_str(n): try: s = n.get_internal_path() except AttributeError: s = str(n) else: s = s.replace(OS_SEP, '/') return s for attr in ['bsources', 'bdepends', 'bimplicit']: try: val = getattr(self, attr) except AttributeError: pass else: setattr(self, attr, list(map(node_to_str, val))) def convert_from_sconsign(self, dir, name): """ Converts a newly-read FileBuildInfo object for in-SCons use For normal up-to-date checking, we don't have any conversion to perform--but we're leaving this method here to make that clear. """ pass def prepare_dependencies(self): """ Prepares a FileBuildInfo object for explaining what changed The bsources, bdepends and bimplicit lists have all been stored on disk as paths relative to the top-level SConstruct directory. Convert the strings to actual Nodes (for use by the --debug=explain code and --implicit-cache). """ attrs = [ ('bsources', 'bsourcesigs'), ('bdepends', 'bdependsigs'), ('bimplicit', 'bimplicitsigs'), ] for (nattr, sattr) in attrs: try: strings = getattr(self, nattr) nodeinfos = getattr(self, sattr) except AttributeError: continue if strings is None or nodeinfos is None: continue nodes = [] for s, ni in zip(strings, nodeinfos): if not isinstance(s, SCons.Node.Node): s = ni.str_to_node(s) nodes.append(s) setattr(self, nattr, nodes) def format(self, names=0): result = [] bkids = self.bsources + self.bdepends + self.bimplicit bkidsigs = self.bsourcesigs + self.bdependsigs + self.bimplicitsigs for bkid, bkidsig in zip(bkids, bkidsigs): result.append(str(bkid) + ': ' + ' '.join(bkidsig.format(names=names))) if not hasattr(self,'bact'): self.bact = "none" result.append('%s [%s]' % (self.bactsig, self.bact)) return '\n'.join(result) class File(Base): """A class for files in a file system. """ __slots__ = ['scanner_paths', 'cachedir_csig', 'cachesig', 'repositories', 'srcdir', 'entries', 'searched', '_sconsign', 'variant_dirs', 'root', 'dirname', 'on_disk_entries', 'released_target_info', 'contentsig'] NodeInfo = FileNodeInfo BuildInfo = FileBuildInfo md5_chunksize = 64 def diskcheck_match(self): diskcheck_match(self, self.isdir, "Directory %s found where file expected.") def __init__(self, name, directory, fs): if SCons.Debug.track_instances: logInstanceCreation(self, 'Node.FS.File') Base.__init__(self, name, directory, fs) self._morph() def Entry(self, name): """Create an entry node named 'name' relative to the directory of this file.""" return self.dir.Entry(name) def Dir(self, name, create=True): """Create a directory node named 'name' relative to the directory of this file.""" return self.dir.Dir(name, create=create) def Dirs(self, pathlist): """Create a list of directories relative to the SConscript directory of this file.""" return [self.Dir(p) for p in pathlist] def File(self, name): """Create a file node named 'name' relative to the directory of this file.""" return self.dir.File(name) def _morph(self): """Turn a file system node into a File object.""" self.scanner_paths = {} if not hasattr(self, '_local'): self._local = 0 if not hasattr(self, 'released_target_info'): self.released_target_info = False self.store_info = 1 self._func_exists = 4 self._func_get_contents = 3 # Initialize this Node's decider function to decide_source() because # every file is a source file until it has a Builder attached... self.changed_since_last_build = 4 # If there was already a Builder set on this entry, then # we need to make sure we call the target-decider function, # not the source-decider. Reaching in and doing this by hand # is a little bogus. We'd prefer to handle this by adding # an Entry.builder_set() method that disambiguates like the # other methods, but that starts running into problems with the # fragile way we initialize Dir Nodes with their Mkdir builders, # yet still allow them to be overridden by the user. Since it's # not clear right now how to fix that, stick with what works # until it becomes clear... if self.has_builder(): self.changed_since_last_build = 5 def scanner_key(self): return self.get_suffix() def get_contents(self): return SCons.Node._get_contents_map[self._func_get_contents](self) def get_text_contents(self): """ This attempts to figure out what the encoding of the text is based upon the BOM bytes, and then decodes the contents so that it's a valid python string. """ contents = self.get_contents() # The behavior of various decode() methods and functions # w.r.t. the initial BOM bytes is different for different # encodings and/or Python versions. ('utf-8' does not strip # them, but has a 'utf-8-sig' which does; 'utf-16' seems to # strip them; etc.) Just sidestep all the complication by # explicitly stripping the BOM before we decode(). if contents[:len(codecs.BOM_UTF8)] == codecs.BOM_UTF8: return contents[len(codecs.BOM_UTF8):].decode('utf-8') if contents[:len(codecs.BOM_UTF16_LE)] == codecs.BOM_UTF16_LE: return contents[len(codecs.BOM_UTF16_LE):].decode('utf-16-le') if contents[:len(codecs.BOM_UTF16_BE)] == codecs.BOM_UTF16_BE: return contents[len(codecs.BOM_UTF16_BE):].decode('utf-16-be') try: return contents.decode('utf-8') except UnicodeDecodeError as e: try: return contents.decode('latin-1') except UnicodeDecodeError as e: return contents.decode('utf-8', error='backslashreplace') def get_content_hash(self): """ Compute and return the MD5 hash for this file. """ if not self.rexists(): return SCons.Util.MD5signature('') fname = self.rfile().get_abspath() try: cs = SCons.Util.MD5filesignature(fname, chunksize=SCons.Node.FS.File.md5_chunksize*1024) except EnvironmentError as e: if not e.filename: e.filename = fname raise return cs @SCons.Memoize.CountMethodCall def get_size(self): try: return self._memo['get_size'] except KeyError: pass if self.rexists(): size = self.rfile().getsize() else: size = 0 self._memo['get_size'] = size return size @SCons.Memoize.CountMethodCall def get_timestamp(self): try: return self._memo['get_timestamp'] except KeyError: pass if self.rexists(): timestamp = self.rfile().getmtime() else: timestamp = 0 self._memo['get_timestamp'] = timestamp return timestamp convert_copy_attrs = [ 'bsources', 'bimplicit', 'bdepends', 'bact', 'bactsig', 'ninfo', ] convert_sig_attrs = [ 'bsourcesigs', 'bimplicitsigs', 'bdependsigs', ] def convert_old_entry(self, old_entry): # Convert a .sconsign entry from before the Big Signature # Refactoring, doing what we can to convert its information # to the new .sconsign entry format. # # The old format looked essentially like this: # # BuildInfo # .ninfo (NodeInfo) # .bsig # .csig # .timestamp # .size # .bsources # .bsourcesigs ("signature" list) # .bdepends # .bdependsigs ("signature" list) # .bimplicit # .bimplicitsigs ("signature" list) # .bact # .bactsig # # The new format looks like this: # # .ninfo (NodeInfo) # .bsig # .csig # .timestamp # .size # .binfo (BuildInfo) # .bsources # .bsourcesigs (NodeInfo list) # .bsig # .csig # .timestamp # .size # .bdepends # .bdependsigs (NodeInfo list) # .bsig # .csig # .timestamp # .size # .bimplicit # .bimplicitsigs (NodeInfo list) # .bsig # .csig # .timestamp # .size # .bact # .bactsig # # The basic idea of the new structure is that a NodeInfo always # holds all available information about the state of a given Node # at a certain point in time. The various .b*sigs lists can just # be a list of pointers to the .ninfo attributes of the different # dependent nodes, without any copying of information until it's # time to pickle it for writing out to a .sconsign file. # # The complicating issue is that the *old* format only stored one # "signature" per dependency, based on however the *last* build # was configured. We don't know from just looking at it whether # it was a build signature, a content signature, or a timestamp # "signature". Since we no longer use build signatures, the # best we can do is look at the length and if it's thirty two, # assume that it was (or might have been) a content signature. # If it was actually a build signature, then it will cause a # rebuild anyway when it doesn't match the new content signature, # but that's probably the best we can do. import SCons.SConsign new_entry = SCons.SConsign.SConsignEntry() new_entry.binfo = self.new_binfo() binfo = new_entry.binfo for attr in self.convert_copy_attrs: try: value = getattr(old_entry, attr) except AttributeError: continue setattr(binfo, attr, value) delattr(old_entry, attr) for attr in self.convert_sig_attrs: try: sig_list = getattr(old_entry, attr) except AttributeError: continue value = [] for sig in sig_list: ninfo = self.new_ninfo() if len(sig) == 32: ninfo.csig = sig else: ninfo.timestamp = sig value.append(ninfo) setattr(binfo, attr, value) delattr(old_entry, attr) return new_entry @SCons.Memoize.CountMethodCall def get_stored_info(self): try: return self._memo['get_stored_info'] except KeyError: pass try: sconsign_entry = self.dir.sconsign().get_entry(self.name) except (KeyError, EnvironmentError): import SCons.SConsign sconsign_entry = SCons.SConsign.SConsignEntry() sconsign_entry.binfo = self.new_binfo() sconsign_entry.ninfo = self.new_ninfo() else: if isinstance(sconsign_entry, FileBuildInfo): # This is a .sconsign file from before the Big Signature # Refactoring; convert it as best we can. sconsign_entry = self.convert_old_entry(sconsign_entry) try: delattr(sconsign_entry.ninfo, 'bsig') except AttributeError: pass self._memo['get_stored_info'] = sconsign_entry return sconsign_entry def get_stored_implicit(self): binfo = self.get_stored_info().binfo binfo.prepare_dependencies() try: return binfo.bimplicit except AttributeError: return None def rel_path(self, other): return self.dir.rel_path(other) def _get_found_includes_key(self, env, scanner, path): return (id(env), id(scanner), path) @SCons.Memoize.CountDictCall(_get_found_includes_key) def get_found_includes(self, env, scanner, path): """Return the included implicit dependencies in this file. Cache results so we only scan the file once per path regardless of how many times this information is requested. """ memo_key = (id(env), id(scanner), path) try: memo_dict = self._memo['get_found_includes'] except KeyError: memo_dict = {} self._memo['get_found_includes'] = memo_dict else: try: return memo_dict[memo_key] except KeyError: pass if scanner: result = [n.disambiguate() for n in scanner(self, env, path)] else: result = [] memo_dict[memo_key] = result return result def _createDir(self): # ensure that the directories for this node are # created. self.dir._create() def push_to_cache(self): """Try to push the node into a cache """ # This should get called before the Nodes' .built() method is # called, which would clear the build signature if the file has # a source scanner. # # We have to clear the local memoized values *before* we push # the node to cache so that the memoization of the self.exists() # return value doesn't interfere. if self.nocache: return self.clear_memoized_values() if self.exists(): self.get_build_env().get_CacheDir().push(self) def retrieve_from_cache(self): """Try to retrieve the node's content from a cache This method is called from multiple threads in a parallel build, so only do thread safe stuff here. Do thread unsafe stuff in built(). Returns true if the node was successfully retrieved. """ if self.nocache: return None if not self.is_derived(): return None return self.get_build_env().get_CacheDir().retrieve(self) def visited(self): if self.exists() and self.executor is not None: self.get_build_env().get_CacheDir().push_if_forced(self) ninfo = self.get_ninfo() csig = self.get_max_drift_csig() if csig: ninfo.csig = csig ninfo.timestamp = self.get_timestamp() ninfo.size = self.get_size() if not self.has_builder(): # This is a source file, but it might have been a target file # in another build that included more of the DAG. Copy # any build information that's stored in the .sconsign file # into our binfo object so it doesn't get lost. old = self.get_stored_info() self.get_binfo().merge(old.binfo) SCons.Node.store_info_map[self.store_info](self) def release_target_info(self): """Called just after this node has been marked up-to-date or was built completely. This is where we try to release as many target node infos as possible for clean builds and update runs, in order to minimize the overall memory consumption. We'd like to remove a lot more attributes like self.sources and self.sources_set, but they might get used in a next build step. For example, during configuration the source files for a built E{*}.o file are used to figure out which linker to use for the resulting Program (gcc vs. g++)! That's why we check for the 'keep_targetinfo' attribute, config Nodes and the Interactive mode just don't allow an early release of most variables. In the same manner, we can't simply remove the self.attributes here. The smart linking relies on the shared flag, and some parts of the java Tool use it to transport information about nodes... @see: built() and Node.release_target_info() """ if (self.released_target_info or SCons.Node.interactive): return if not hasattr(self.attributes, 'keep_targetinfo'): # Cache some required values, before releasing # stuff like env, executor and builder... self.changed(allowcache=True) self.get_contents_sig() self.get_build_env() # Now purge unneeded stuff to free memory... self.executor = None self._memo.pop('rfile', None) self.prerequisites = None # Cleanup lists, but only if they're empty if not len(self.ignore_set): self.ignore_set = None if not len(self.implicit_set): self.implicit_set = None if not len(self.depends_set): self.depends_set = None if not len(self.ignore): self.ignore = None if not len(self.depends): self.depends = None # Mark this node as done, we only have to release # the memory once... self.released_target_info = True def find_src_builder(self): if self.rexists(): return None scb = self.dir.src_builder() if scb is _null: scb = None if scb is not None: try: b = self.builder except AttributeError: b = None if b is None: self.builder_set(scb) return scb def has_src_builder(self): """Return whether this Node has a source builder or not. If this Node doesn't have an explicit source code builder, this is where we figure out, on the fly, if there's a transparent source code builder for it. Note that if we found a source builder, we also set the self.builder attribute, so that all of the methods that actually *build* this file don't have to do anything different. """ try: scb = self.sbuilder except AttributeError: scb = self.sbuilder = self.find_src_builder() return scb is not None def alter_targets(self): """Return any corresponding targets in a variant directory. """ if self.is_derived(): return [], None return self.fs.variant_dir_target_climb(self, self.dir, [self.name]) def _rmv_existing(self): self.clear_memoized_values() if SCons.Node.print_duplicate: print("dup: removing existing target {}".format(self)) e = Unlink(self, [], None) if isinstance(e, SCons.Errors.BuildError): raise e # # Taskmaster interface subsystem # def make_ready(self): self.has_src_builder() self.get_binfo() def prepare(self): """Prepare for this file to be created.""" SCons.Node.Node.prepare(self) if self.get_state() != SCons.Node.up_to_date: if self.exists(): if self.is_derived() and not self.precious: self._rmv_existing() else: try: self._createDir() except SCons.Errors.StopError as drive: raise SCons.Errors.StopError("No drive `{}' for target `{}'.".format(drive, self)) # # # def remove(self): """Remove this file.""" if self.exists() or self.islink(): self.fs.unlink(self.get_internal_path()) return 1 return None def do_duplicate(self, src): self._createDir() if SCons.Node.print_duplicate: print("dup: relinking variant '{}' from '{}'".format(self, src)) Unlink(self, None, None) e = Link(self, src, None) if isinstance(e, SCons.Errors.BuildError): raise SCons.Errors.StopError("Cannot duplicate `{}' in `{}': {}.".format(src.get_internal_path(), self.dir._path, e.errstr)) self.linked = 1 # The Link() action may or may not have actually # created the file, depending on whether the -n # option was used or not. Delete the _exists and # _rexists attributes so they can be reevaluated. self.clear() @SCons.Memoize.CountMethodCall def exists(self): try: return self._memo['exists'] except KeyError: pass result = SCons.Node._exists_map[self._func_exists](self) self._memo['exists'] = result return result # # SIGNATURE SUBSYSTEM # def get_max_drift_csig(self): """ Returns the content signature currently stored for this node if it's been unmodified longer than the max_drift value, or the max_drift value is 0. Returns None otherwise. """ old = self.get_stored_info() mtime = self.get_timestamp() max_drift = self.fs.max_drift if max_drift > 0: if (time.time() - mtime) > max_drift: try: n = old.ninfo if n.timestamp and n.csig and n.timestamp == mtime: return n.csig except AttributeError: pass elif max_drift == 0: try: return old.ninfo.csig except AttributeError: pass return None def get_csig(self): """ Generate a node's content signature, the digested signature of its content. node - the node cache - alternate node to use for the signature cache returns - the content signature """ ninfo = self.get_ninfo() try: return ninfo.csig except AttributeError: pass csig = self.get_max_drift_csig() if csig is None: try: if self.get_size() < SCons.Node.FS.File.md5_chunksize: contents = self.get_contents() else: csig = self.get_content_hash() except IOError: # This can happen if there's actually a directory on-disk, # which can be the case if they've disabled disk checks, # or if an action with a File target actually happens to # create a same-named directory by mistake. csig = '' else: if not csig: csig = SCons.Util.MD5signature(contents) ninfo.csig = csig return csig # # DECISION SUBSYSTEM # def builder_set(self, builder): SCons.Node.Node.builder_set(self, builder) self.changed_since_last_build = 5 def built(self): """Called just after this File node is successfully built. Just like for 'release_target_info' we try to release some more target node attributes in order to minimize the overall memory consumption. @see: release_target_info """ SCons.Node.Node.built(self) if (not SCons.Node.interactive and not hasattr(self.attributes, 'keep_targetinfo')): # Ensure that the build infos get computed and cached... SCons.Node.store_info_map[self.store_info](self) # ... then release some more variables. self._specific_sources = False self._labspath = None self._save_str() self.cwd = None self.scanner_paths = None def changed(self, node=None, allowcache=False): """ Returns if the node is up-to-date with respect to the BuildInfo stored last time it was built. For File nodes this is basically a wrapper around Node.changed(), but we allow the return value to get cached after the reference to the Executor got released in release_target_info(). @see: Node.changed() """ if node is None: try: return self._memo['changed'] except KeyError: pass has_changed = SCons.Node.Node.changed(self, node) if allowcache: self._memo['changed'] = has_changed return has_changed def changed_content(self, target, prev_ni): cur_csig = self.get_csig() try: return cur_csig != prev_ni.csig except AttributeError: return 1 def changed_state(self, target, prev_ni): return self.state != SCons.Node.up_to_date def changed_timestamp_then_content(self, target, prev_ni): if not self.changed_timestamp_match(target, prev_ni): try: self.get_ninfo().csig = prev_ni.csig except AttributeError: pass return False return self.changed_content(target, prev_ni) def changed_timestamp_newer(self, target, prev_ni): try: return self.get_timestamp() > target.get_timestamp() except AttributeError: return 1 def changed_timestamp_match(self, target, prev_ni): try: return self.get_timestamp() != prev_ni.timestamp except AttributeError: return 1 def is_up_to_date(self): T = 0 if T: Trace('is_up_to_date(%s):' % self) if not self.exists(): if T: Trace(' not self.exists():') # The file doesn't exist locally... r = self.rfile() if r != self: # ...but there is one in a Repository... if not self.changed(r): if T: Trace(' changed(%s):' % r) # ...and it's even up-to-date... if self._local: # ...and they'd like a local copy. e = LocalCopy(self, r, None) if isinstance(e, SCons.Errors.BuildError): raise SCons.Node.store_info_map[self.store_info](self) if T: Trace(' 1\n') return 1 self.changed() if T: Trace(' None\n') return None else: r = self.changed() if T: Trace(' self.exists(): %s\n' % r) return not r @SCons.Memoize.CountMethodCall def rfile(self): try: return self._memo['rfile'] except KeyError: pass result = self if not self.exists(): norm_name = _my_normcase(self.name) for dir in self.dir.get_all_rdirs(): try: node = dir.entries[norm_name] except KeyError: node = dir.file_on_disk(self.name) if node and node.exists() and \ (isinstance(node, File) or isinstance(node, Entry) \ or not node.is_derived()): result = node # Copy over our local attributes to the repository # Node so we identify shared object files in the # repository and don't assume they're static. # # This isn't perfect; the attribute would ideally # be attached to the object in the repository in # case it was built statically in the repository # and we changed it to shared locally, but that's # rarely the case and would only occur if you # intentionally used the same suffix for both # shared and static objects anyway. So this # should work well in practice. result.attributes = self.attributes break self._memo['rfile'] = result return result def rstr(self): return str(self.rfile()) def get_cachedir_csig(self): """ Fetch a Node's content signature for purposes of computing another Node's cachesig. This is a wrapper around the normal get_csig() method that handles the somewhat obscure case of using CacheDir with the -n option. Any files that don't exist would normally be "built" by fetching them from the cache, but the normal get_csig() method will try to open up the local file, which doesn't exist because the -n option meant we didn't actually pull the file from cachedir. But since the file *does* actually exist in the cachedir, we can use its contents for the csig. """ try: return self.cachedir_csig except AttributeError: pass cachedir, cachefile = self.get_build_env().get_CacheDir().cachepath(self) if not self.exists() and cachefile and os.path.exists(cachefile): self.cachedir_csig = SCons.Util.MD5filesignature(cachefile, \ SCons.Node.FS.File.md5_chunksize * 1024) else: self.cachedir_csig = self.get_csig() return self.cachedir_csig def get_contents_sig(self): """ A helper method for get_cachedir_bsig. It computes and returns the signature for this node's contents. """ try: return self.contentsig except AttributeError: pass executor = self.get_executor() result = self.contentsig = SCons.Util.MD5signature(executor.get_contents()) return result def get_cachedir_bsig(self): """ Return the signature for a cached file, including its children. It adds the path of the cached file to the cache signature, because multiple targets built by the same action will all have the same build signature, and we have to differentiate them somehow. """ try: return self.cachesig except AttributeError: pass # Collect signatures for all children children = self.children() sigs = [n.get_cachedir_csig() for n in children] # Append this node's signature... sigs.append(self.get_contents_sig()) # ...and it's path sigs.append(self.get_internal_path()) # Merge this all into a single signature result = self.cachesig = SCons.Util.MD5collect(sigs) return result default_fs = None def get_default_fs(): global default_fs if not default_fs: default_fs = FS() return default_fs class FileFinder(object): """ """ def __init__(self): self._memo = {} def filedir_lookup(self, p, fd=None): """ A helper method for find_file() that looks up a directory for a file we're trying to find. This only creates the Dir Node if it exists on-disk, since if the directory doesn't exist we know we won't find any files in it... :-) It would be more compact to just use this as a nested function with a default keyword argument (see the commented-out version below), but that doesn't work unless you have nested scopes, so we define it here just so this work under Python 1.5.2. """ if fd is None: fd = self.default_filedir dir, name = os.path.split(fd) drive, d = _my_splitdrive(dir) if not name and d[:1] in ('/', OS_SEP): #return p.fs.get_root(drive).dir_on_disk(name) return p.fs.get_root(drive) if dir: p = self.filedir_lookup(p, dir) if not p: return None norm_name = _my_normcase(name) try: node = p.entries[norm_name] except KeyError: return p.dir_on_disk(name) if isinstance(node, Dir): return node if isinstance(node, Entry): node.must_be_same(Dir) return node return None def _find_file_key(self, filename, paths, verbose=None): return (filename, paths) @SCons.Memoize.CountDictCall(_find_file_key) def find_file(self, filename, paths, verbose=None): """ Find a node corresponding to either a derived file or a file that exists already. Only the first file found is returned, and none is returned if no file is found. filename: A filename to find paths: A list of directory path *nodes* to search in. Can be represented as a list, a tuple, or a callable that is called with no arguments and returns the list or tuple. returns The node created from the found file. """ memo_key = self._find_file_key(filename, paths) try: memo_dict = self._memo['find_file'] except KeyError: memo_dict = {} self._memo['find_file'] = memo_dict else: try: return memo_dict[memo_key] except KeyError: pass if verbose and not callable(verbose): if not SCons.Util.is_String(verbose): verbose = "find_file" _verbose = u' %s: ' % verbose verbose = lambda s: sys.stdout.write(_verbose + s) filedir, filename = os.path.split(filename) if filedir: self.default_filedir = filedir paths = [_f for _f in map(self.filedir_lookup, paths) if _f] result = None for dir in paths: if verbose: verbose("looking for '%s' in '%s' ...\n" % (filename, dir)) node, d = dir.srcdir_find_file(filename) if node: if verbose: verbose("... FOUND '%s' in '%s'\n" % (filename, d)) result = node break memo_dict[memo_key] = result return result find_file = FileFinder().find_file def invalidate_node_memos(targets): """ Invalidate the memoized values of all Nodes (files or directories) that are associated with the given entries. Has been added to clear the cache of nodes affected by a direct execution of an action (e.g. Delete/Copy/Chmod). Existing Node caches become inconsistent if the action is run through Execute(). The argument `targets` can be a single Node object or filename, or a sequence of Nodes/filenames. """ from traceback import extract_stack # First check if the cache really needs to be flushed. Only # actions run in the SConscript with Execute() seem to be # affected. XXX The way to check if Execute() is in the stacktrace # is a very dirty hack and should be replaced by a more sensible # solution. for f in extract_stack(): if f[2] == 'Execute' and f[0][-14:] == 'Environment.py': break else: # Dont have to invalidate, so return return if not SCons.Util.is_List(targets): targets = [targets] for entry in targets: # If the target is a Node object, clear the cache. If it is a # filename, look up potentially existing Node object first. try: entry.clear_memoized_values() except AttributeError: # Not a Node object, try to look up Node by filename. XXX # This creates Node objects even for those filenames which # do not correspond to an existing Node object. node = get_default_fs().Entry(entry) if node: node.clear_memoized_values() # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Node/__init__.py0000664000175000017500000017022013202656511021433 0ustar bdbaddogbdbaddog00000000000000"""SCons.Node The Node package for the SCons software construction utility. This is, in many ways, the heart of SCons. A Node is where we encapsulate all of the dependency information about any thing that SCons can build, or about any thing which SCons can use to build some other thing. The canonical "thing," of course, is a file, but a Node can also represent something remote (like a web page) or something completely abstract (like an Alias). Each specific type of "thing" is specifically represented by a subclass of the Node base class: Node.FS.File for files, Node.Alias for aliases, etc. Dependency information is kept here in the base class, and information specific to files/aliases/etc. is in the subclass. The goal, if we've done this correctly, is that any type of "thing" should be able to depend on any other type of "thing." """ from __future__ import print_function # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Node/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import collections import copy from itertools import chain import SCons.Debug from SCons.Debug import logInstanceCreation import SCons.Executor import SCons.Memoize import SCons.Util from SCons.Debug import Trace from SCons.compat import with_metaclass, NoSlotsPyPy print_duplicate = 0 def classname(obj): return str(obj.__class__).split('.')[-1] # Set to false if we're doing a dry run. There's more than one of these # little treats do_store_info = True # Node states # # These are in "priority" order, so that the maximum value for any # child/dependency of a node represents the state of that node if # it has no builder of its own. The canonical example is a file # system directory, which is only up to date if all of its children # were up to date. no_state = 0 pending = 1 executing = 2 up_to_date = 3 executed = 4 failed = 5 StateString = { 0 : "no_state", 1 : "pending", 2 : "executing", 3 : "up_to_date", 4 : "executed", 5 : "failed", } # controls whether implicit dependencies are cached: implicit_cache = 0 # controls whether implicit dep changes are ignored: implicit_deps_unchanged = 0 # controls whether the cached implicit deps are ignored: implicit_deps_changed = 0 # A variable that can be set to an interface-specific function be called # to annotate a Node with information about its creation. def do_nothing(node): pass Annotate = do_nothing # Gets set to 'True' if we're running in interactive mode. Is # currently used to release parts of a target's info during # clean builds and update runs (see release_target_info). interactive = False def is_derived_none(node): raise NotImplementedError def is_derived_node(node): """ Returns true if this node is derived (i.e. built). """ return node.has_builder() or node.side_effect _is_derived_map = {0 : is_derived_none, 1 : is_derived_node} def exists_none(node): raise NotImplementedError def exists_always(node): return 1 def exists_base(node): return node.stat() is not None def exists_entry(node): """Return if the Entry exists. Check the file system to see what we should turn into first. Assume a file if there's no directory.""" node.disambiguate() return _exists_map[node._func_exists](node) def exists_file(node): # Duplicate from source path if we are set up to do this. if node.duplicate and not node.is_derived() and not node.linked: src = node.srcnode() if src is not node: # At this point, src is meant to be copied in a variant directory. src = src.rfile() if src.get_abspath() != node.get_abspath(): if src.exists(): node.do_duplicate(src) # Can't return 1 here because the duplication might # not actually occur if the -n option is being used. else: # The source file does not exist. Make sure no old # copy remains in the variant directory. if print_duplicate: print("dup: no src for %s, unlinking old variant copy"%self) if exists_base(node) or node.islink(): node.fs.unlink(node.get_internal_path()) # Return None explicitly because the Base.exists() call # above will have cached its value if the file existed. return None return exists_base(node) _exists_map = {0 : exists_none, 1 : exists_always, 2 : exists_base, 3 : exists_entry, 4 : exists_file} def rexists_none(node): raise NotImplementedError def rexists_node(node): return node.exists() def rexists_base(node): return node.rfile().exists() _rexists_map = {0 : rexists_none, 1 : rexists_node, 2 : rexists_base} def get_contents_none(node): raise NotImplementedError def get_contents_entry(node): """Fetch the contents of the entry. Returns the exact binary contents of the file.""" try: node = node.disambiguate(must_exist=1) except SCons.Errors.UserError: # There was nothing on disk with which to disambiguate # this entry. Leave it as an Entry, but return a null # string so calls to get_contents() in emitters and the # like (e.g. in qt.py) don't have to disambiguate by hand # or catch the exception. return '' else: return _get_contents_map[node._func_get_contents](node) def get_contents_dir(node): """Return content signatures and names of all our children separated by new-lines. Ensure that the nodes are sorted.""" contents = [] for n in sorted(node.children(), key=lambda t: t.name): contents.append('%s %s\n' % (n.get_csig(), n.name)) return ''.join(contents) def get_contents_file(node): if not node.rexists(): return b'' fname = node.rfile().get_abspath() try: with open(fname, "rb") as fp: contents = fp.read() except EnvironmentError as e: if not e.filename: e.filename = fname raise return contents _get_contents_map = {0 : get_contents_none, 1 : get_contents_entry, 2 : get_contents_dir, 3 : get_contents_file} def target_from_source_none(node, prefix, suffix, splitext): raise NotImplementedError def target_from_source_base(node, prefix, suffix, splitext): return node.dir.Entry(prefix + splitext(node.name)[0] + suffix) _target_from_source_map = {0 : target_from_source_none, 1 : target_from_source_base} # # The new decider subsystem for Nodes # # We would set and overwrite the changed_since_last_build function # before, but for being able to use slots (less memory!) we now have # a dictionary of the different decider functions. Then in the Node # subclasses we simply store the index to the decider that should be # used by it. # # # First, the single decider functions # def changed_since_last_build_node(node, target, prev_ni): """ Must be overridden in a specific subclass to return True if this Node (a dependency) has changed since the last time it was used to build the specified target. prev_ni is this Node's state (for example, its file timestamp, length, maybe content signature) as of the last time the target was built. Note that this method is called through the dependency, not the target, because a dependency Node must be able to use its own logic to decide if it changed. For example, File Nodes need to obey if we're configured to use timestamps, but Python Value Nodes never use timestamps and always use the content. If this method were called through the target, then each Node's implementation of this method would have to have more complicated logic to handle all the different Node types on which it might depend. """ raise NotImplementedError def changed_since_last_build_alias(node, target, prev_ni): cur_csig = node.get_csig() try: return cur_csig != prev_ni.csig except AttributeError: return 1 def changed_since_last_build_entry(node, target, prev_ni): node.disambiguate() return _decider_map[node.changed_since_last_build](node, target, prev_ni) def changed_since_last_build_state_changed(node, target, prev_ni): return (node.state != SCons.Node.up_to_date) def decide_source(node, target, prev_ni): return target.get_build_env().decide_source(node, target, prev_ni) def decide_target(node, target, prev_ni): return target.get_build_env().decide_target(node, target, prev_ni) def changed_since_last_build_python(node, target, prev_ni): cur_csig = node.get_csig() try: return cur_csig != prev_ni.csig except AttributeError: return 1 # # Now, the mapping from indices to decider functions # _decider_map = {0 : changed_since_last_build_node, 1 : changed_since_last_build_alias, 2 : changed_since_last_build_entry, 3 : changed_since_last_build_state_changed, 4 : decide_source, 5 : decide_target, 6 : changed_since_last_build_python} do_store_info = True # # The new store_info subsystem for Nodes # # We would set and overwrite the store_info function # before, but for being able to use slots (less memory!) we now have # a dictionary of the different functions. Then in the Node # subclasses we simply store the index to the info method that should be # used by it. # # # First, the single info functions # def store_info_pass(node): pass def store_info_file(node): # Merge our build information into the already-stored entry. # This accommodates "chained builds" where a file that's a target # in one build (SConstruct file) is a source in a different build. # See test/chained-build.py for the use case. if do_store_info: node.dir.sconsign().store_info(node.name, node) store_info_map = {0 : store_info_pass, 1 : store_info_file} # Classes for signature info for Nodes. class NodeInfoBase(object): """ The generic base class for signature information for a Node. Node subclasses should subclass NodeInfoBase to provide their own logic for dealing with their own Node-specific signature information. """ __slots__ = ('__weakref__',) current_version_id = 2 def update(self, node): try: field_list = self.field_list except AttributeError: return for f in field_list: try: delattr(self, f) except AttributeError: pass try: func = getattr(node, 'get_' + f) except AttributeError: pass else: setattr(self, f, func()) def convert(self, node, val): pass def merge(self, other): """ Merge the fields of another object into this object. Already existing information is overwritten by the other instance's data. WARNING: If a '__dict__' slot is added, it should be updated instead of replaced. """ state = other.__getstate__() self.__setstate__(state) def format(self, field_list=None, names=0): if field_list is None: try: field_list = self.field_list except AttributeError: field_list = list(getattr(self, '__dict__', {}).keys()) for obj in type(self).mro(): for slot in getattr(obj, '__slots__', ()): if slot not in ('__weakref__', '__dict__'): field_list.append(slot) field_list.sort() fields = [] for field in field_list: try: f = getattr(self, field) except AttributeError: f = None f = str(f) if names: f = field + ': ' + f fields.append(f) return fields def __getstate__(self): """ Return all fields that shall be pickled. Walk the slots in the class hierarchy and add those to the state dictionary. If a '__dict__' slot is available, copy all entries to the dictionary. Also include the version id, which is fixed for all instances of a class. """ state = getattr(self, '__dict__', {}).copy() for obj in type(self).mro(): for name in getattr(obj,'__slots__',()): if hasattr(self, name): state[name] = getattr(self, name) state['_version_id'] = self.current_version_id try: del state['__weakref__'] except KeyError: pass return state def __setstate__(self, state): """ Restore the attributes from a pickled state. The version is discarded. """ # TODO check or discard version del state['_version_id'] for key, value in state.items(): if key not in ('__weakref__',): setattr(self, key, value) class BuildInfoBase(object): """ The generic base class for build information for a Node. This is what gets stored in a .sconsign file for each target file. It contains a NodeInfo instance for this node (signature information that's specific to the type of Node) and direct attributes for the generic build stuff we have to track: sources, explicit dependencies, implicit dependencies, and action information. """ __slots__ = ("bsourcesigs", "bdependsigs", "bimplicitsigs", "bactsig", "bsources", "bdepends", "bact", "bimplicit", "__weakref__") current_version_id = 2 def __init__(self): # Create an object attribute from the class attribute so it ends up # in the pickled data in the .sconsign file. self.bsourcesigs = [] self.bdependsigs = [] self.bimplicitsigs = [] self.bactsig = None def merge(self, other): """ Merge the fields of another object into this object. Already existing information is overwritten by the other instance's data. WARNING: If a '__dict__' slot is added, it should be updated instead of replaced. """ state = other.__getstate__() self.__setstate__(state) def __getstate__(self): """ Return all fields that shall be pickled. Walk the slots in the class hierarchy and add those to the state dictionary. If a '__dict__' slot is available, copy all entries to the dictionary. Also include the version id, which is fixed for all instances of a class. """ state = getattr(self, '__dict__', {}).copy() for obj in type(self).mro(): for name in getattr(obj,'__slots__',()): if hasattr(self, name): state[name] = getattr(self, name) state['_version_id'] = self.current_version_id try: del state['__weakref__'] except KeyError: pass return state def __setstate__(self, state): """ Restore the attributes from a pickled state. """ # TODO check or discard version del state['_version_id'] for key, value in state.items(): if key not in ('__weakref__',): setattr(self, key, value) class Node(object, with_metaclass(NoSlotsPyPy)): """The base Node class, for entities that we know how to build, or use to build other Nodes. """ __slots__ = ['sources', 'sources_set', '_specific_sources', 'depends', 'depends_set', 'ignore', 'ignore_set', 'prerequisites', 'implicit', 'waiting_parents', 'waiting_s_e', 'ref_count', 'wkids', 'env', 'state', 'precious', 'noclean', 'nocache', 'cached', 'always_build', 'includes', 'attributes', 'side_effect', 'side_effects', 'linked', '_memo', 'executor', 'binfo', 'ninfo', 'builder', 'is_explicit', 'implicit_set', 'changed_since_last_build', 'store_info', 'pseudo', '_tags', '_func_is_derived', '_func_exists', '_func_rexists', '_func_get_contents', '_func_target_from_source'] class Attrs(object): __slots__ = ('shared', '__dict__') def __init__(self): if SCons.Debug.track_instances: logInstanceCreation(self, 'Node.Node') # Note that we no longer explicitly initialize a self.builder # attribute to None here. That's because the self.builder # attribute may be created on-the-fly later by a subclass (the # canonical example being a builder to fetch a file from a # source code system like CVS or Subversion). # Each list of children that we maintain is accompanied by a # dictionary used to look up quickly whether a node is already # present in the list. Empirical tests showed that it was # fastest to maintain them as side-by-side Node attributes in # this way, instead of wrapping up each list+dictionary pair in # a class. (Of course, we could always still do that in the # future if we had a good reason to...). self.sources = [] # source files used to build node self.sources_set = set() self._specific_sources = False self.depends = [] # explicit dependencies (from Depends) self.depends_set = set() self.ignore = [] # dependencies to ignore self.ignore_set = set() self.prerequisites = None self.implicit = None # implicit (scanned) dependencies (None means not scanned yet) self.waiting_parents = set() self.waiting_s_e = set() self.ref_count = 0 self.wkids = None # Kids yet to walk, when it's an array self.env = None self.state = no_state self.precious = None self.pseudo = False self.noclean = 0 self.nocache = 0 self.cached = 0 # is this node pulled from cache? self.always_build = None self.includes = None self.attributes = self.Attrs() # Generic place to stick information about the Node. self.side_effect = 0 # true iff this node is a side effect self.side_effects = [] # the side effects of building this target self.linked = 0 # is this node linked to the variant directory? self.changed_since_last_build = 0 self.store_info = 0 self._tags = None self._func_is_derived = 1 self._func_exists = 1 self._func_rexists = 1 self._func_get_contents = 0 self._func_target_from_source = 0 self.clear_memoized_values() # Let the interface in which the build engine is embedded # annotate this Node with its own info (like a description of # what line in what file created the node, for example). Annotate(self) def disambiguate(self, must_exist=None): return self def get_suffix(self): return '' @SCons.Memoize.CountMethodCall def get_build_env(self): """Fetch the appropriate Environment to build this node. """ try: return self._memo['get_build_env'] except KeyError: pass result = self.get_executor().get_build_env() self._memo['get_build_env'] = result return result def get_build_scanner_path(self, scanner): """Fetch the appropriate scanner path for this node.""" return self.get_executor().get_build_scanner_path(scanner) def set_executor(self, executor): """Set the action executor for this node.""" self.executor = executor def get_executor(self, create=1): """Fetch the action executor for this node. Create one if there isn't already one, and requested to do so.""" try: executor = self.executor except AttributeError: if not create: raise try: act = self.builder.action except AttributeError: executor = SCons.Executor.Null(targets=[self]) else: executor = SCons.Executor.Executor(act, self.env or self.builder.env, [self.builder.overrides], [self], self.sources) self.executor = executor return executor def executor_cleanup(self): """Let the executor clean up any cached information.""" try: executor = self.get_executor(create=None) except AttributeError: pass else: if executor is not None: executor.cleanup() def reset_executor(self): "Remove cached executor; forces recompute when needed." try: delattr(self, 'executor') except AttributeError: pass def push_to_cache(self): """Try to push a node into a cache """ pass def retrieve_from_cache(self): """Try to retrieve the node's content from a cache This method is called from multiple threads in a parallel build, so only do thread safe stuff here. Do thread unsafe stuff in built(). Returns true if the node was successfully retrieved. """ return 0 # # Taskmaster interface subsystem # def make_ready(self): """Get a Node ready for evaluation. This is called before the Taskmaster decides if the Node is up-to-date or not. Overriding this method allows for a Node subclass to be disambiguated if necessary, or for an implicit source builder to be attached. """ pass def prepare(self): """Prepare for this Node to be built. This is called after the Taskmaster has decided that the Node is out-of-date and must be rebuilt, but before actually calling the method to build the Node. This default implementation checks that explicit or implicit dependencies either exist or are derived, and initializes the BuildInfo structure that will hold the information about how this node is, uh, built. (The existence of source files is checked separately by the Executor, which aggregates checks for all of the targets built by a specific action.) Overriding this method allows for for a Node subclass to remove the underlying file from the file system. Note that subclass methods should call this base class method to get the child check and the BuildInfo structure. """ if self.depends is not None: for d in self.depends: if d.missing(): msg = "Explicit dependency `%s' not found, needed by target `%s'." raise SCons.Errors.StopError(msg % (d, self)) if self.implicit is not None: for i in self.implicit: if i.missing(): msg = "Implicit dependency `%s' not found, needed by target `%s'." raise SCons.Errors.StopError(msg % (i, self)) self.binfo = self.get_binfo() def build(self, **kw): """Actually build the node. This is called by the Taskmaster after it's decided that the Node is out-of-date and must be rebuilt, and after the prepare() method has gotten everything, uh, prepared. This method is called from multiple threads in a parallel build, so only do thread safe stuff here. Do thread unsafe stuff in built(). """ try: self.get_executor()(self, **kw) except SCons.Errors.BuildError as e: e.node = self raise def built(self): """Called just after this node is successfully built.""" # Clear the implicit dependency caches of any Nodes # waiting for this Node to be built. for parent in self.waiting_parents: parent.implicit = None self.clear() if self.pseudo: if self.exists(): raise SCons.Errors.UserError("Pseudo target " + str(self) + " must not exist") else: if not self.exists() and do_store_info: SCons.Warnings.warn(SCons.Warnings.TargetNotBuiltWarning, "Cannot find target " + str(self) + " after building") self.ninfo.update(self) def visited(self): """Called just after this node has been visited (with or without a build).""" try: binfo = self.binfo except AttributeError: # Apparently this node doesn't need build info, so # don't bother calculating or storing it. pass else: self.ninfo.update(self) SCons.Node.store_info_map[self.store_info](self) def release_target_info(self): """Called just after this node has been marked up-to-date or was built completely. This is where we try to release as many target node infos as possible for clean builds and update runs, in order to minimize the overall memory consumption. By purging attributes that aren't needed any longer after a Node (=File) got built, we don't have to care that much how many KBytes a Node actually requires...as long as we free the memory shortly afterwards. @see: built() and File.release_target_info() """ pass # # # def add_to_waiting_s_e(self, node): self.waiting_s_e.add(node) def add_to_waiting_parents(self, node): """ Returns the number of nodes added to our waiting parents list: 1 if we add a unique waiting parent, 0 if not. (Note that the returned values are intended to be used to increment a reference count, so don't think you can "clean up" this function by using True and False instead...) """ wp = self.waiting_parents if node in wp: return 0 wp.add(node) return 1 def postprocess(self): """Clean up anything we don't need to hang onto after we've been built.""" self.executor_cleanup() self.waiting_parents = set() def clear(self): """Completely clear a Node of all its cached state (so that it can be re-evaluated by interfaces that do continuous integration builds). """ # The del_binfo() call here isn't necessary for normal execution, # but is for interactive mode, where we might rebuild the same # target and need to start from scratch. self.del_binfo() self.clear_memoized_values() self.ninfo = self.new_ninfo() self.executor_cleanup() try: delattr(self, '_calculated_sig') except AttributeError: pass self.includes = None def clear_memoized_values(self): self._memo = {} def builder_set(self, builder): self.builder = builder try: del self.executor except AttributeError: pass def has_builder(self): """Return whether this Node has a builder or not. In Boolean tests, this turns out to be a *lot* more efficient than simply examining the builder attribute directly ("if node.builder: ..."). When the builder attribute is examined directly, it ends up calling __getattr__ for both the __len__ and __nonzero__ attributes on instances of our Builder Proxy class(es), generating a bazillion extra calls and slowing things down immensely. """ try: b = self.builder except AttributeError: # There was no explicit builder for this Node, so initialize # the self.builder attribute to None now. b = self.builder = None return b is not None def set_explicit(self, is_explicit): self.is_explicit = is_explicit def has_explicit_builder(self): """Return whether this Node has an explicit builder This allows an internal Builder created by SCons to be marked non-explicit, so that it can be overridden by an explicit builder that the user supplies (the canonical example being directories).""" try: return self.is_explicit except AttributeError: self.is_explicit = None return self.is_explicit def get_builder(self, default_builder=None): """Return the set builder, or a specified default value""" try: return self.builder except AttributeError: return default_builder multiple_side_effect_has_builder = has_builder def is_derived(self): """ Returns true if this node is derived (i.e. built). This should return true only for nodes whose path should be in the variant directory when duplicate=0 and should contribute their build signatures when they are used as source files to other derived files. For example: source with source builders are not derived in this sense, and hence should not return true. """ return _is_derived_map[self._func_is_derived](self) def alter_targets(self): """Return a list of alternate targets for this Node. """ return [], None def get_found_includes(self, env, scanner, path): """Return the scanned include lines (implicit dependencies) found in this node. The default is no implicit dependencies. We expect this method to be overridden by any subclass that can be scanned for implicit dependencies. """ return [] def get_implicit_deps(self, env, initial_scanner, path_func, kw = {}): """Return a list of implicit dependencies for this node. This method exists to handle recursive invocation of the scanner on the implicit dependencies returned by the scanner, if the scanner's recursive flag says that we should. """ nodes = [self] seen = set(nodes) dependencies = [] path_memo = {} root_node_scanner = self._get_scanner(env, initial_scanner, None, kw) while nodes: node = nodes.pop(0) scanner = node._get_scanner(env, initial_scanner, root_node_scanner, kw) if not scanner: continue try: path = path_memo[scanner] except KeyError: path = path_func(scanner) path_memo[scanner] = path included_deps = [x for x in node.get_found_includes(env, scanner, path) if x not in seen] if included_deps: dependencies.extend(included_deps) seen.update(included_deps) nodes.extend(scanner.recurse_nodes(included_deps)) return dependencies def _get_scanner(self, env, initial_scanner, root_node_scanner, kw): if initial_scanner: # handle explicit scanner case scanner = initial_scanner.select(self) else: # handle implicit scanner case scanner = self.get_env_scanner(env, kw) if scanner: scanner = scanner.select(self) if not scanner: # no scanner could be found for the given node's scanner key; # thus, make an attempt at using a default. scanner = root_node_scanner return scanner def get_env_scanner(self, env, kw={}): return env.get_scanner(self.scanner_key()) def get_target_scanner(self): return self.builder.target_scanner def get_source_scanner(self, node): """Fetch the source scanner for the specified node NOTE: "self" is the target being built, "node" is the source file for which we want to fetch the scanner. Implies self.has_builder() is true; again, expect to only be called from locations where this is already verified. This function may be called very often; it attempts to cache the scanner found to improve performance. """ scanner = None try: scanner = self.builder.source_scanner except AttributeError: pass if not scanner: # The builder didn't have an explicit scanner, so go look up # a scanner from env['SCANNERS'] based on the node's scanner # key (usually the file extension). scanner = self.get_env_scanner(self.get_build_env()) if scanner: scanner = scanner.select(node) return scanner def add_to_implicit(self, deps): if not hasattr(self, 'implicit') or self.implicit is None: self.implicit = [] self.implicit_set = set() self._children_reset() self._add_child(self.implicit, self.implicit_set, deps) def scan(self): """Scan this node's dependents for implicit dependencies.""" # Don't bother scanning non-derived files, because we don't # care what their dependencies are. # Don't scan again, if we already have scanned. if self.implicit is not None: return self.implicit = [] self.implicit_set = set() self._children_reset() if not self.has_builder(): return build_env = self.get_build_env() executor = self.get_executor() # Here's where we implement --implicit-cache. if implicit_cache and not implicit_deps_changed: implicit = self.get_stored_implicit() if implicit is not None: # We now add the implicit dependencies returned from the # stored .sconsign entry to have already been converted # to Nodes for us. (We used to run them through a # source_factory function here.) # Update all of the targets with them. This # essentially short-circuits an N*M scan of the # sources for each individual target, which is a hell # of a lot more efficient. for tgt in executor.get_all_targets(): tgt.add_to_implicit(implicit) if implicit_deps_unchanged or self.is_up_to_date(): return # one of this node's sources has changed, # so we must recalculate the implicit deps for all targets for tgt in executor.get_all_targets(): tgt.implicit = [] tgt.implicit_set = set() # Have the executor scan the sources. executor.scan_sources(self.builder.source_scanner) # If there's a target scanner, have the executor scan the target # node itself and associated targets that might be built. scanner = self.get_target_scanner() if scanner: executor.scan_targets(scanner) def scanner_key(self): return None def select_scanner(self, scanner): """Selects a scanner for this Node. This is a separate method so it can be overridden by Node subclasses (specifically, Node.FS.Dir) that *must* use their own Scanner and don't select one the Scanner.Selector that's configured for the target. """ return scanner.select(self) def env_set(self, env, safe=0): if safe and self.env: return self.env = env # # SIGNATURE SUBSYSTEM # NodeInfo = NodeInfoBase BuildInfo = BuildInfoBase def new_ninfo(self): ninfo = self.NodeInfo() return ninfo def get_ninfo(self): try: return self.ninfo except AttributeError: self.ninfo = self.new_ninfo() return self.ninfo def new_binfo(self): binfo = self.BuildInfo() return binfo def get_binfo(self): """ Fetch a node's build information. node - the node whose sources will be collected cache - alternate node to use for the signature cache returns - the build signature This no longer handles the recursive descent of the node's children's signatures. We expect that they're already built and updated by someone else, if that's what's wanted. """ try: return self.binfo except AttributeError: pass binfo = self.new_binfo() self.binfo = binfo executor = self.get_executor() ignore_set = self.ignore_set if self.has_builder(): binfo.bact = str(executor) binfo.bactsig = SCons.Util.MD5signature(executor.get_contents()) if self._specific_sources: sources = [ s for s in self.sources if not s in ignore_set] else: sources = executor.get_unignored_sources(self, self.ignore) seen = set() binfo.bsources = [s for s in sources if s not in seen and not seen.add(s)] binfo.bsourcesigs = [s.get_ninfo() for s in binfo.bsources] binfo.bdepends = self.depends binfo.bdependsigs = [d.get_ninfo() for d in self.depends if d not in ignore_set] binfo.bimplicit = self.implicit or [] binfo.bimplicitsigs = [i.get_ninfo() for i in binfo.bimplicit if i not in ignore_set] return binfo def del_binfo(self): """Delete the build info from this node.""" try: delattr(self, 'binfo') except AttributeError: pass def get_csig(self): try: return self.ninfo.csig except AttributeError: ninfo = self.get_ninfo() ninfo.csig = SCons.Util.MD5signature(self.get_contents()) return self.ninfo.csig def get_cachedir_csig(self): return self.get_csig() def get_stored_info(self): return None def get_stored_implicit(self): """Fetch the stored implicit dependencies""" return None # # # def set_precious(self, precious = 1): """Set the Node's precious value.""" self.precious = precious def set_pseudo(self, pseudo = True): """Set the Node's precious value.""" self.pseudo = pseudo def set_noclean(self, noclean = 1): """Set the Node's noclean value.""" # Make sure noclean is an integer so the --debug=stree # output in Util.py can use it as an index. self.noclean = noclean and 1 or 0 def set_nocache(self, nocache = 1): """Set the Node's nocache value.""" # Make sure nocache is an integer so the --debug=stree # output in Util.py can use it as an index. self.nocache = nocache and 1 or 0 def set_always_build(self, always_build = 1): """Set the Node's always_build value.""" self.always_build = always_build def exists(self): """Does this node exists?""" return _exists_map[self._func_exists](self) def rexists(self): """Does this node exist locally or in a repositiory?""" # There are no repositories by default: return _rexists_map[self._func_rexists](self) def get_contents(self): """Fetch the contents of the entry.""" return _get_contents_map[self._func_get_contents](self) def missing(self): return not self.is_derived() and \ not self.linked and \ not self.rexists() def remove(self): """Remove this Node: no-op by default.""" return None def add_dependency(self, depend): """Adds dependencies.""" try: self._add_child(self.depends, self.depends_set, depend) except TypeError as e: e = e.args[0] if SCons.Util.is_List(e): s = list(map(str, e)) else: s = str(e) raise SCons.Errors.UserError("attempted to add a non-Node dependency to %s:\n\t%s is a %s, not a Node" % (str(self), s, type(e))) def add_prerequisite(self, prerequisite): """Adds prerequisites""" if self.prerequisites is None: self.prerequisites = SCons.Util.UniqueList() self.prerequisites.extend(prerequisite) self._children_reset() def add_ignore(self, depend): """Adds dependencies to ignore.""" try: self._add_child(self.ignore, self.ignore_set, depend) except TypeError as e: e = e.args[0] if SCons.Util.is_List(e): s = list(map(str, e)) else: s = str(e) raise SCons.Errors.UserError("attempted to ignore a non-Node dependency of %s:\n\t%s is a %s, not a Node" % (str(self), s, type(e))) def add_source(self, source): """Adds sources.""" if self._specific_sources: return try: self._add_child(self.sources, self.sources_set, source) except TypeError as e: e = e.args[0] if SCons.Util.is_List(e): s = list(map(str, e)) else: s = str(e) raise SCons.Errors.UserError("attempted to add a non-Node as source of %s:\n\t%s is a %s, not a Node" % (str(self), s, type(e))) def _add_child(self, collection, set, child): """Adds 'child' to 'collection', first checking 'set' to see if it's already present.""" added = None for c in child: if c not in set: set.add(c) collection.append(c) added = 1 if added: self._children_reset() def set_specific_source(self, source): self.add_source(source) self._specific_sources = True def add_wkid(self, wkid): """Add a node to the list of kids waiting to be evaluated""" if self.wkids is not None: self.wkids.append(wkid) def _children_reset(self): self.clear_memoized_values() # We need to let the Executor clear out any calculated # build info that it's cached so we can re-calculate it. self.executor_cleanup() @SCons.Memoize.CountMethodCall def _children_get(self): try: return self._memo['_children_get'] except KeyError: pass # The return list may contain duplicate Nodes, especially in # source trees where there are a lot of repeated #includes # of a tangle of .h files. Profiling shows, however, that # eliminating the duplicates with a brute-force approach that # preserves the order (that is, something like: # # u = [] # for n in list: # if n not in u: # u.append(n)" # # takes more cycles than just letting the underlying methods # hand back cached values if a Node's information is requested # multiple times. (Other methods of removing duplicates, like # using dictionary keys, lose the order, and the only ordered # dictionary patterns I found all ended up using "not in" # internally anyway...) if self.ignore_set: iter = chain.from_iterable([_f for _f in [self.sources, self.depends, self.implicit] if _f]) children = [] for i in iter: if i not in self.ignore_set: children.append(i) else: children = self.all_children(scan=0) self._memo['_children_get'] = children return children def all_children(self, scan=1): """Return a list of all the node's direct children.""" if scan: self.scan() # The return list may contain duplicate Nodes, especially in # source trees where there are a lot of repeated #includes # of a tangle of .h files. Profiling shows, however, that # eliminating the duplicates with a brute-force approach that # preserves the order (that is, something like: # # u = [] # for n in list: # if n not in u: # u.append(n)" # # takes more cycles than just letting the underlying methods # hand back cached values if a Node's information is requested # multiple times. (Other methods of removing duplicates, like # using dictionary keys, lose the order, and the only ordered # dictionary patterns I found all ended up using "not in" # internally anyway...) return list(chain.from_iterable([_f for _f in [self.sources, self.depends, self.implicit] if _f])) def children(self, scan=1): """Return a list of the node's direct children, minus those that are ignored by this node.""" if scan: self.scan() return self._children_get() def set_state(self, state): self.state = state def get_state(self): return self.state def get_env(self): env = self.env if not env: import SCons.Defaults env = SCons.Defaults.DefaultEnvironment() return env def Decider(self, function): foundkey = None for k, v in _decider_map.items(): if v == function: foundkey = k break if not foundkey: foundkey = len(_decider_map) _decider_map[foundkey] = function self.changed_since_last_build = foundkey def Tag(self, key, value): """ Add a user-defined tag. """ if not self._tags: self._tags = {} self._tags[key] = value def GetTag(self, key): """ Return a user-defined tag. """ if not self._tags: return None return self._tags.get(key, None) def changed(self, node=None, allowcache=False): """ Returns if the node is up-to-date with respect to the BuildInfo stored last time it was built. The default behavior is to compare it against our own previously stored BuildInfo, but the stored BuildInfo from another Node (typically one in a Repository) can be used instead. Note that we now *always* check every dependency. We used to short-circuit the check by returning as soon as we detected any difference, but we now rely on checking every dependency to make sure that any necessary Node information (for example, the content signature of an #included .h file) is updated. The allowcache option was added for supporting the early release of the executor/builder structures, right after a File target was built. When set to true, the return value of this changed method gets cached for File nodes. Like this, the executor isn't needed any longer for subsequent calls to changed(). @see: FS.File.changed(), FS.File.release_target_info() """ t = 0 if t: Trace('changed(%s [%s], %s)' % (self, classname(self), node)) if node is None: node = self result = False bi = node.get_stored_info().binfo then = bi.bsourcesigs + bi.bdependsigs + bi.bimplicitsigs children = self.children() diff = len(children) - len(then) if diff: # The old and new dependency lists are different lengths. # This always indicates that the Node must be rebuilt. # We also extend the old dependency list with enough None # entries to equal the new dependency list, for the benefit # of the loop below that updates node information. then.extend([None] * diff) if t: Trace(': old %s new %s' % (len(then), len(children))) result = True for child, prev_ni in zip(children, then): if _decider_map[child.changed_since_last_build](child, self, prev_ni): if t: Trace(': %s changed' % child) result = True contents = self.get_executor().get_contents() if self.has_builder(): import SCons.Util newsig = SCons.Util.MD5signature(contents) if bi.bactsig != newsig: if t: Trace(': bactsig %s != newsig %s' % (bi.bactsig, newsig)) result = True if not result: if t: Trace(': up to date') if t: Trace('\n') return result def is_up_to_date(self): """Default check for whether the Node is current: unknown Node subtypes are always out of date, so they will always get built.""" return None def children_are_up_to_date(self): """Alternate check for whether the Node is current: If all of our children were up-to-date, then this Node was up-to-date, too. The SCons.Node.Alias and SCons.Node.Python.Value subclasses rebind their current() method to this method.""" # Allow the children to calculate their signatures. self.binfo = self.get_binfo() if self.always_build: return None state = 0 for kid in self.children(None): s = kid.get_state() if s and (not state or s > state): state = s return (state == 0 or state == SCons.Node.up_to_date) def is_literal(self): """Always pass the string representation of a Node to the command interpreter literally.""" return 1 def render_include_tree(self): """ Return a text representation, suitable for displaying to the user, of the include tree for the sources of this node. """ if self.is_derived(): env = self.get_build_env() if env: for s in self.sources: scanner = self.get_source_scanner(s) if scanner: path = self.get_build_scanner_path(scanner) else: path = None def f(node, env=env, scanner=scanner, path=path): return node.get_found_includes(env, scanner, path) return SCons.Util.render_tree(s, f, 1) else: return None def get_abspath(self): """ Return an absolute path to the Node. This will return simply str(Node) by default, but for Node types that have a concept of relative path, this might return something different. """ return str(self) def for_signature(self): """ Return a string representation of the Node that will always be the same for this particular Node, no matter what. This is by contrast to the __str__() method, which might, for instance, return a relative path for a file Node. The purpose of this method is to generate a value to be used in signature calculation for the command line used to build a target, and we use this method instead of str() to avoid unnecessary rebuilds. This method does not need to return something that would actually work in a command line; it can return any kind of nonsense, so long as it does not change. """ return str(self) def get_string(self, for_signature): """This is a convenience function designed primarily to be used in command generators (i.e., CommandGeneratorActions or Environment variables that are callable), which are called with a for_signature argument that is nonzero if the command generator is being called to generate a signature for the command line, which determines if we should rebuild or not. Such command generators should use this method in preference to str(Node) when converting a Node to a string, passing in the for_signature parameter, such that we will call Node.for_signature() or str(Node) properly, depending on whether we are calculating a signature or actually constructing a command line.""" if for_signature: return self.for_signature() return str(self) def get_subst_proxy(self): """ This method is expected to return an object that will function exactly like this Node, except that it implements any additional special features that we would like to be in effect for Environment variable substitution. The principle use is that some Nodes would like to implement a __getattr__() method, but putting that in the Node type itself has a tendency to kill performance. We instead put it in a proxy and return it from this method. It is legal for this method to return self if no new functionality is needed for Environment substitution. """ return self def explain(self): if not self.exists(): return "building `%s' because it doesn't exist\n" % self if self.always_build: return "rebuilding `%s' because AlwaysBuild() is specified\n" % self old = self.get_stored_info() if old is None: return None old = old.binfo old.prepare_dependencies() try: old_bkids = old.bsources + old.bdepends + old.bimplicit old_bkidsigs = old.bsourcesigs + old.bdependsigs + old.bimplicitsigs except AttributeError: return "Cannot explain why `%s' is being rebuilt: No previous build information found\n" % self new = self.get_binfo() new_bkids = new.bsources + new.bdepends + new.bimplicit new_bkidsigs = new.bsourcesigs + new.bdependsigs + new.bimplicitsigs osig = dict(list(zip(old_bkids, old_bkidsigs))) nsig = dict(list(zip(new_bkids, new_bkidsigs))) # The sources and dependencies we'll want to report are all stored # as relative paths to this target's directory, but we want to # report them relative to the top-level SConstruct directory, # so we only print them after running them through this lambda # to turn them into the right relative Node and then return # its string. def stringify( s, E=self.dir.Entry ) : if hasattr( s, 'dir' ) : return str(E(s)) return str(s) lines = [] removed = [x for x in old_bkids if not x in new_bkids] if removed: removed = list(map(stringify, removed)) fmt = "`%s' is no longer a dependency\n" lines.extend([fmt % s for s in removed]) for k in new_bkids: if not k in old_bkids: lines.append("`%s' is a new dependency\n" % stringify(k)) elif _decider_map[k.changed_since_last_build](k, self, osig[k]): lines.append("`%s' changed\n" % stringify(k)) if len(lines) == 0 and old_bkids != new_bkids: lines.append("the dependency order changed:\n" + "%sold: %s\n" % (' '*15, list(map(stringify, old_bkids))) + "%snew: %s\n" % (' '*15, list(map(stringify, new_bkids)))) if len(lines) == 0: def fmt_with_title(title, strlines): lines = strlines.split('\n') sep = '\n' + ' '*(15 + len(title)) return ' '*15 + title + sep.join(lines) + '\n' if old.bactsig != new.bactsig: if old.bact == new.bact: lines.append("the contents of the build action changed\n" + fmt_with_title('action: ', new.bact)) # lines.append("the contents of the build action changed [%s] [%s]\n"%(old.bactsig,new.bactsig) + # fmt_with_title('action: ', new.bact)) else: lines.append("the build action changed:\n" + fmt_with_title('old: ', old.bact) + fmt_with_title('new: ', new.bact)) if len(lines) == 0: return "rebuilding `%s' for unknown reasons\n" % self preamble = "rebuilding `%s' because" % self if len(lines) == 1: return "%s %s" % (preamble, lines[0]) else: lines = ["%s:\n" % preamble] + lines return ( ' '*11).join(lines) class NodeList(collections.UserList): def __str__(self): return str(list(map(str, self.data))) def get_children(node, parent): return node.children() def ignore_cycle(node, stack): pass def do_nothing(node, parent): pass class Walker(object): """An iterator for walking a Node tree. This is depth-first, children are visited before the parent. The Walker object can be initialized with any node, and returns the next node on the descent with each get_next() call. 'kids_func' is an optional function that will be called to get the children of a node instead of calling 'children'. 'cycle_func' is an optional function that will be called when a cycle is detected. This class does not get caught in node cycles caused, for example, by C header file include loops. """ def __init__(self, node, kids_func=get_children, cycle_func=ignore_cycle, eval_func=do_nothing): self.kids_func = kids_func self.cycle_func = cycle_func self.eval_func = eval_func node.wkids = copy.copy(kids_func(node, None)) self.stack = [node] self.history = {} # used to efficiently detect and avoid cycles self.history[node] = None def get_next(self): """Return the next node for this walk of the tree. This function is intentionally iterative, not recursive, to sidestep any issues of stack size limitations. """ while self.stack: if self.stack[-1].wkids: node = self.stack[-1].wkids.pop(0) if not self.stack[-1].wkids: self.stack[-1].wkids = None if node in self.history: self.cycle_func(node, self.stack) else: node.wkids = copy.copy(self.kids_func(node, self.stack[-1])) self.stack.append(node) self.history[node] = None else: node = self.stack.pop() del self.history[node] if node: if self.stack: parent = self.stack[-1] else: parent = None self.eval_func(node, parent) return node return None def is_done(self): return not self.stack arg2nodes_lookups = [] # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/Action.py0000664000175000017500000014767213202656511020243 0ustar bdbaddogbdbaddog00000000000000"""SCons.Action This encapsulates information about executing any sort of action that can build one or more target Nodes (typically files) from one or more source Nodes (also typically files) given a specific Environment. The base class here is ActionBase. The base class supplies just a few OO utility methods and some generic methods for displaying information about an Action in response to the various commands that control printing. A second-level base class is _ActionAction. This extends ActionBase by providing the methods that can be used to show and perform an action. True Action objects will subclass _ActionAction; Action factory class objects will subclass ActionBase. The heavy lifting is handled by subclasses for the different types of actions we might execute: CommandAction CommandGeneratorAction FunctionAction ListAction The subclasses supply the following public interface methods used by other modules: __call__() THE public interface, "calling" an Action object executes the command or Python function. This also takes care of printing a pre-substitution command for debugging purposes. get_contents() Fetches the "contents" of an Action for signature calculation plus the varlist. This is what gets MD5 checksummed to decide if a target needs to be rebuilt because its action changed. genstring() Returns a string representation of the Action *without* command substitution, but allows a CommandGeneratorAction to generate the right action based on the specified target, source and env. This is used by the Signature subsystem (through the Executor) to obtain an (imprecise) representation of the Action operation for informative purposes. Subclasses also supply the following methods for internal use within this module: __str__() Returns a string approximation of the Action; no variable substitution is performed. execute() The internal method that really, truly, actually handles the execution of a command or Python function. This is used so that the __call__() methods can take care of displaying any pre-substitution representations, and *then* execute an action without worrying about the specific Actions involved. get_presig() Fetches the "contents" of a subclass for signature calculation. The varlist is added to this to produce the Action's contents. TODO(?): Change this to always return ascii/bytes and not unicode (or py3 strings) strfunction() Returns a substituted string representation of the Action. This is used by the _ActionAction.show() command to display the command/function that will be executed to generate the target(s). There is a related independent ActionCaller class that looks like a regular Action, and which serves as a wrapper for arbitrary functions that we want to let the user specify the arguments to now, but actually execute later (when an out-of-date check determines that it's needed to be executed, for example). Objects of this class are returned by an ActionFactory class that provides a __call__() method as a convenient way for wrapping up the functions. """ # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. __revision__ = "src/engine/SCons/Action.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import pickle import re import sys import subprocess import itertools import inspect import SCons.Debug from SCons.Debug import logInstanceCreation import SCons.Errors import SCons.Util import SCons.Subst # we use these a lot, so try to optimize them is_String = SCons.Util.is_String is_List = SCons.Util.is_List class _null(object): pass print_actions = 1 execute_actions = 1 print_actions_presub = 0 # Use pickle protocol 1 when pickling functions for signature # otherwise python3 and python2 will yield different pickles # for the same object. # This is due to default being 1 for python 2.7, and 3 for 3.x # TODO: We can roll this forward to 2 (if it has value), but not # before a deprecation cycle as the sconsigns will change ACTION_SIGNATURE_PICKLE_PROTOCOL = 1 def rfile(n): try: return n.rfile() except AttributeError: return n def default_exitstatfunc(s): return s strip_quotes = re.compile('^[\'"](.*)[\'"]$') def _callable_contents(obj): """Return the signature contents of a callable Python object. """ try: # Test if obj is a method. return _function_contents(obj.__func__) except AttributeError: try: # Test if obj is a callable object. return _function_contents(obj.__call__.__func__) except AttributeError: try: # Test if obj is a code object. return _code_contents(obj) except AttributeError: # Test if obj is a function object. return _function_contents(obj) def _object_contents(obj): """Return the signature contents of any Python object. We have to handle the case where object contains a code object since it can be pickled directly. """ try: # Test if obj is a method. return _function_contents(obj.__func__) except AttributeError: try: # Test if obj is a callable object. return _function_contents(obj.__call__.__func__) except AttributeError: try: # Test if obj is a code object. return _code_contents(obj) except AttributeError: try: # Test if obj is a function object. return _function_contents(obj) except AttributeError as ae: # Should be a pickle-able Python object. try: return _object_instance_content(obj) # pickling an Action instance or object doesn't yield a stable # content as instance property may be dumped in different orders # return pickle.dumps(obj, ACTION_SIGNATURE_PICKLE_PROTOCOL) except (pickle.PicklingError, TypeError, AttributeError) as ex: # This is weird, but it seems that nested classes # are unpickable. The Python docs say it should # always be a PicklingError, but some Python # versions seem to return TypeError. Just do # the best we can. return bytearray(repr(obj), 'utf-8') def _code_contents(code, docstring=None): """Return the signature contents of a code object. By providing direct access to the code object of the function, Python makes this extremely easy. Hooray! Unfortunately, older versions of Python include line number indications in the compiled byte code. Boo! So we remove the line number byte codes to prevent recompilations from moving a Python function. See: - https://docs.python.org/2/library/inspect.html - http://python-reference.readthedocs.io/en/latest/docs/code/index.html For info on what each co\_ variable provides The signature is as follows (should be byte/chars): co_argcount, len(co_varnames), len(co_cellvars), len(co_freevars), ( comma separated signature for each object in co_consts ), ( comma separated signature for each object in co_names ), ( The bytecode with line number bytecodes removed from co_code ) co_argcount - Returns the number of positional arguments (including arguments with default values). co_varnames - Returns a tuple containing the names of the local variables (starting with the argument names). co_cellvars - Returns a tuple containing the names of local variables that are referenced by nested functions. co_freevars - Returns a tuple containing the names of free variables. (?) co_consts - Returns a tuple containing the literals used by the bytecode. co_names - Returns a tuple containing the names used by the bytecode. co_code - Returns a string representing the sequence of bytecode instructions. """ # contents = [] # The code contents depends on the number of local variables # but not their actual names. contents = bytearray("{}, {}".format(code.co_argcount, len(code.co_varnames)), 'utf-8') contents.extend(b", ") contents.extend(bytearray(str(len(code.co_cellvars)), 'utf-8')) contents.extend(b", ") contents.extend(bytearray(str(len(code.co_freevars)), 'utf-8')) # The code contents depends on any constants accessed by the # function. Note that we have to call _object_contents on each # constants because the code object of nested functions can # show-up among the constants. z = [_object_contents(cc) for cc in code.co_consts[1:]] contents.extend(b',(') contents.extend(bytearray(',', 'utf-8').join(z)) contents.extend(b')') # The code contents depends on the variable names used to # accessed global variable, as changing the variable name changes # the variable actually accessed and therefore changes the # function result. z= [bytearray(_object_contents(cc)) for cc in code.co_names] contents.extend(b',(') contents.extend(bytearray(',','utf-8').join(z)) contents.extend(b')') # The code contents depends on its actual code!!! contents.extend(b',(') contents.extend(code.co_code) contents.extend(b')') return contents def _function_contents(func): """ The signature is as follows (should be byte/chars): < _code_contents (see above) from func.__code__ > ,( comma separated _object_contents for function argument defaults) ,( comma separated _object_contents for any closure contents ) See also: https://docs.python.org/3/reference/datamodel.html - func.__code__ - The code object representing the compiled function body. - func.__defaults__ - A tuple containing default argument values for those arguments that have defaults, or None if no arguments have a default value - func.__closure__ - None or a tuple of cells that contain bindings for the function's free variables. :Returns: Signature contents of a function. (in bytes) """ contents = [_code_contents(func.__code__, func.__doc__)] # The function contents depends on the value of defaults arguments if func.__defaults__: function_defaults_contents = [_object_contents(cc) for cc in func.__defaults__] defaults = bytearray(b',(') defaults.extend(bytearray(b',').join(function_defaults_contents)) defaults.extend(b')') contents.append(defaults) else: contents.append(b',()') # The function contents depends on the closure captured cell values. closure = func.__closure__ or [] try: closure_contents = [_object_contents(x.cell_contents) for x in closure] except AttributeError: closure_contents = [] contents.append(b',(') contents.append(bytearray(b',').join(closure_contents)) contents.append(b')') retval = bytearray(b'').join(contents) return retval def _object_instance_content(obj): """ Returns consistant content for a action class or an instance thereof :Parameters: - `obj` Should be either and action class or an instance thereof :Returns: bytearray or bytes representing the obj suitable for generating a signature from. """ retval = bytearray() if obj is None: return b'N.' if isinstance(obj, SCons.Util.BaseStringTypes): return SCons.Util.to_bytes(obj) inst_class = obj.__class__ inst_class_name = bytearray(obj.__class__.__name__,'utf-8') inst_class_module = bytearray(obj.__class__.__module__,'utf-8') inst_class_hierarchy = bytearray(repr(inspect.getclasstree([obj.__class__,])),'utf-8') # print("ICH:%s : %s"%(inst_class_hierarchy, repr(obj))) properties = [(p, getattr(obj, p, "None")) for p in dir(obj) if not (p[:2] == '__' or inspect.ismethod(getattr(obj, p)) or inspect.isbuiltin(getattr(obj,p))) ] properties.sort() properties_str = ','.join(["%s=%s"%(p[0],p[1]) for p in properties]) properties_bytes = bytearray(properties_str,'utf-8') methods = [p for p in dir(obj) if inspect.ismethod(getattr(obj, p))] methods.sort() method_contents = [] for m in methods: # print("Method:%s"%m) v = _function_contents(getattr(obj, m)) # print("[%s->]V:%s [%s]"%(m,v,type(v))) method_contents.append(v) retval = bytearray(b'{') retval.extend(inst_class_name) retval.extend(b":") retval.extend(inst_class_module) retval.extend(b'}[[') retval.extend(inst_class_hierarchy) retval.extend(b']]{{') retval.extend(bytearray(b",").join(method_contents)) retval.extend(b"}}{{{") retval.extend(properties_bytes) retval.extend(b'}}}') return retval # print("class :%s"%inst_class) # print("class_name :%s"%inst_class_name) # print("class_module :%s"%inst_class_module) # print("Class hier :\n%s"%pp.pformat(inst_class_hierarchy)) # print("Inst Properties:\n%s"%pp.pformat(properties)) # print("Inst Methods :\n%s"%pp.pformat(methods)) def _actionAppend(act1, act2): # This function knows how to slap two actions together. # Mainly, it handles ListActions by concatenating into # a single ListAction. a1 = Action(act1) a2 = Action(act2) if a1 is None: return a2 if a2 is None: return a1 if isinstance(a1, ListAction): if isinstance(a2, ListAction): return ListAction(a1.list + a2.list) else: return ListAction(a1.list + [ a2 ]) else: if isinstance(a2, ListAction): return ListAction([ a1 ] + a2.list) else: return ListAction([ a1, a2 ]) def _do_create_keywords(args, kw): """This converts any arguments after the action argument into their equivalent keywords and adds them to the kw argument. """ v = kw.get('varlist', ()) # prevent varlist="FOO" from being interpreted as ['F', 'O', 'O'] if is_String(v): v = (v,) kw['varlist'] = tuple(v) if args: # turn positional args into equivalent keywords cmdstrfunc = args[0] if cmdstrfunc is None or is_String(cmdstrfunc): kw['cmdstr'] = cmdstrfunc elif callable(cmdstrfunc): kw['strfunction'] = cmdstrfunc else: raise SCons.Errors.UserError( 'Invalid command display variable type. ' 'You must either pass a string or a callback which ' 'accepts (target, source, env) as parameters.') if len(args) > 1: kw['varlist'] = tuple(SCons.Util.flatten(args[1:])) + kw['varlist'] if kw.get('strfunction', _null) is not _null \ and kw.get('cmdstr', _null) is not _null: raise SCons.Errors.UserError( 'Cannot have both strfunction and cmdstr args to Action()') def _do_create_action(act, kw): """This is the actual "implementation" for the Action factory method, below. This handles the fact that passing lists to Action() itself has different semantics than passing lists as elements of lists. The former will create a ListAction, the latter will create a CommandAction by converting the inner list elements to strings.""" if isinstance(act, ActionBase): return act if is_String(act): var=SCons.Util.get_environment_var(act) if var: # This looks like a string that is purely an Environment # variable reference, like "$FOO" or "${FOO}". We do # something special here...we lazily evaluate the contents # of that Environment variable, so a user could put something # like a function or a CommandGenerator in that variable # instead of a string. return LazyAction(var, kw) commands = str(act).split('\n') if len(commands) == 1: return CommandAction(commands[0], **kw) # The list of string commands may include a LazyAction, so we # reprocess them via _do_create_list_action. return _do_create_list_action(commands, kw) if is_List(act): return CommandAction(act, **kw) if callable(act): try: gen = kw['generator'] del kw['generator'] except KeyError: gen = 0 if gen: action_type = CommandGeneratorAction else: action_type = FunctionAction return action_type(act, kw) # Catch a common error case with a nice message: if isinstance(act, int) or isinstance(act, float): raise TypeError("Don't know how to create an Action from a number (%s)"%act) # Else fail silently (???) return None def _do_create_list_action(act, kw): """A factory for list actions. Convert the input list into Actions and then wrap them in a ListAction.""" acts = [] for a in act: aa = _do_create_action(a, kw) if aa is not None: acts.append(aa) if not acts: return ListAction([]) elif len(acts) == 1: return acts[0] else: return ListAction(acts) def Action(act, *args, **kw): """A factory for action objects.""" # Really simple: the _do_create_* routines do the heavy lifting. _do_create_keywords(args, kw) if is_List(act): return _do_create_list_action(act, kw) return _do_create_action(act, kw) class ActionBase(object): """Base class for all types of action objects that can be held by other objects (Builders, Executors, etc.) This provides the common methods for manipulating and combining those actions.""" def __eq__(self, other): return self.__dict__ == other def no_batch_key(self, env, target, source): return None batch_key = no_batch_key def genstring(self, target, source, env): return str(self) def get_contents(self, target, source, env): result = self.get_presig(target, source, env) if not isinstance(result,(bytes, bytearray)): result = bytearray("",'utf-8').join([ SCons.Util.to_bytes(r) for r in result ]) else: # Make a copy and put in bytearray, without this the contents returned by get_presig # can be changed by the logic below, appending with each call and causing very # hard to track down issues... result = bytearray(result) # At this point everything should be a bytearray # This should never happen, as the Action() factory should wrap # the varlist, but just in case an action is created directly, # we duplicate this check here. vl = self.get_varlist(target, source, env) if is_String(vl): vl = (vl,) for v in vl: # do the subst this way to ignore $(...$) parts: if isinstance(result, bytearray): result.extend(SCons.Util.to_bytes(env.subst_target_source('${'+v+'}', SCons.Subst.SUBST_SIG, target, source))) else: raise Exception("WE SHOULD NEVER GET HERE result should be bytearray not:%s"%type(result)) # result.append(SCons.Util.to_bytes(env.subst_target_source('${'+v+'}', SCons.Subst.SUBST_SIG, target, source))) if isinstance(result, (bytes,bytearray)): return result else: raise Exception("WE SHOULD NEVER GET HERE - #2 result should be bytearray not:%s" % type(result)) # return b''.join(result) def __add__(self, other): return _actionAppend(self, other) def __radd__(self, other): return _actionAppend(other, self) def presub_lines(self, env): # CommandGeneratorAction needs a real environment # in order to return the proper string here, since # it may call LazyAction, which looks up a key # in that env. So we temporarily remember the env here, # and CommandGeneratorAction will use this env # when it calls its _generate method. self.presub_env = env lines = str(self).split('\n') self.presub_env = None # don't need this any more return lines def get_varlist(self, target, source, env, executor=None): return self.varlist def get_targets(self, env, executor): """ Returns the type of targets ($TARGETS, $CHANGED_TARGETS) used by this action. """ return self.targets class _ActionAction(ActionBase): """Base class for actions that create output objects.""" def __init__(self, cmdstr=_null, strfunction=_null, varlist=(), presub=_null, chdir=None, exitstatfunc=None, batch_key=None, targets='$TARGETS', **kw): self.cmdstr = cmdstr if strfunction is not _null: if strfunction is None: self.cmdstr = None else: self.strfunction = strfunction self.varlist = varlist self.presub = presub self.chdir = chdir if not exitstatfunc: exitstatfunc = default_exitstatfunc self.exitstatfunc = exitstatfunc self.targets = targets if batch_key: if not callable(batch_key): # They have set batch_key, but not to their own # callable. The default behavior here will batch # *all* targets+sources using this action, separated # for each construction environment. def default_batch_key(self, env, target, source): return (id(self), id(env)) batch_key = default_batch_key SCons.Util.AddMethod(self, batch_key, 'batch_key') def print_cmd_line(self, s, target, source, env): """ In python 3, and in some of our tests, sys.stdout is a String io object, and it takes unicode strings only In other cases it's a regular Python 2.x file object which takes strings (bytes), and if you pass those a unicode object they try to decode with 'ascii' codec which fails if the cmd line has any hi-bit-set chars. This code assumes s is a regular string, but should work if it's unicode too. """ try: sys.stdout.write(s + u"\n") except UnicodeDecodeError: sys.stdout.write(s + "\n") def __call__(self, target, source, env, exitstatfunc=_null, presub=_null, show=_null, execute=_null, chdir=_null, executor=None): if not is_List(target): target = [target] if not is_List(source): source = [source] if presub is _null: presub = self.presub if presub is _null: presub = print_actions_presub if exitstatfunc is _null: exitstatfunc = self.exitstatfunc if show is _null: show = print_actions if execute is _null: execute = execute_actions if chdir is _null: chdir = self.chdir save_cwd = None if chdir: save_cwd = os.getcwd() try: chdir = str(chdir.get_abspath()) except AttributeError: if not is_String(chdir): if executor: chdir = str(executor.batches[0].targets[0].dir) else: chdir = str(target[0].dir) if presub: if executor: target = executor.get_all_targets() source = executor.get_all_sources() t = ' and '.join(map(str, target)) l = '\n '.join(self.presub_lines(env)) out = u"Building %s with action:\n %s\n" % (t, l) sys.stdout.write(out) cmd = None if show and self.strfunction: if executor: target = executor.get_all_targets() source = executor.get_all_sources() try: cmd = self.strfunction(target, source, env, executor) except TypeError: cmd = self.strfunction(target, source, env) if cmd: if chdir: cmd = ('os.chdir(%s)\n' % repr(chdir)) + cmd try: get = env.get except AttributeError: print_func = self.print_cmd_line else: print_func = get('PRINT_CMD_LINE_FUNC') if not print_func: print_func = self.print_cmd_line print_func(cmd, target, source, env) stat = 0 if execute: if chdir: os.chdir(chdir) try: stat = self.execute(target, source, env, executor=executor) if isinstance(stat, SCons.Errors.BuildError): s = exitstatfunc(stat.status) if s: stat.status = s else: stat = s else: stat = exitstatfunc(stat) finally: if save_cwd: os.chdir(save_cwd) if cmd and save_cwd: print_func('os.chdir(%s)' % repr(save_cwd), target, source, env) return stat def _string_from_cmd_list(cmd_list): """Takes a list of command line arguments and returns a pretty representation for printing.""" cl = [] for arg in map(str, cmd_list): if ' ' in arg or '\t' in arg: arg = '"' + arg + '"' cl.append(arg) return ' '.join(cl) default_ENV = None def get_default_ENV(env): """ A fiddlin' little function that has an 'import SCons.Environment' which can't be moved to the top level without creating an import loop. Since this import creates a local variable named 'SCons', it blocks access to the global variable, so we move it here to prevent complaints about local variables being used uninitialized. """ global default_ENV try: return env['ENV'] except KeyError: if not default_ENV: import SCons.Environment # This is a hideously expensive way to get a default shell # environment. What it really should do is run the platform # setup to get the default ENV. Fortunately, it's incredibly # rare for an Environment not to have a shell environment, so # we're not going to worry about it overmuch. default_ENV = SCons.Environment.Environment()['ENV'] return default_ENV def _subproc(scons_env, cmd, error = 'ignore', **kw): """Do common setup for a subprocess.Popen() call This function is still in draft mode. We're going to need something like it in the long run as more and more places use subprocess, but I'm sure it'll have to be tweaked to get the full desired functionality. one special arg (so far?), 'error', to tell what to do with exceptions. """ # allow std{in,out,err} to be "'devnull'" io = kw.get('stdin') if is_String(io) and io == 'devnull': kw['stdin'] = open(os.devnull) io = kw.get('stdout') if is_String(io) and io == 'devnull': kw['stdout'] = open(os.devnull, 'w') io = kw.get('stderr') if is_String(io) and io == 'devnull': kw['stderr'] = open(os.devnull, 'w') # Figure out what shell environment to use ENV = kw.get('env', None) if ENV is None: ENV = get_default_ENV(scons_env) # Ensure that the ENV values are all strings: new_env = {} for key, value in ENV.items(): if is_List(value): # If the value is a list, then we assume it is a path list, # because that's a pretty common list-like value to stick # in an environment variable: value = SCons.Util.flatten_sequence(value) new_env[key] = os.pathsep.join(map(str, value)) else: # It's either a string or something else. If it's a string, # we still want to call str() because it might be a *Unicode* # string, which makes subprocess.Popen() gag. If it isn't a # string or a list, then we just coerce it to a string, which # is the proper way to handle Dir and File instances and will # produce something reasonable for just about everything else: new_env[key] = str(value) kw['env'] = new_env try: return subprocess.Popen(cmd, **kw) except EnvironmentError as e: if error == 'raise': raise # return a dummy Popen instance that only returns error class dummyPopen(object): def __init__(self, e): self.exception = e def communicate(self, input=None): return ('', '') def wait(self): return -self.exception.errno stdin = None class f(object): def read(self): return '' def readline(self): return '' def __iter__(self): return iter(()) stdout = stderr = f() return dummyPopen(e) class CommandAction(_ActionAction): """Class for command-execution actions.""" def __init__(self, cmd, **kw): # Cmd can actually be a list or a single item; if it's a # single item it should be the command string to execute; if a # list then it should be the words of the command string to # execute. Only a single command should be executed by this # object; lists of commands should be handled by embedding # these objects in a ListAction object (which the Action() # factory above does). cmd will be passed to # Environment.subst_list() for substituting environment # variables. if SCons.Debug.track_instances: logInstanceCreation(self, 'Action.CommandAction') _ActionAction.__init__(self, **kw) if is_List(cmd): if [c for c in cmd if is_List(c)]: raise TypeError("CommandAction should be given only " \ "a single command") self.cmd_list = cmd def __str__(self): if is_List(self.cmd_list): return ' '.join(map(str, self.cmd_list)) return str(self.cmd_list) def process(self, target, source, env, executor=None): if executor: result = env.subst_list(self.cmd_list, 0, executor=executor) else: result = env.subst_list(self.cmd_list, 0, target, source) silent = None ignore = None while True: try: c = result[0][0][0] except IndexError: c = None if c == '@': silent = 1 elif c == '-': ignore = 1 else: break result[0][0] = result[0][0][1:] try: if not result[0][0]: result[0] = result[0][1:] except IndexError: pass return result, ignore, silent def strfunction(self, target, source, env, executor=None): if self.cmdstr is None: return None if self.cmdstr is not _null: from SCons.Subst import SUBST_RAW if executor: c = env.subst(self.cmdstr, SUBST_RAW, executor=executor) else: c = env.subst(self.cmdstr, SUBST_RAW, target, source) if c: return c cmd_list, ignore, silent = self.process(target, source, env, executor) if silent: return '' return _string_from_cmd_list(cmd_list[0]) def execute(self, target, source, env, executor=None): """Execute a command action. This will handle lists of commands as well as individual commands, because construction variable substitution may turn a single "command" into a list. This means that this class can actually handle lists of commands, even though that's not how we use it externally. """ escape_list = SCons.Subst.escape_list flatten_sequence = SCons.Util.flatten_sequence try: shell = env['SHELL'] except KeyError: raise SCons.Errors.UserError('Missing SHELL construction variable.') try: spawn = env['SPAWN'] except KeyError: raise SCons.Errors.UserError('Missing SPAWN construction variable.') else: if is_String(spawn): spawn = env.subst(spawn, raw=1, conv=lambda x: x) escape = env.get('ESCAPE', lambda x: x) ENV = get_default_ENV(env) # Ensure that the ENV values are all strings: for key, value in ENV.items(): if not is_String(value): if is_List(value): # If the value is a list, then we assume it is a # path list, because that's a pretty common list-like # value to stick in an environment variable: value = flatten_sequence(value) ENV[key] = os.pathsep.join(map(str, value)) else: # If it isn't a string or a list, then we just coerce # it to a string, which is the proper way to handle # Dir and File instances and will produce something # reasonable for just about everything else: ENV[key] = str(value) if executor: target = executor.get_all_targets() source = executor.get_all_sources() cmd_list, ignore, silent = self.process(target, list(map(rfile, source)), env, executor) # Use len() to filter out any "command" that's zero-length. for cmd_line in filter(len, cmd_list): # Escape the command line for the interpreter we are using. cmd_line = escape_list(cmd_line, escape) result = spawn(shell, escape, cmd_line[0], cmd_line, ENV) if not ignore and result: msg = "Error %s" % result return SCons.Errors.BuildError(errstr=msg, status=result, action=self, command=cmd_line) return 0 def get_presig(self, target, source, env, executor=None): """Return the signature contents of this action's command line. This strips $(-$) and everything in between the string, since those parts don't affect signatures. """ from SCons.Subst import SUBST_SIG cmd = self.cmd_list if is_List(cmd): cmd = ' '.join(map(str, cmd)) else: cmd = str(cmd) if executor: return env.subst_target_source(cmd, SUBST_SIG, executor=executor) else: return env.subst_target_source(cmd, SUBST_SIG, target, source) def get_implicit_deps(self, target, source, env, executor=None): icd = env.get('IMPLICIT_COMMAND_DEPENDENCIES', True) if is_String(icd) and icd[:1] == '$': icd = env.subst(icd) if not icd or icd in ('0', 'None'): return [] from SCons.Subst import SUBST_SIG if executor: cmd_list = env.subst_list(self.cmd_list, SUBST_SIG, executor=executor) else: cmd_list = env.subst_list(self.cmd_list, SUBST_SIG, target, source) res = [] for cmd_line in cmd_list: if cmd_line: d = str(cmd_line[0]) m = strip_quotes.match(d) if m: d = m.group(1) d = env.WhereIs(d) if d: res.append(env.fs.File(d)) return res class CommandGeneratorAction(ActionBase): """Class for command-generator actions.""" def __init__(self, generator, kw): if SCons.Debug.track_instances: logInstanceCreation(self, 'Action.CommandGeneratorAction') self.generator = generator self.gen_kw = kw self.varlist = kw.get('varlist', ()) self.targets = kw.get('targets', '$TARGETS') def _generate(self, target, source, env, for_signature, executor=None): # ensure that target is a list, to make it easier to write # generator functions: if not is_List(target): target = [target] if executor: target = executor.get_all_targets() source = executor.get_all_sources() ret = self.generator(target=target, source=source, env=env, for_signature=for_signature) gen_cmd = Action(ret, **self.gen_kw) if not gen_cmd: raise SCons.Errors.UserError("Object returned from command generator: %s cannot be used to create an Action." % repr(ret)) return gen_cmd def __str__(self): try: env = self.presub_env except AttributeError: env = None if env is None: env = SCons.Defaults.DefaultEnvironment() act = self._generate([], [], env, 1) return str(act) def batch_key(self, env, target, source): return self._generate(target, source, env, 1).batch_key(env, target, source) def genstring(self, target, source, env, executor=None): return self._generate(target, source, env, 1, executor).genstring(target, source, env) def __call__(self, target, source, env, exitstatfunc=_null, presub=_null, show=_null, execute=_null, chdir=_null, executor=None): act = self._generate(target, source, env, 0, executor) if act is None: raise SCons.Errors.UserError("While building `%s': " "Cannot deduce file extension from source files: %s" % (repr(list(map(str, target))), repr(list(map(str, source))))) return act(target, source, env, exitstatfunc, presub, show, execute, chdir, executor) def get_presig(self, target, source, env, executor=None): """Return the signature contents of this action's command line. This strips $(-$) and everything in between the string, since those parts don't affect signatures. """ return self._generate(target, source, env, 1, executor).get_presig(target, source, env) def get_implicit_deps(self, target, source, env, executor=None): return self._generate(target, source, env, 1, executor).get_implicit_deps(target, source, env) def get_varlist(self, target, source, env, executor=None): return self._generate(target, source, env, 1, executor).get_varlist(target, source, env, executor) def get_targets(self, env, executor): return self._generate(None, None, env, 1, executor).get_targets(env, executor) class LazyAction(CommandGeneratorAction, CommandAction): """ A LazyAction is a kind of hybrid generator and command action for strings of the form "$VAR". These strings normally expand to other strings (think "$CCCOM" to "$CC -c -o $TARGET $SOURCE"), but we also want to be able to replace them with functions in the construction environment. Consequently, we want lazy evaluation and creation of an Action in the case of the function, but that's overkill in the more normal case of expansion to other strings. So we do this with a subclass that's both a generator *and* a command action. The overridden methods all do a quick check of the construction variable, and if it's a string we just call the corresponding CommandAction method to do the heavy lifting. If not, then we call the same-named CommandGeneratorAction method. The CommandGeneratorAction methods work by using the overridden _generate() method, that is, our own way of handling "generation" of an action based on what's in the construction variable. """ def __init__(self, var, kw): if SCons.Debug.track_instances: logInstanceCreation(self, 'Action.LazyAction') CommandAction.__init__(self, '${'+var+'}', **kw) self.var = SCons.Util.to_String(var) self.gen_kw = kw def get_parent_class(self, env): c = env.get(self.var) if is_String(c) and not '\n' in c: return CommandAction return CommandGeneratorAction def _generate_cache(self, env): if env: c = env.get(self.var, '') else: c = '' gen_cmd = Action(c, **self.gen_kw) if not gen_cmd: raise SCons.Errors.UserError("$%s value %s cannot be used to create an Action." % (self.var, repr(c))) return gen_cmd def _generate(self, target, source, env, for_signature, executor=None): return self._generate_cache(env) def __call__(self, target, source, env, *args, **kw): c = self.get_parent_class(env) return c.__call__(self, target, source, env, *args, **kw) def get_presig(self, target, source, env): c = self.get_parent_class(env) return c.get_presig(self, target, source, env) def get_varlist(self, target, source, env, executor=None): c = self.get_parent_class(env) return c.get_varlist(self, target, source, env, executor) class FunctionAction(_ActionAction): """Class for Python function actions.""" def __init__(self, execfunction, kw): if SCons.Debug.track_instances: logInstanceCreation(self, 'Action.FunctionAction') self.execfunction = execfunction try: self.funccontents = _callable_contents(execfunction) except AttributeError: try: # See if execfunction will do the heavy lifting for us. self.gc = execfunction.get_contents except AttributeError: # This is weird, just do the best we can. self.funccontents = _object_contents(execfunction) _ActionAction.__init__(self, **kw) def function_name(self): try: return self.execfunction.__name__ except AttributeError: try: return self.execfunction.__class__.__name__ except AttributeError: return "unknown_python_function" def strfunction(self, target, source, env, executor=None): if self.cmdstr is None: return None if self.cmdstr is not _null: from SCons.Subst import SUBST_RAW if executor: c = env.subst(self.cmdstr, SUBST_RAW, executor=executor) else: c = env.subst(self.cmdstr, SUBST_RAW, target, source) if c: return c def array(a): def quote(s): try: str_for_display = s.str_for_display except AttributeError: s = repr(s) else: s = str_for_display() return s return '[' + ", ".join(map(quote, a)) + ']' try: strfunc = self.execfunction.strfunction except AttributeError: pass else: if strfunc is None: return None if callable(strfunc): return strfunc(target, source, env) name = self.function_name() tstr = array(target) sstr = array(source) return "%s(%s, %s)" % (name, tstr, sstr) def __str__(self): name = self.function_name() if name == 'ActionCaller': return str(self.execfunction) return "%s(target, source, env)" % name def execute(self, target, source, env, executor=None): exc_info = (None,None,None) try: if executor: target = executor.get_all_targets() source = executor.get_all_sources() rsources = list(map(rfile, source)) try: result = self.execfunction(target=target, source=rsources, env=env) except KeyboardInterrupt as e: raise except SystemExit as e: raise except Exception as e: result = e exc_info = sys.exc_info() if result: result = SCons.Errors.convert_to_BuildError(result, exc_info) result.node=target result.action=self try: result.command=self.strfunction(target, source, env, executor) except TypeError: result.command=self.strfunction(target, source, env) # FIXME: This maintains backward compatibility with respect to # which type of exceptions were returned by raising an # exception and which ones were returned by value. It would # probably be best to always return them by value here, but # some codes do not check the return value of Actions and I do # not have the time to modify them at this point. if (exc_info[1] and not isinstance(exc_info[1],EnvironmentError)): raise result return result finally: # Break the cycle between the traceback object and this # function stack frame. See the sys.exc_info() doc info for # more information about this issue. del exc_info def get_presig(self, target, source, env): """Return the signature contents of this callable action.""" try: return self.gc(target, source, env) except AttributeError: return self.funccontents def get_implicit_deps(self, target, source, env): return [] class ListAction(ActionBase): """Class for lists of other actions.""" def __init__(self, actionlist): if SCons.Debug.track_instances: logInstanceCreation(self, 'Action.ListAction') def list_of_actions(x): if isinstance(x, ActionBase): return x return Action(x) self.list = list(map(list_of_actions, actionlist)) # our children will have had any varlist # applied; we don't need to do it again self.varlist = () self.targets = '$TARGETS' def genstring(self, target, source, env): return '\n'.join([a.genstring(target, source, env) for a in self.list]) def __str__(self): return '\n'.join(map(str, self.list)) def presub_lines(self, env): return SCons.Util.flatten_sequence( [a.presub_lines(env) for a in self.list]) def get_presig(self, target, source, env): """Return the signature contents of this action list. Simple concatenation of the signatures of the elements. """ return b"".join([bytes(x.get_contents(target, source, env)) for x in self.list]) def __call__(self, target, source, env, exitstatfunc=_null, presub=_null, show=_null, execute=_null, chdir=_null, executor=None): if executor: target = executor.get_all_targets() source = executor.get_all_sources() for act in self.list: stat = act(target, source, env, exitstatfunc, presub, show, execute, chdir, executor) if stat: return stat return 0 def get_implicit_deps(self, target, source, env): result = [] for act in self.list: result.extend(act.get_implicit_deps(target, source, env)) return result def get_varlist(self, target, source, env, executor=None): result = SCons.Util.OrderedDict() for act in self.list: for var in act.get_varlist(target, source, env, executor): result[var] = True return list(result.keys()) class ActionCaller(object): """A class for delaying calling an Action function with specific (positional and keyword) arguments until the Action is actually executed. This class looks to the rest of the world like a normal Action object, but what it's really doing is hanging on to the arguments until we have a target, source and env to use for the expansion. """ def __init__(self, parent, args, kw): self.parent = parent self.args = args self.kw = kw def get_contents(self, target, source, env): actfunc = self.parent.actfunc try: # "self.actfunc" is a function. contents = actfunc.__code__.co_code except AttributeError: # "self.actfunc" is a callable object. try: contents = actfunc.__call__.__func__.__code__.co_code except AttributeError: # No __call__() method, so it might be a builtin # or something like that. Do the best we can. contents = repr(actfunc) return contents def subst(self, s, target, source, env): # If s is a list, recursively apply subst() # to every element in the list if is_List(s): result = [] for elem in s: result.append(self.subst(elem, target, source, env)) return self.parent.convert(result) # Special-case hack: Let a custom function wrapped in an # ActionCaller get at the environment through which the action # was called by using this hard-coded value as a special return. if s == '$__env__': return env elif is_String(s): return env.subst(s, 1, target, source) return self.parent.convert(s) def subst_args(self, target, source, env): return [self.subst(x, target, source, env) for x in self.args] def subst_kw(self, target, source, env): kw = {} for key in list(self.kw.keys()): kw[key] = self.subst(self.kw[key], target, source, env) return kw def __call__(self, target, source, env, executor=None): args = self.subst_args(target, source, env) kw = self.subst_kw(target, source, env) return self.parent.actfunc(*args, **kw) def strfunction(self, target, source, env): args = self.subst_args(target, source, env) kw = self.subst_kw(target, source, env) return self.parent.strfunc(*args, **kw) def __str__(self): return self.parent.strfunc(*self.args, **self.kw) class ActionFactory(object): """A factory class that will wrap up an arbitrary function as an SCons-executable Action object. The real heavy lifting here is done by the ActionCaller class. We just collect the (positional and keyword) arguments that we're called with and give them to the ActionCaller object we create, so it can hang onto them until it needs them. """ def __init__(self, actfunc, strfunc, convert=lambda x: x): self.actfunc = actfunc self.strfunc = strfunc self.convert = convert def __call__(self, *args, **kw): ac = ActionCaller(self, args, kw) action = Action(ac, strfunction=ac.strfunction) return action # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/engine/SCons/__init__.py0000664000175000017500000000316413202656511020550 0ustar bdbaddogbdbaddog00000000000000"""SCons The main package for the SCons software construction utility. """ # # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "src/engine/SCons/__init__.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" __version__ = "3.0.1" __build__ = "74b2c53bc42290e911b334a6b44f187da698a668" __buildsys__ = "hpmicrodog" __date__ = "2017/11/14 13:16:53" __developer__ = "bdbaddog" # make sure compatibility is always in place import SCons.compat # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/README.txt0000664000175000017500000002014713202656512015644 0ustar bdbaddogbdbaddog00000000000000 SCons - a software construction tool Version 3.0.1 This is SCons, a tool for building software (and other files). SCons is implemented in Python, and its "configuration files" are actually Python scripts, allowing you to use the full power of a real scripting language to solve build problems. You do not, however, need to know Python to use SCons effectively. See the RELEASE.txt file for notes about this specific release, including known problems. See the CHANGES.txt file for a list of changes since the previous release. LATEST VERSION ============== Before going further, you can check that this package you have is the latest version by checking the SCons download page at: http://www.scons.org/download.html EXECUTION REQUIREMENTS ====================== Running SCons requires Python version 2.7.*. Currently it does not run on the Python 3.x release. There should be no other dependencies or requirements to run SCons. (There is, however, an additional requirement to *install* SCons from this particular package; see the next section.) By default, SCons knows how to search for available programming tools on various systems--see the SCons man page for details. You may, of course, override the default SCons choices made by appropriate configuration of Environment construction variables. INSTALLATION REQUIREMENTS ========================= Nothing special. INSTALLATION ============ Assuming your system satisfies the installation requirements in the previous section, install SCons from this package simply by running the provided Python-standard setup script as follows: # python setup.py install By default, the above command will do the following: -- Install the version-numbered "scons-3.0.1" and "sconsign-3.0.1" scripts in the default system script directory (/usr/bin or C:\Python*\Scripts, for example). This can be disabled by specifying the "--no-version-script" option on the command line. -- Install scripts named "scons" and "sconsign" scripts in the default system script directory (/usr/bin or C:\Python*\Scripts, for example). This can be disabled by specifying the "--no-scons-script" option on the command line, which is useful if you want to install and experiment with a new version before making it the default on your system. On UNIX or Linux systems, you can have the "scons" and "sconsign" scripts be hard links or symbolic links to the "scons-3.0.1" and "sconsign-3.0.1" scripts by specifying the "--hardlink-scons" or "--symlink-scons" options on the command line. -- Install "scons-3.0.1.bat" and "scons.bat" wrapper scripts in the Python prefix directory on Windows (C:\Python*, for example). This can be disabled by specifying the "--no-install-bat" option on the command line. On UNIX or Linux systems, the "--install-bat" option may be specified to have "scons-3.0.1.bat" and "scons.bat" files installed in the default system script directory, which is useful if you want to install SCons in a shared file system directory that can be used to execute SCons from both UNIX/Linux and Windows systems. -- Install the SCons build engine (a Python module) in an appropriate version-numbered SCons library directory (/usr/lib/scons-3.0.1 or C:\Python*\scons-3.0.1, for example). See below for more options related to installing the build engine library. -- Install the troff-format man pages in an appropriate directory on UNIX or Linux systems (/usr/share/man/man1 or /usr/man/man1, for example). This can be disabled by specifying the "--no-install-man" option on the command line. The man pages can be installed on Windows systems by specifying the "--install-man" option on the command line. Note that, by default, SCons does not install its build engine library in the standard Python library directories. If you want to be able to use the SCons library modules (the build engine) in other Python scripts, specify the "--standard-lib" option on the command line, as follows: # python setup.py install --standard-lib This will install the build engine in the standard Python library directory (/usr/lib/python*/site-packages or C:\Python*\Lib\site-packages). Alternatively, you can have SCons install its build engine library in a hard-coded standalone library directory, instead of the default version-numbered directory, by specifying the "--standalone-lib" option on the command line, as follows: # python setup.py install --standalone-lib This is usually not recommended, however. Note that, to install SCons in any of the above system directories, you should have system installation privileges (that is, "root" or "Administrator") when running the setup.py script. If you don't have system installation privileges, you can use the --prefix option to specify an alternate installation location, such as your home directory: $ python setup.py install --prefix=$HOME This will install SCons in the appropriate locations relative to $HOME--that is, the scons script itself $HOME/bin and the associated library in $HOME/lib/scons, for example. DOCUMENTATION ============= See the RELEASE.txt file for notes about this specific release, including known problems. See the CHANGES.txt file for a list of changes since the previous release. The scons.1 man page is included in this package, and contains a section of small examples for getting started using SCons. Additional documentation for SCons is available at: http://www.scons.org/doc.html LICENSING ========= SCons is distributed under the MIT license, a full copy of which is available in the LICENSE.txt file. The MIT license is an approved Open Source license, which means: This software is OSI Certified Open Source Software. OSI Certified is a certification mark of the Open Source Initiative. More information about OSI certifications and Open Source software is available at: http://www.opensource.org/ REPORTING BUGS ============== Please report bugs by following the detailed instructions on our Bug Submission page: http://scons.tigris.org/bug-submission.html You can also send mail to the SCons developers' mailing list: scons-dev@scons.org But even if you send email to the mailing list please make sure that you ALSO submit a bug report to the project page bug tracker, because bug reports in email often get overlooked in the general flood of messages. MAILING LISTS ============= An active mailing list for users of SCons is available. You may send questions or comments to the list at: scons-users@scons.org You may subscribe to the mailing list by sending email to: scons-users-join@scons.org There is also a low-volume mailing list available for announcements about SCons. Subscribe by sending email to: announce-subscribe@scons.tigris.org There are other mailing lists available for SCons developers, for notification of SCons code changes, and for notification of updated bug reports and project documents. Please see our mailing lists page for details. DONATIONS ========= If you find SCons helpful, please consider making a donation (of cash, software, or hardware) to support continued work on the project. Information is available at: http://www.scons.org/donate.html FOR MORE INFORMATION ==================== Check the SCons web site at: http://www.scons.org/ AUTHOR INFO =========== SCons was originally written by Steven Knight, knight at baldmt dot com. Since around 2010 it has been maintained by the SCons development team, co-managed by Bill Deegan and Gary Oberbrunner, with many contributors, including but not at all limited to: - Chad Austin - Dirk Baechle - Charles Crain - William Deegan - Steve Leblanc - Rob Managan - Greg Noel - Gary Oberbrunner - Anthony Roach - Greg Spencer - Tom Tanner - Anatoly Techtonik - Christoph Wiedemann - Russel Winder \... and many others. Copyright (c) 2001 - 2015 The SCons Foundation scons-3.0.1/CHANGES.txt0000664000175000017500000064471013202656512015767 0ustar bdbaddogbdbaddog00000000000000 SCons - a software construction tool Change Log RELEASE 3.0.1 - Mon, 14 Nov 2017 08:28:09 -0700 From Thomas Berg: - Fixed a regression in scons-3.0.0 where "from __future__ import print_function" was imposed on the scope where SConstruct is executed, breaking existing builds using PY 2.7. From William Deegan: - Fix issue where code in utility routine to_String_for_subst() had code whose result was never properly returned. (Found by: James Rinkevich https://pairlist4.pair.net/pipermail/scons-users/2017-October/006358.html ) - Fixed Variables.GenerateHelpText() to now use the sort parameter. Due to incorrect 2to3 fixer changes 8 years ago it was being used as a boolean parameter. Now you can specify sort to be a callable, or boolean value. (True = normal sort). Manpage also updated. - Fixed Tool loading logic from exploding sys.path with many site_scons/site_tools prepended on py3. - Added additional output with time to process each SConscript file when using --debug=time. - Fix broken subst logic where a string with "$$(abc)" was being treated as "$(abc) and the logic for removing the signature escapes was then failing because there was no closing "$)". This was introduced by a pull request to allow recursive variable evaluations to yield a string such as "$( $( some stuff $) $)". From Daniel Moody: - Jar can take multiple targets, and will make a duplicate jar from the sources for each target - Added some warnings in case the Jar builder makes an implicit target - Added Jar method and changed jar build to be more specific. Jar method will take in directories or classes as source. Added more tests to JAR to ensure the jar was packaged with the correct compiled class files. - Added a No result test case to handle bug which seems unrelated to java in the swig-dependencies.py test, more info here: http://scons.tigris.org/issues/show_bug.cgi?id=2907 - Added a travis script to test on ubuntu trusty now that the project is on github so that Continuus Integration tests can be run automatically. It tests most case and considers no result a pass as well. Improving this script can install more dependincies allowing for more tests to be run. - Updated the Jar Builder tool in Tool/__init__.py so that is doesn't force class files as sources, allowing directories to be passed, which was causing test/Java/JAR.py to fail. From Zachary Tessler: - Fix incorrect warning for repeated identical builder calls that use overrides RELEASE 3.0.0 - Mon, 18 Sep 2017 08:32:04 -0700 NOTE: This is a major release. You should expect that some targets may rebuild when upgrading. Significant changes in some python action signatures. Also switching between PY 2.7 and PY 3.5, 3.6 will cause rebuilds. From William Blevins: - Updated D language scanner support to latest: 2.071.1. (PR #1924) https://dlang.org/spec/module.html accessed 11 August 2016 - Enhancements: - Added support for selective imports: "import A : B, C;" -> A - Added support for renamed imports. "import B = A;" -> A - Supports valid combinations: "import A, B, CCC = C, DDD = D : EEE = FFF;" -> A, B, C, D - Notes: - May find new (previously missed) Dlang dependencies. - May cause rebuild after upgrade due to dependency changes. - Updated Fortran-related tests to pass under GCC 5/6. - Fixed SCons.Tool.Packaging.rpm.package source nondeterminism across builds. From William Deegan: - Removed deprecated tools CVS, Perforce, BitKeeper, RCS, SCCS, Subversion. - Removed deprecated module SCons.Sig - Added prioritized list of xsltproc tools to docbook. The order will now be as follows: xsltproc, saxon, saxon-xslt, xalan (with first being highest priority, first tool found is used) - Fixed MSVSProject example code (http://scons.tigris.org/issues/show_bug.cgi?id=2979) - Defined MS SDK 10.0 and Changed VS 2015 to use SDK 10.0 - Changes to Action Function and Action Class signiture creation. NOTE: This will cause rebuilds for many builds when upgrading to SCons 3.0 - Fixed Bug #3027 - "Cross Compiling issue: cannot override ranlib" - Fixed Bug #3020 - "Download link in user guide wrong. python setup.py install --version-lib broken" - Fixed Bug #2486 - Added SetOption('silent',True) - Previously this value was not allowed to be set. - Fixed Bug #3040 - Non-unicode character in CHANGES.txt - Fixed Bug #2622 - AlwaysBuild + MSVC regression. - Fixed Bug #3025 - (Credit to Florian : User flow86 on tigris) - Fix typo JAVACLASSSUFIX should have been JAVACLASSSUFFIX From Ibrahim Esmat: - Added the capability to build Windows Store Compatible libraries that can be used with Universal Windows Platform (UWP) Apps and published to the store From Daniel Holth: - Add basic support for PyPy (by deleting __slots__ from Node with a metaclass on PyPy); wrap most-used open() calls in 'with' statements to avoid too many open files. - Add __main__.py for `python -m SCons` in case it is on PYTHONPATH. - Always use highest available pickle protocol for efficiency. - Remove unused command line fallback for the zip tool. From Gaurav Juvekar: - Fix issue #2832: Expand construction variables in 'chdir' argument of builders. (PR #463) - Fix issue #2910: Make --tree=all handle Unicode. (PR #427) - Fix issue #2788: Fix typo in documentation example for sconf. (PR #388) From Alexey Klimkin: - Use memoization to optimize PATH evaluation across all dependencies per node. (PR #345) - Use set() where it is applicable (PR #344) From M. Limber: - Fixed msvs.py for Visual Studio Express editions that would report "Error : ValueError: invalid literal for float(): 10.0Exp". From Rick Lupton: - Update LaTeX scanner to understand \import and related commands From Steve Robinson: - Add support for Visual Studio 2017. This support requires vswhere.exe a helper tool installed with newer installs of 2017. SCons expects it to be located at "C:\Program Files (x86)\Microsoft Visual Studio\Installer\vswhere.exe" It can be downloaded separately at https://github.com/Microsoft/vswhere From Tom Tanner: - Allow nested $( ... $) sections From Paweł Tomulik: - Fixed the issue with LDMODULEVERSIONFLAGS reported by Tim Jenness (https://pairlist4.pair.net/pipermail/scons-users/2016-May/004893.html). An error was causing "-Wl,Bsymbolic" being added to linker's command-line even when there was no specified value in LDMODULEVERSION and thus no need for the flags to be specified. - Added LoadableModule to the list of global functions (DefaultEnvironment builders). From Manish Vachharajani: - Update debian rules, compat, and control to not use features deprecated or obsolete in later versions of debhelpers - Update python version to 2.7 in debian/control From Richard Viney: - Fixed PCHPDBFLAGS causing a deprecation warning on MSVC v8 and later when using PCHs and PDBs together. From Richard West: - Added nested / namespace tool support - Added a small fix to the python3 tool loader when loading a tool as a package - Added additional documentation to the user manual on using toolpaths with the environment This includes the use of sys.path to search for tools installed via pip or package managers - Added support for a PyPackageDir function for use with the toolpath From Russel Winder: - Reordered the default D tools from "dmd, gdc, ldc" to "dmd, ldc, gdc". - Add a ProgramAllAtOnce builder to the dmd, ldc, and gdc tools. (PR #448) - Remove a file name exception for very old Fedora LDC installation. - gdc can now handle building shared objects (tested for version 6.3.0). - Remove establishing the SharedLibrary builder in the dmd, ldc, and gdc tools, must now include the ar tool to get this builder as is required for other compiler tools. - Add clang and clang++ tools based on Paweł Tomulik's work. RELEASE 2.5.1 - Mon, 03 Nov 2016 13:37:42 -0400 From William Deegan: - Add scons-configure-cache.py to packaging. It was omitted From Alexey Klimkin: - Use memoization to optimize PATH evaluation across all dependencies per node. (PR #345) RELEASE 2.5.0 - Mon, 09 Apr 2016 11:27:42 -0700 From Dirk Baechle: - Removed a lot of compatibility methods and workarounds for Python versions < 2.7, in order to prepare the work towards a combined 2.7/3.x version. (PR #284) Also fixed the default arguments for the print_tree and render_tree methods. (PR #284, too) From William Blevins: - Added support for cross-language dependency scanning; SCons now respects scanner keys for implicit dependencies. - Notes for SCons users with heterogeneous systems. - May find new (previously missed) dependencies. - May cause rebuild after upgrade due to dependency changes. - May find new dependency errors (EG. cycles). - Discovered in some of the SCons QT tests. - Resolved missing cross-language dependencies for SWIG bindings (fixes #2264). - Corrected typo in User Guide for Scanner keyword. (PR #2959) - Install builder interacts with scanner found in SCANNERS differently. - Previous: Install builder recursively scanned implicit dependencies for scanners from SCANNER, but not for built-in (default) scanners. - Current: Install builder will not scan for implicit dependencies via either scanner source. This optimizes some Install builder behavior and brings orthogonality to Install builder scanning behavior. From William Deegan: - Add better messaging when two environments have different actions for the same target (Bug #2024) - Fix issue only with MSVC and Always build where targets marked AlwaysBuild wouldn't make it into CHANGED_SOURCES and thus yield an empty compile command line. (Bug #2622) - Fix posix platform escaping logic to properly handle paths with parens in them "()". (Bug #2225) From Jakub Pola: - Intel Compiler 2016 (Linux/Mac) update for tool directories. From Adarsh Sanjeev: - Fix for issue #2494: Added string support for Chmod function. From Tom Tanner: - change cache to use 2 character subdirectories, rather than one character, so as not to give huge directories for large caches, a situation which causes issues for NFS. For existing caches, you will need to run the scons-configure-cache.py script to update them to the new format. You will get a warning every time you build until you co this. - Fix a bunch of unit tests on windows RELEASE 2.4.1 - Mon, 07 Nov 2015 10:37:21 -0700 From Arfrever Frehtes Taifersar Arahesis: - Fix for Bug # 2791 - Setup.py fails unnecessarily under Jython. From Dirk Baechle: - Fixed license of SVG titlepage files in the context of Debian packaging, such that they allow for commercial use too (#2985). From William Blevins: - InstallVersionedLib now available in the DefaultEnvironment context. - Improves orthogonality of use cases between different Install functions. From Carnë Draug: - Added new configure check, CheckProg, to check for existence of a program. From Andrew Featherstone: - Fix for issue #2840 - Fix for two environments specifying same target with different actions not throwing hard error. Instead SCons was incorrectly issuing a warning and continuing. From Hiroaki Itoh : - Add support `Microsoft Visual C++ Compiler for Python 2.7' Compiler can be obtained at: https://www.microsoft.com/en-us/download/details.aspx?id=44266 From Florian Miedniak: - Fixed tigris issue #3011: Glob() excludes didn't work when used with VariantDir(duplicate=0) From William Roberts: - Fix bug 2831 and allow Help() text to be appended to AddOption() help. From Paweł Tomulik: - Reimplemented versioning for shared libraries, with the following effects - Fixed tigris issues #3001, #3006. - Fixed several other issues not reported to tigris, including: issues with versioned libraries in subdirectories with tricky names, issues with versioned libraries and variant directories, issue with soname not being injected to library when using D linkers, - Switched to direct symlinks instead of daisy-chained ones -- soname and development symlinks point directly to the versioned shared library now), for rationale see: https://www.debian.org/doc/debian-policy/ch-sharedlibs.html https://fedoraproject.org/wiki/Packaging:Guidelines#Devel_Packages https://bitbucket.org/scons/scons/pull-requests/247/new-versioned-libraries-gnulink-cyglink/diff#comment-10063929 - New construction variables to allow override default behavior: SONAME, SHLIBVERSIONFLAGS, _SHLIBVERSIONFLAGS, SHLIBNOVERSIONSYMLINKS, LDMODULEVERSION, LDMODULEVERSIONFLAGS, _LDMODULEVERSIONFLAGS, LDMODULENOVERSIONSYMLINKS. - Changed logic used to configure the versioning machinery from platform-centric to linker-oriented. - The SHLIBVERSION/LDMODULEVERSION variables are no longer validated by SCons (more freedom to users). - InstallVersionedLib() doesn't use SHLIBVERSION anymore. - Enchanced docs for the library versioning stuff. - New tests for versioned libraries. - Library versioning is currently implemented for the following linker tools: 'cyglink', 'gnulink', 'sunlink'. - Fix to swig tool - pick-up 'swig', 'swig3.0' and 'swig2.0' (in order). - Fix to swig tool - respect env['SWIG'] provided by user. RELEASE 2.4.0 - Mon, 21 Sep 2015 08:56:00 -0700 From Dirk Baechle: - Switched several core classes to use "slots", to reduce the overall memory consumption in large projects (fixes #2180, #2178, #2198) - Memoizer counting uses decorators now, instead of the old metaclasses approach. From Andrew Featherstone - Fixed typo in SWIGPATH description RELEASE 2.3.6 - Mon, 31 Jul 2015 14:35:03 -0700 From Rob Smith: - Added support for Visual Studio 2015 RELEASE 2.3.5 - Mon, 17 Jun 2015 21:07:32 -0700 From Stephen Pollard: - Documentation fixes for libraries.xml and builders-writing.xml (#2989 and #2990) From William Deegan: - Extended docs for InstallVersionedLib/SharedLibrary, and added SKIP_WIN_PACKAGES argument to build script bootstrap.py (PR #230, #3002). From William Blevins: - Fixed symlink support (PR #227, #2395). - Updated debug-count test case (PR #229). From Alexey Klimkin: - Fixed incomplete LIBS flattening and substitution in Program scanner(PR #205, #2954). From Dirk Baechle: - Added new method rentry_exists_on_disk to Node.FS (PR #193). From Russel Winder: - Fixed several D tests under the different OS. - Add support for f08 file extensions for Fortran 2008 code. From Anatoly Techtonik: - Show --config choices if no argument is specified (PR #202). - Fixed build crash when XML toolchain isn't installed, and activated compression for ZIP archives. From Alexandre Feblot: - Fix for VersionedSharedLibrary under 'sunos' platform. - Fixed dll link with precompiled headers on MSVC 2012 - Added an 'exclude' parameter to Glob() From Laurent Marchelli: - Support for multiple cmdargs (one per variant) in VS project files. - Various improvements for TempFileMunge class. - Added an implementation for Visual Studio users files (PR #209). From Dan Pidcock: - Added support for the 'PlatformToolset' tag in VS project files (#2978). From James McCoy: - Added support for '-isystem' to ParseFlags. RELEASE 2.3.4 - Mon, 27 Sep 2014 12:50:35 -0400 From Bernhard Walle and Dirk Baechle: - Fixed the interactive mode, in connection with Configure contexts (#2971). From Anatoly Techtonik: - Fix EnsureSConsVersion warning when running packaged version From Russel Winder: - Fix D tools for building shared libraries RELEASE 2.3.3 - Sun, 24 Aug 2014 21:08:33 -0400 From Roland Stark: - Fixed false line length calculation in the TempFileMunge class (#2970). From Gary Oberbrunner: - Improve SWIG detection From Russel Winder: - Fix regression on Windows in D language update From Neal Becker and Stefan Zimmermann: - Python 3 port and compatibility From Anatoly Techtonik: - Do not fail on EnsureSConsVersion when running from checkout From Kendrick Boyd and Rob Managan: - Fixed the newglossary action to work with VariantDir (LaTeX). From Manuel Francisco Naranjo: - Added a default for the BUILDERS environment variable, to prevent not defined exception on a Clone(). From Andrew Featherstone: - Added description of CheckTypeSize method (#1991). - Fixed handling of CPPDEFINE var in Append() for several list-dict combinations (#2900). From William Blevins: - Added test for Java derived-source dependency tree generation. - Added Copy Action symlink soft-copy support (#2395). - Various contributions to the documentation (UserGuide). RELEASE 2.3.2 From Dirk Baechle: - Update XML doc editor configuration - Fix: Allow varlist to be specified as list of strings for Actions (#2754) From veon on bitbucket: - Fixed handling of nested ifs in CPP scanner PreProcessor class. From Shane Gannon: - Support for Visual Studio 2013 (12.0) From Michael Haubenwallner: - Respect user's CC/CXX values; don't always overwrite in generate() - Delegate linker Tool.exists() to CC/CXX Tool.exists(). From Rob Managan: - Updated the TeX builder to support use of the -synctex=1 option and the files it creates. - Updated the TeX builder to correctly clean auxiliary files when the biblatex package is used. From Gary Oberbrunner: - get default RPM architecture more robustly when building RPMs From Amir Szekely: - Fixed NoClean() for multi-target builders (#2353). From Paweł Tomulik: - Fix SConf tests that write output From Russel Winder: - Revamp of the D language support. Tools for DMD, GDC and LDC provided and integrated with the C and C++ linking. NOTE: This is only tested with D v2. Support for D v1 is now deprecated. From Anatoly Techtonik: - Several improvements for running scons.py from source: * engine files form source directory take priority over all other importable versions * message about scons.py running from source is removed to fix tests that were failing because of this extra line in the output * error message when SCons import fails now lists lookup paths - Remove support for QMTest harness from runtest.py - Remove RPM and m4 from default tools on Windows - BitKeeper, CVS, Perforce, RCS, SCCS are deprecated from default tools and will be removed in future SCons versions to speed up SCons initialization (it will still be possible to use these tools explicitly) From Sye van der Veen: - Support for Visual Studio 12.0Exp, and fixes for earlier MSVS versions. RELEASE 2.3.1 From Andrew Featherstone: - Added support for EPUB output format to the DocBook tool. From Tom Tanner: - Stop leaking file handles to subprocesses by switching to using subprocess always. - Allow multiple options to be specified with --debug=a,b,c - Add support for a readonly cache (--cache-readonly) - Always print stats if requested - Generally try harder to print out a message on build errors - Adds a switch to warn on missing targets - Add Pseudo command to mark targets which should not exist after they are built. From Bogdan Tenea: - Check for 8.3 filenames on cygwin as well as win32 to make variant_dir work properly. From Alexandre Feblot: - Make sure SharedLibrary depends on all dependent libs (by depending on SHLINKCOM) From Stefan Sperling: - Fixed the setup of linker flags for a versioned SharedLibrary under OpenBSD (#2916). From Antonio Cavallo: - Improve error if Visual Studio bat file not found. From Manuel Francisco Naranjo: - Allow Subst.Literal string objects to be compared with each other, so they work better in AddUnique() and Remove(). From David Rothenberger: - Added cyglink linker that uses Cygwin naming conventions for shared libraries and automatically generates import libraries. From Dirk Baechle: - Update bootstrap.py so it can be used from any dir, to run SCons from a source (non-installed) dir. - Count statistics of instances are now collected only when the --debug=count command-line option is used (#2922). - Added release_target_info() to File nodes, which helps to reduce memory consumption in clean builds and update runs of large projects. - Fixed the handling of long options in the command-line parsing (#2929). - Fixed misspelled variable in intelc.py (#2928). From Gary Oberbrunner: - Test harness: fail_test() can now print a message to help debugging. From Anatoly Techtonik: - Require rpmbuild when building SCons package. - Print full stack on certain errors, for debugging. - Improve documentation for Textfile builder. From William Deegan: - VS2012 & VS2010 Resolve initialization issues by adding path to reg.exe in shell used to run batch files. - MSVC Support fixed defaulting TARGET_ARCH to HOST_ARCH. It should be None if not explicitly set. - MSVC Fixed issue where if more than one Architectures compilers are detected, it would take the last one found, and not the first. From Philipp Kraus: - Added optional ZIPROOT to Zip tool. From Dirk Baechle: - Replaced old SGML-based documentation toolchain with a more modern approach, that also requires less external dependencies (programs and Python packages). Added a customized Docbook XSD for strict validation of all input XML files. From Luca Falavigna: - Fixed spelling errors in MAN pages (#2897). From Michael McDougall: - Fixed description of ignore_case for EnumVariable in the MAN page (#2774). RELEASE 2.3.0 - Mon, 02 Mar 2013 13:22:29 -0400 From Anatoly Techtonik: - Added ability to run scripts/scons.py directly from source checkout - Hide deprecated --debug={dtree,stree,tree} from --help output - Error messages from option parser now include hints about valid choices - Cleaned up some Python 1.5 and pre-2.3 code, so don't expect SCons to run on anything less than Python 2.4 anymore - Several fixes for runtest.py: * exit with an error if no tests were found * removed --noqmtest option - this behavior is by default * replaced `-o FILE --xml` combination with `--xml FILE` * changed `-o, --output FILE` option to capture stdout/stderr output from runtest.py - Remove os_spawnv_fix.diff patch required to enable parallel builds support prior to Python 2.2 From Juan Lang: - Fix WiX Tool to use .wixobj rather than .wxiobj for compiler output - Support building with WiX releases after 2.0 From Alexey Klimkin: - Fix nested LIBPATH expansion by flattening sequences in subst_path. From eyan on Bitbucket: - Print target name with command execution time with --debug=time From Thomas Berg and Evgeny Podjachev: - Fix subprocess spawning on Windows. Work around a Windows bug that can crash python occasionally when using -jN. (#2449) From Dirk Baechle: - Updated test framework to support dir and file fixtures and added ability to test external (out-of-tree) tools (#2862). See doc in QMTest/test-framework.rst. - Fixed several errors in the test suite (Java paths, MSVS version detection, Tool import), additionally * provided MinGW command-line support for the CXX, AS and Fortran tests, * refactored the detection of the gcc version and the according Fortran startup library, * provided a new module rpmutils.py, wrapping the RPM naming rules for target files and further hardware-dependent info (compatibility, compiler flags, ...), * added new test methods must_exist_one_of() and must_not_exist_any_of() and * removed Aegis support from runtest.py. (#2872) From Gary Oberbrunner: - Add -jN support to runtest.py to run tests in parallel - Add MSVC10 and MSVC11 support to get_output low-level bat script runner. - Fix MSVS solution generation for VS11, and fixed tests. From Rob Managan: - Updated the TeX builder to support the \newglossary command in LaTeX's glossaries package and the files it creates. - Improve support for new versions of biblatex in the TeX builder so biber is called automatically if biblatex requires it. - Add SHLIBVERSION as an option that tells SharedLibrary to build a versioned shared library and create the required symlinks. Add builder InstallVersionedLib to create the required symlinks installing a versioned shared library. RELEASE 2.2.0 - Mon, 05 Aug 2012 15:37:48 +0000 From dubcanada on Bitbucket: - Fix 32-bit Visual Express C++ on 64-bit Windows (generate 32-bit code) From Paweł Tomulik: - Added gettext toolset - Fixed FindSourceFiles to find final sources (leaf nodes). From Greg Ward: - Allow Node objects in Java path (#2825) From Joshua Hughes: - Make Windows not redefine builtin file as un-inheritable (#2857) - Fix WINDOWS_INSERT_DEF on MinGW (Windows) (#2856) From smallbub on Bitbucket: - Fix LINKCOMSTR, SHLINKCOMSTR, and LDMODULECOMSTR on Windows (#2833). From Mortoray: - Make -s (silent mode) be silent about entering subdirs (#2976). - Fix cloning of builders when cloning environment (#2821). From Gary Oberbrunner: - Show valid Visual Studio architectures in error message when user passes invalid arch. From Alexey Petruchik: - Support for Microsoft Visual Studio 11 (both using it and generating MSVS11 solution files). From Alexey Klimkin: - Fixed the Taskmaster, curing spurious build failures in multi-threaded runs (#2720). From Dirk Baechle: - Improved documentation of command-line variables (#2809). - Fixed scons-doc.py to properly convert main XML files (#2812). From Rob Managan: - Updated the TeX builder to support LaTeX's multibib package. - Updated the TeX builder to support LaTeX's biblatex package. - Added support for using biber instead of bibtex by setting env['BIBTEX'] = 'biber' From Arve Knudsen: - Test for FORTRANPPFILESUFFIXES (#2129). RELEASE 2.1.0 - Mon, 09 Sep 2011 20:54:57 -0700 From Anton Lazarev: - Fix Windows resource compiler scanner to accept DOS line endings. From Matthias: - Update MSVS documents to remove note indicating that only one project is currently supported per solution file. From Grzegorz Bizoń: - Fix long compile lines in batch mode by using TEMPFILE - Fix MSVC_BATCH=False (was treating it as true) From Justin Gullingsrud: - support -std=c++0x and related CXXFLAGS in pkgconfig (ParseFlags) From Vincent Beffara: - Support -dylib_file in pkgconfig (ParseFlags) From Gary Oberbrunner and Sohail Somani: - new construction variable WINDOWS_EMBED_MANIFEST to automatically embed manifests in Windows EXEs and DLLs. From Gary Oberbrunner: - Fix Visual Studio project generation when CPPPATH contains Dir nodes - Ensure Visual Studio project is regenerated when CPPPATH or CPPDEFINES change - Fix unicode error when using non-ASCII filenames with Copy or Install - Put RPATH in LINKCOM rather than LINKFLAGS so resetting LINKFLAGS doesn't kill RPATH - Fix precompiled headers on Windows when variant dir name has spaces. - Adding None to an Action no longer fails (just returns original action) - New --debug=prepare option to show each target as it's being prepared, whether or not anything needs to be done for it. - New debug option --debug=duplicate to print a line for each unlink/relink (or copy) of a variant file from its source file. - Improve error message for EnumVariables to show legal values. - Fix Intel compiler to sort versions >9 correctly (esp. on Linux) - Fix Install() when the source and target are directories and the target directory exists. From David Garcia Garzon: - Fix Delete to be able to delete broken symlinks and dir symlinks. From Imran Fanaswala and Robert Lehr: - Handle .output file generated by bison/yacc properly. Cleaning it when necessary. From Antoine Dechaume: - Handle SWIG file where there is whitespace after the module name properly. Previously the generated files would include the whitespace. From Dmitry R.: - Handle Environment in case __semi_deepcopy is None From Benoit Belley: - Much improved support for Windows UNC paths (\\SERVERNAME). From Jean-Baptiste Lab: - Fix problems with appending CPPDEFINES that contain dictionaries, and related issues with Parse/MergeFlags and CPPDEFINES. From Allen Weeks: - Fix for an issue with implicit-cache with multiple targets when dependencies are removed on disk. From Evgeny Podjachev and Alexey Petruchick: - Support generation of Microsoft Visual Studio 2008 (9.0) and 2010 (10.0) project and solution files. From Ken Deeter: - Fix a problem when FS Entries which are actually Dirs have builders. From Luca Falavigna: - Support Fortran 03 From Gary Oberbrunner: - Print the path to the SCons package in scons --version From Jean-Fran�ois Colson: - Improve Microsoft Visual Studio Solution generation, and fix various errors in the generated solutions especially when using MSVS_SCC_PROVIDER, and when generating multiple projects. The construction variable MSVS_SCC_PROJECT_BASE_PATH, which never worked properly, is removed. Users can use the new variable MSVS_SCC_CONNECTION_ROOT instead if desired. From Anatoly Techtonik: - Use subprocess in bootstrap.py instead of os.execve to avoid losing output control on Windows (http://bugs.python.org/issue9148) - Revert patch for adding SCons to App Paths, because standard cmd shell doesn't search there. This is confusing, because `scons` can be executed from explorer, but fail to start from console. - Fix broken installation with easy_install on Windows (issue #2051) SCons traditionally installed in a way that allowed to run multiple versions side by side. This custom logic was incompatible with easy_install way of doing things. - Use epydoc module for generating API docs in HTML if command line utility is not found in PATH. Actual for Windows. From Alexander Goomenyuk: - Add .sx to assembly source scanner list so .sx files get their header file dependencies detected. From Arve Knudsen: - Set module metadata when loading site_scons/site_init.py so it is treated as a proper module; __doc__, __file__ and __name__ now refer to the site_init.py file. From Russel Winder: - Users Guide updates explaining that Tools can be packages as well as python modules. From Gary Oberbrunner: - New systemwide and per-user site_scons dirs. From Dirk Baechle: - XML fixes in User's Guide. - Fixed the detection of 'jar' and 'rmic' during the initialization of the respective Tools (#2730). - Improved docs for custom Decider functions and custom Scanner objects (#2711, #2713). - Corrected SWIG module names for generated *.i files (#2707). From Joe Zuntz: - Fixed a case-sensitivity problem with Fortran modules. From Bauke Conijn: - Added Users Guide example for auto-generated source code From Steven Knight: - Fix explicit dependencies (Depends()) on Nodes that don't have attached Builders. - Fix use of the global Alias() function with command actions. From Matt Hughes: - Fix the ability to append to default $*FLAGS values (which are implemented as CLVar instances) in a copied construction environment without affecting the original construction environment's value. From Rob Managan: - Updated the TeX command strings to include a /D on Windows in case the new directory is on a different drive letter. - Fixed the LaTeX scanner so dependencies are found in commands that are broken across lines with a comment or have embedded spaces. - The TeX builders should now work with tex files that are generated by another program. Thanks to Hans-Martin von Gaudecker for isolating the cause of this bug. - Added support for INDEXSTYLE environment variable so makeindex can find style files. - Added support for the bibunits package so we call bibtex on all the bu*.aux files. - Add support of finding path information on OSX for TeX applications MacPorts and Fink paths need to be added by the user From Russel Winder: - Add support for DMD version 2 (the phobos2 library). From William Deegan: - Add initial support for VS/VC 2010 (express and non-express versions) - Remove warning for not finding MS VC/VS install. "scons: warning: No version of Visual Studio compiler found - C/C++ compilers most likely not set correctly" - Add support for Linux 3.0 RELEASE 2.0.1 - Mon, 15 Aug 2010 15:46:32 -0700 From Dirk Baechle: - Fix XML in documentation. From Joe Zuntz: - Fixed a case-sensitivity problem with Fortran modules. From Bauke Conijn: - Added Users Guide example for auto-generated source code From Steven Knight: - Fix explicit dependencies (Depends()) on Nodes that don't have attached Builders. From Matt Hughes: - Fix the ability to append to default $*FLAGS values (which are implemented as CLVar instances) in a copied construction environment without affecting the original construction environment's value. From Rob Managan: - Updated the TeX command strings to include a /D on Windows in case the new directory is on a different drive letter. - Fixed the LaTeX scanner so dependencies are found in commands that are broken across lines with a comment or have embedded spaces. RELEASE 2.0.0.final.0 - Mon, 14 Jun 2010 22:01:37 -0700 From Dirk Baechle: - Fix XML in documentation. From Steven Knight: - Provide forward compatibility for the 'profile' module. - Provide forward compatibility for the 'pickle' module. - Provide forward compatibility for the 'io' module. - Provide forward compatibility for the 'queue' module. - Provide forward compatibility for the 'collections' module. - Provide forward compatibility for the 'builtins' module. - Provide forward compatibility for 'sys.intern()'. - Convert to os.walk() from of os.path.walk(). - Remove compatibility logic no longer needed. - Add a '-3' option to runtest to print 3.x incompatibility warnings. - Convert old-style classes into new-style classes. - Fix "Ignoring corrupt sconsign entry" warnings when building in a tree with a pre-2.0 .sconsign file. - Fix propagation from environment of VS*COMNTOOLS to resolve issues initializing MSVC/MSVS/SDK issues. - Handle detecting Visual C++ on Python verions with upper-case platform architectures like 'AMD64'. From W. Trevor King: - Revisions to README. From Greg Noel: - Apply numerous Python fixers to update code to more modern idioms. Find where fixers should be applied to code in test strings and apply the fixers there, too. - Write a fixer to convert string functions to string methods. - Modify the 'dict' fixer to be less conservative. - Modify the 'apply' fixer to handle more cases. - Create a modified 'types' fixer that converts types to 2.x equivalents rather than 3.x equivalents. - Write a 'division' fixer to highlight uses of the old-style division operator. Correct usage where needed. - Add forward compatibility for the new 'memoryview' function (which replaces the 'buffer' function). - Add forward compatibility for the 'winreg' module. - Remove no-longer-needed 'platform' module. - Run tests with the '-3' option to Python 2.6 and clear up various reported incompatibilities. - Comb out code paths specialized to Pythons older than 2.4. - Update deprecation warnings; most now become mandatory. - Start deprecation cycle for BuildDir() and build_dir. - Start deprecation cycle for SourceCode() and related factories - Fixed a problem with is_Dict() not identifying some objects derived from UserDict. From Jim Randall: - Document the AllowSubstExceptions() function in the User's Guide. From William Deegan: - Migrate MSVC/MSVS/SDK improvements from 1.3 branch. RELEASE 1.3.0 - Tue, 23 Mar 2010 21:44:19 -0400 From Steven Knight: - Update man page and documentation. From William Deegan (plus minor patch from Gary Oberbrunner): - Support Visual Studio 8.0 Express RELEASE 1.2.0.d20100306 - Sat, 06 Mar 2010 16:18:33 -0800 From Luca Falavigna: - Fix typos in the man page. From Gottfried Ganssauge: - Support execution when SCons is installed via easy_install. From Steven Knight: - Make the messages for Configure checks of compilers consistent. - Issue an error message if a BUILDERS entry is not a Builder object or a callable wrapper. From Rob Managan: - Update tex builder to handle the case where a \input{foo} command tries to work with a directory named foo instead of the file foo.tex. The builder now ignores a directory and continues searching to find the correct file. Thanks to Lennart Sauerbeck for the test case and initial patch Also allow the \include of files in subdirectories when variantDir is used with duplicate=0. Previously latex would crash since the directory in which the .aux file is written was not created. Thanks to Stefan Hepp for finding this and part of the solution. From James Teh: - Patches to fix some issues using MS SDK V7.0 From William Deegan: - Lots of testing and minor patches to handle mixed MS VC and SDK installations, as well as having only the SDK installed. RELEASE 1.2.0.d20100117 - Sun, 17 Jan 2010 14:26:59 -0800 From Jim Randall: - Fixed temp filename race condition on Windows with long cmd lines. From David Cournapeau: - Fixed tryRun when sconf directory is in a variant dir. - Do not add -fPIC for ifort tool on non-posix platforms (darwin and windows). - Fix bug 2294 (spurious CheckCC failures). - Fix scons bootstrap process on windows 64 (wrong wininst name) From William Deegan: - Final merge from vs_revamp branch to main - Added definition and usage of HOST_OS, HOST_ARCH, TARGET_OS, TARGET_ARCH, currently only defined/used by Visual Studio Compilers. This will be rolled out to other platforms/tools in the future. - Add check for python >= 3.0.0 and exit gracefully. For 1.3 python >= 1.5.2 and < 3.0.0 are supported - Fix bug 1944 - Handle non-existent .i file in swig emitter, previously it would crash with an IOError exception. Now it will try to make an educated guess on the module name based on the filename. From Lukas Erlinghagen: - Have AddOption() remove variables from the list of seen-but-unknown variables (which are reported later). - An option name and aliases can now be specified as a tuple. From Hartmut Goebel: - Textfile builder. From Jared Grubb: - use "is/is not" in comparisons with None instead of "==" or "!=". From Jim Hunziker: - Avoid adding -gphobos to a command line multiple times when initializing use of the DMD compiler. From Jason Kenney: - Sugguested HOST/TARGET OS/ARCH separation. From Steven Knight: - Fix the -n option when used with VariantDir(duplicate=1) and the variant directory doesn't already exist. - Fix scanning of Unicode files for both UTF-16 endian flavors. - Fix a TypeError on #include of file names with Unicode characters. - Fix an exception if a null command-line argument is passed in. - Evaluate Requires() prerequisites before a Node's direct children (sources and dependencies). From Greg Noel: - Remove redundant __metaclass__ initializations in Environment.py. - Correct the documentation of text returned by sconf.Result(). - Document that filenames with '.' as the first character are ignored by Glob() by default (matching UNIX glob semantics). - Fix SWIG testing infrastructure to work on Mac OS X. - Restructure a test that occasionally hung so that the test would detect when it was stuck and fail instead. - Substfile builder. From Gary Oberbrunner: - When reporting a target that SCons doesn't know how to make, specify whether it's a File, Dir, etc. From Ben Webb: - Fix use of $SWIGOUTDIR when generating Python wrappers. - Add $SWIGDIRECTORSUFFIX and $SWIGVERSION construction variables. From Rob Managan: - Add -recorder flag to Latex commands and updated internals to use the output to find files TeX creates. This allows the MiKTeX installations to find the created files - Notify user of Latex errors that would get buried in the Latex output - Remove LATEXSUFFIXES from environments that don't initialize Tex. - Add support for the glossaries package for glossaries and acronyms - Fix problem that pdftex, latex, and pdflatex tools by themselves did not create the actions for bibtex, makeindex,... by creating them and other environment settings in one routine called by all four tex tools. - Fix problem with filenames of sideeffects when the user changes the name of the output file from the latex default - Add scanning of files included in Latex by means of \lstinputlisting{} Patch from Stefan Hepp. - Change command line for epstopdf to use --outfile= instead of -o since this works on all platforms. Patch from Stefan Hepp. - Change scanner to properly search for included file from the directory of the main file instead of the file it is included from. Also update the emitter to add the .aux file associated with \include{filename} commands. This makes sure the required directories if any are created for variantdir cases. Half of the patch from Stefan Hepp. RELEASE 1.2.0.d20090223 - Mon, 23 Feb 2009 08:41:06 -0800 From Stanislav Baranov: - Make suffix-matching for scanners case-insensitive on Windows. From David Cournapeau: - Change the way SCons finds versions of Visual C/C++ and Visual Studio to find and use the Microsoft v*vars.bat files. From Robert P. J. Day: - User's Guide updates. From Dan Eaton: - Fix generation of Visual Studio 8 project files on x64 platforms. From Allan Erskine: - Set IncludeSearchPath and PreprocessorDefinitions in generated Visual Studio 8 project files, to help IntelliSense work. From Mateusz Gruca: - Fix deletion of broken symlinks by the --clean option. From Steven Knight: - Fix the error message when use of a non-existent drive on Windows is detected. - Add sources for files whose targets don't exist in $CHANGED_SOURCES. - Detect implicit dependencies on commands even when the command is quoted. - Fix interaction of $CHANGED_SOURCES with the --config=force option. - Fix finding #include files when the string contains escaped backslashes like "C:\\some\\include.h". - Pass $CCFLAGS to Visual C/C++ precompiled header compilation. - Remove unnecessary nested $( $) around $_LIBDIRFLAGS on link lines for the Microsoft linker, the OS/2 ilink linker and the Phar Lap linkloc linker. - Spell the Windows environment variables consistently "SystemDrive" and "SystemRoot" instead of "SYSTEMDRIVE" and "SYSTEMROOT". RELEASE 1.2.0.d20090113 - Tue, 13 Jan 2009 02:50:30 -0800 From Stanislav Baranov, Ted Johnson and Steven Knight: - Add support for batch compilation of Visual Studio C/C++ source files, controlled by a new $MSVC_BATCH construction variable. From Steven Knight: - Print the message, "scons: Build interrupted." on error output, not standard output. - Add a --warn=future-deprecated option for advance warnings about deprecated features that still have warnings hidden by default. - Fix use of $SOURCE and $SOURCES attributes when there are no sources specified in the Builder call. - Add support for new $CHANGED_SOURCES, $CHANGED_TARGETS, $UNCHANGED_SOURCES and $UNCHANGED_TARGETS variables. - Add general support for batch builds through new batch_key= and targets= keywords to Action object creation. From Arve Knudsen: - Make linker tools differentiate properly between SharedLibrary and LoadableModule. - Document TestCommon.shobj_prefix variable. - Support $SWIGOUTDIR values with spaces. From Rob Managan: - Don't automatically try to build .pdf graphics files for .eps files in \includegraphics{} calls in TeX/LaTeX files when building with the PDF builder (and thus using pdflatex). From Gary Oberbrunner: - Allow AppendENVPath() and PrependENVPath() to interpret '#' for paths relative to the top-level SConstruct directory. - Use the Borland ilink -e option to specify the output file name. - Document that the msvc Tool module uses $PCH, $PCHSTOP and $PDB. - Allow WINDOWS_INSERT_DEF=0 to disable --output-def when linking under MinGW. From Zia Sobhani: - Fix typos in the User's Guide. From Greg Spencer: - Support implicit dependency scanning of files encoded in utf-8 and utf-16. From Roberto de Vecchi: - Remove $CCFLAGS from the the default definitions of $CXXFLAGS for Visual C/C++ and MIPSpro C++ on SGI so, they match other tools and avoid flag duplication on C++ command lines. From Ben Webb: - Handle quoted module names in SWIG source files. - Emit *_wrap.h when SWIG generates header file for directors From Matthew Wesley: - Copy file attributes so we identify, and can link a shared library from, shared object files in a Repository. RELEASE 1.2.0 - Sat, 20 Dec 2008 22:47:29 -0800 From Steven Knight: - Don't fail if can't import a _subprocess module on Windows. - Add warnings for use of the deprecated Options object. RELEASE 1.1.0.d20081207 - Sun, 07 Dec 2008 19:17:23 -0800 From Benoit Belley: - Improve the robustness of GetBuildFailures() by refactoring SCons exception handling (especially BuildError exceptions). - Have the --taskmastertrace= option print information about individual Task methods, not just the Taskmaster control flow. - Eliminate some spurious dependency cycles by being more aggressive about pruning pending children from the Taskmaster walk. - Suppress mistaken reports of a dependency cycle when a child left on the pending list is a single Node in EXECUTED state. From David Cournapeau: - Fix $FORTRANMODDIRPREFIX for the ifort (Intel Fortran) tool. From Brad Fitzpatrick: - Don't pre-generate an exception message (which will likely be ignored anyway) when an EntryProxy re-raises an AttributeError. From Jared Grubb: - Clean up coding style and white space in Node/FS.py. - Fix a typo in the documentation for $_CPPDEFFLAGS. - Issue 2401: Fix usage of comparisons with None. From Ludwig H�hne: - Handle Java inner classes declared within a method. From Steven Knight: - Fix label placement by the "scons-time.py func" subcommand when a profile value was close to (or equal to) 0.0. - Fix env.Append() and env.Prepend()'s ability to add a string to list-like variables like $CCFLAGS under Python 2.6. - Other Python2.6 portability: don't use "as" (a Python 2.6 keyword). Don't use the deprecated Exception.message attribute. - Support using the -f option to search for a different top-level file name when walking up with the -D, -U or -u options. - Fix use of VariantDir when the -n option is used and doesn't, therefore, actually create the variant directory. - Fix a stack trace from the --debug=includes option when passed a static or shared library as an argument. - Speed up the internal find_file() function (used for searching CPPPATH, LIBPATH, etc.). - Add support for using the Python "in" keyword on construction environments (for example, if "CPPPATH" in env: ...). - Fix use of Glob() when a repository or source directory contains an in-memory Node without a corresponding on-disk file or directory. - Add a warning about future reservation of $CHANGED_SOURCES, $CHANGED_TARGETS, $UNCHANGED_SOURCES and $UNCHANGED_TARGETS. - Enable by default the existing warnings about setting the resource $SOURCE, $SOURCES, $TARGET and $TARGETS variable. From Rob Managan: - Scan for TeX files in the paths specified in the $TEXINPUTS construction variable and the $TEXINPUTS environment variable. - Configure the PDF() and PostScript() Builders as single_source so they know each source file generates a separate target file. - Add $EPSTOPDF, $EPSTOPDFFLAGS and $EPSTOPDFCOM - Add .tex as a valid extension for the PDF() builder. - Add regular expressions to find \input, \include and \includegraphics. - Support generating a .pdf file from a .eps source. - Recursive scan included input TeX files. - Handle requiring searched-for TeX input graphics files to have extensions (to avoid trying to build a .eps from itself, e.g.). From Greg Noel: - Make the Action() function handle positional parameters consistently. - Clarify use of Configure.CheckType(). - Make the File.{Dir,Entry,File}() methods create their entries relative to the calling File's directory, not the SConscript directory. - Use the Python os.devnull variable to discard error output when looking for the $CC or $CXX version. - Mention LoadableModule() in the SharedLibrary() documentation. From Gary Oberbrunner: - Update the User's Guide to clarify use of the site_scons/ directory and the site_init.py module. - Make env.AppendUnique() and env.PrependUnique remove duplicates within a passed-in list being added, too. From Randall Spangler: - Fix Glob() so an on-disk file or directory beginning with '#' doesn't throw an exception. RELEASE 1.1.0 - Thu, 09 Oct 2008 08:33:47 -0700 From Chris AtLee - Use the specified environment when checking for the GCC compiler version. From Ian P. Cardenas: - Fix Glob() polluting LIBPATH by returning copy of list From David Cournapeau: - Add CheckCC, CheckCXX, CheckSHCC and CheckSHCXX tests to configuration contexts. - Have the --profile= argument use the much faster cProfile module (if it's available in the running Python version). - Reorder MSVC compilation arguments so the /Fo is first. From Bill Deegan: - Add scanning Windows resource (.rc) files for implicit dependencies. From John Gozde: - When scanning for a #include file, don't use a directory that has the same name as the file. From Ralf W. Grosse-Kunstleve - Suppress error output when checking for the GCC compiler version. From Jared Grubb: - Fix VariantDir duplication of #included files in subdirectories. From Ludwig H�hne: - Reduce memory usage when a directory is used as a dependency of another Node (such as an Alias) by returning a concatenation of the children's signatures + names, not the children's contents, as the directory contents. - Raise AttributeError, not KeyError, when a Builder can't be found. - Invalidate cached Node information (such as the contenst returned by the get_contents() method) when calling actions with Execute(). - Avoid object reference cycles from frame objects. - Reduce memory usage from Null Executor objects. - Compute MD5 checksums of large files without reading the entire file contents into memory. Add a new --md5-chunksize option to control the size of each chunk read into memory. From Steven Knight: - Fix the ability of the add_src_builder() method to add a new source builder to any other builder. - Avoid an infinite loop on non-Windows systems trying to find the SCons library directory if the Python library directory does not begin with the string "python". - Search for the SCons library directory in "scons-local" (with no version number) after "scons-local-{VERSION}". From Rob Managan: - Fix the user's ability to interrupt the TeX build chain. - Fix the TeX builder's allowing the user to specify the target name, instead of always using its default output name based on the source. - Iterate building TeX output files until all warning are gone and the auxiliary files stop changing, or until we reach the (configurable) maximum number of retries. - Add TeX scanner support for: glossaries, nomenclatures, lists of figures, lists of tables, hyperref and beamer. - Use the $BIBINPUTS, $BSTINPUTS, $TEXINPUTS and $TEXPICTS construction variables as search paths for the relevant types of input file. - Fix building TeX with VariantDir(duplicate=0) in effect. - Fix the LaTeX scanner to search for graphics on the TEXINPUTS path. - Have the PDFLaTeX scanner search for .gif files as well. From Greg Noel: - Fix typos and format bugs in the man page. - Add a first draft of a wrapper module for Python's subprocess module. - Refactor use of the SCons.compat module so other modules don't have to import it individually. - Add .sx as a suffix for assembly language files that use the C preprocessor. From Gary Oberbrunner: - Make Glob() sort the returned list of Files or Nodes to prevent spurious rebuilds. - Add a delete_existing keyword argument to the AppendENVPath() and PrependENVPath() Environment methods. - Add ability to use "$SOURCE" when specifying a target to a builder From Damyan Pepper: - Add a test case to verify that SConsignFile() files can be created in previously non-existent subdirectories. From Jim Randall: - Make the subdirectory in which the SConsignFile() file will live, if the subdirectory doesn't already exist. From Ali Tofigh: - Add a test to verify duplication of files in VariantDir subdirectories. RELEASE 1.0.1 - Sat, 06 Sep 2008 07:29:34 -0700 From Greg Noel: - Add a FindFile() section to the User's Guide. - Fix the FindFile() documentation in the man page. - Fix formatting errors in the Package() description in the man page. - Escape parentheses that appear within variable names when spawning command lines using os.system(). RELEASE 1.0.0 - XXX From Jared Grubb: - Clear the Node state when turning a generic Entry into a Dir. From Ludwig H�hne: - Fix sporadic output-order failures in test/GetBuildFailures/parallel.py. - Document the ParseDepends() function in the User's Guide. From khomenko: - Create a separate description and long_description for RPM packages. From Steven Knight: - Document the GetLaunchDir() function in the User's Guide. - Have the env.Execute() method print an error message if the executed command fails. - Add a script for creating a standard SCons development system on Ubuntu Hardy. Rewrite subsidiary scripts for install Python and SCons versions in Python (from shell). From Greg Noel: - Handle yacc/bison on newer Mac OS X versions creating file.hpp, not file.cpp.h. - In RPCGEN tests, ignore stderr messages from older versions of rpcgen on some versions of Mac OS X. - Fix typos in man page descriptions of Tag() and Package(), and in the scons-time man page. - Fix documentation of SConf.CheckLibWithHeader and other SConf methods. - Update documentation of SConscript(variant_dir) usage. - Fix SWIG tests for (some versions of) Mac OS X. From Jonas Olsson: - Print the warning about -j on Windows being potentially unreliable if the pywin32 extensions are unavailable or lack file handle operations. From Jim Randall: - Fix the env.WhereIs() method to expand construction variables. From Rogier Schouten: - Enable building of shared libraries with the Bordand ilink32 linker. RELEASE 1.0.0 - Sat, 09 Aug 2008 12:19:44 -0700 From Luca Falavigna: - Fix SCons man page indentation under Debian's man page macros. From Steven Knight: - Clarify the man page description of the SConscript(src_dir) argument. - User's Guide updates: - Document the BUILD_TARGETS, COMMAND_LINE_TARGETS and DEFAULT_TARGETS variables. - Document the AddOption(), GetOption() and SetOption() functions. - Document the Requires() function; convert to the Variables object, its UnknownOptions() method, and its associated BoolVariable(), EnumVariable(), ListVariable(), PackageVariable() and PathVariable() functions. - Document the Progress() function. - Reorganize the chapter and sections describing the different types of environments and how they interact. Document the SetDefault() method. Document the PrependENVPath() and AppendENVPath() functions. - Reorganize the command-line arguments chapter. Document the ARGLIST variable. - Collect some miscellaneous sections into a chapter about configuring build output. - Man page updates: - Document suggested use of the Visual C/C++ /FC option to fix the ability to double-click on file names in compilation error messages. - Document the need to use Clean() for any SideEffect() files that must be explicitly removed when their targets are removed. - Explicitly document use of Node lists as input to Dependency(). From Greg Noel: - Document MergeFlags(), ParseConfig(), ParseFlags() and SideEffect() in the User's Guide. From Gary Oberbrunner: - Document use of the GetBuildFailures() function in the User's Guide. From Adam Simpkins: - Add man page text clarifying the behavior of AddPreAction() and AddPostAction() when called with multiple targets. From Alexey Zezukin: - Fix incorrectly swapped man page descriptions of the --warn= options for duplicate-environment and missing-sconscript. RELEASE 0.98.5 - Sat, 07 Jun 2008 08:20:35 -0700 From Benoit Belley: - Fix the Intel C++ compiler ABI specification for EMT64 processors. From David Cournapeau: - Issue a (suppressable) warning, not an error, when trying to link C++ and Fortran object files into the same executable. From Steven Knight: - Update the scons.bat file so that it returns the real exit status from SCons, even though it uses setlocal + endlocal. - Fix the --interactive post-build messages so it doesn't get stuck mistakenly reporting failures after any individual build fails. - Fix calling File() as a File object method in some circumstances. - Fix setup.py installation on Mac OS X so SCons gets installed under /usr/lcoal by default, not in the Mac OS X Python framework. RELEASE 0.98.4 - Sat, 17 May 2008 22:14:46 -0700 From Benoit Belley: - Fix calculation of signatures for Python function actions with closures in Python versions before 2.5. From David Cournapeau: - Fix the initialization of $SHF77FLAGS so it includes $F77FLAGS. From Jonas Olsson: - Fix a syntax error in the Intel C compiler support on Windows. From Steven Knight: - Change how we represent Python Value Nodes when printing and when stored in .sconsign files (to avoid blowing out memory by storing huge strings in .sconsign files after multiple runs using Configure contexts cause the Value strings to be re-escaped each time). - Fix a regression in not executing configuration checks after failure of any configuration check that used the same compiler or other tool. - Handle multiple destinations in Visual Studio 8 settings for the analogues to the INCLUDE, LIBRARY and PATH variables. From Greg Noel: - Update man page text for VariantDir(). RELEASE 0.98.3 - Tue, 29 Apr 2008 22:40:12 -0700 From Greg Noel: - Fix use of $CXXFLAGS when building C++ shared object files. From Steven Knight: - Fix a regression when a Builder's source_scanner doesn't select a more specific scanner for the suffix of a specified source file. - Fix the Options object backwards compatibility so people can still "import SCons.Options.{Bool,Enum,List,Package,Path}Option" submodules. - Fix searching for implicit dependencies when an Entry Node shows up in the search path list. From Stefano: - Fix expansion of $FORTRANMODDIR in the default Fortran command line(s) when it's set to something like ${TARGET.dir}. RELEASE 0.98.2 - Sun, 20 Apr 2008 23:38:56 -0700 From Steven Knight: - Fix a bug in Fortran suffix computation that would cause SCons to run out of memory on Windows systems. - Fix being able to specify --interactive mode command lines with \ (backslash) path name separators on Windows. From Gary Oberbrunner: - Document Glob() in the User's Guide. RELEASE 0.98.1 - Fri, 18 Apr 2008 19:11:58 -0700 From Benoit Belley: - Speed up the SCons.Util.to_string*() functions. - Optimize various Node intialization and calculations. - Optimize Executor scanning code. - Optimize Taskmaster execution, including dependency-cycle checking. - Fix the --debug=stree option so it prints its tree once, not twice. From Johan Boul�: - Fix the ability to use LoadableModule() under MinGW. From David Cournapeau: - Various missing Fortran-related construction variables have been added. - SCons now uses the program specified in the $FORTRAN construction variable to link Fortran object files. - Fortran compilers on Linux (Intel, g77 and gfortran) now add the -fPIC option by default when compilling shared objects. - New 'sunf77', 'sunf90' and 'sunf95' Tool modules have been added to support Sun Fortran compilers. On Solaris, the Sun Fortran compilers are used in preference to other compilers by default. - Fortran support now uses gfortran in preference to g77. - Fortran file suffixes are now configurable through the $F77FILESUFFIXES, $F90FILESUFFIXES, $F95FILESUFFIXES and $FORTRANFILESUFFIXES variables. From Steven Knight: - Make the -d, -e, -w and --no-print-directory options "Ignored for compatibility." (We're not going to implement them.) - Fix a serious inefficiency in how SCons checks for whether any source files are missing when a Builder call creates many targets from many input source files. - In Java projects, make the target .class files depend only on the specific source .java files where the individual classes are defined. - Don't store duplicate source file entries in the .sconsign file so we don't endlessly rebuild the target(s) for no reason. - Add a Variables object as the first step towards deprecating the Options object name. Similarly, add BoolVariable(), EnumVariable(), ListVariable(), PackageVariable() and PathVariable() functions as first steps towards replacing BoolOption(), EnumOption(), ListOption(), PackageOption() and PathOption(). - Change the options= keyword argument to the Environment() function to variables=, to avoid confusion with SCons command-line options. Continue supporting the options= keyword for backwards compatibility. - When $SWIGFLAGS contains the -python flag, expect the generated .py file to be in the same (sub)directory as the target. - When compiling C++ files, allow $CCFLAGS settings to show up on the command line even when $CXXFLAGS has been redefined. - Fix --interactive with -u/-U/-D when a VariantDir() is used. From Anatoly Techtonik: - Have the scons.bat file add the script execution directory to its local %PATH% on Windows, so the Python executable can be found. From Mike Wake: - Fix passing variable names as a list to the Return() function. From Matthew Wesley: - Add support for the GDC 'D' language compiler. RELEASE 0.98 - Sun, 30 Mar 2008 23:33:05 -0700 From Benoit Belley: - Fix the --keep-going flag so it builds all possible targets even when a later top-level target depends on a child that failed its build. - Fix being able to use $PDB and $WINDWOWS_INSERT_MANIFEST together. - Don't crash if un-installing the Intel C compiler leaves left-over, dangling entries in the Windows registry. - Improve support for non-standard library prefixes and suffixes by stripping all prefixes/suffixes from file name string as appropriate. - Reduce the default stack size for -j worker threads to 256 Kbytes. Provide user control over this value by adding --stack-size and --warn=stack-size options, and a SetOption('stack_size') function. - Fix a crash on Linux systems when trying to use the Intel C compiler and no /opt/intel_cc_* directories are found. - Improve using Python functions as actions by incorporating into a FunctionAction's signature: - literal values referenced by the byte code. - values of default arguments - code of nested functions - values of variables captured by closures - names of referenced global variables and functions - Fix the closing message when --clean and --keep-going are both used and no errors occur. - Add support for the Intel C compiler on Mac OS X. - Speed up reading SConscript files by about 20% (for some configurations) by: 1) optimizing the SCons.Util.is_*() and SCons.Util.flatten() functions; 2) avoiding unnecessary os.stat() calls by using a File's .suffix attribute directly instead of stringifying it. From Jérôme Berger: - Have the D language scanner search for .di files as well as .d files. - Add a find_include_names() method to the Scanner.Classic class to abstract out how included names can be generated by subclasses. - Allow the D language scanner to detect multiple modules imported by a single statement. From Konstantin Bozhikov: - Support expansion of construction variables that contain or refer to lists of other variables or Nodes within expansions like $CPPPATH. - Change variable substitution (the env.subst() method) so that an input sequence (list or tuple) is preserved as a list in the output. From David Cournapeau: - Add a CheckDeclaration() call to configure contexts. - Improve the CheckTypeSize() code. - Add a Define() call to configure contexts, to add arbitrary #define lines to a generated configure header file. - Add a "gfortran" Tool module for the GNU F95/F2003 compiler. - Avoid use of -rpath with the Mac OS X linker. - Add comment lines to the generated config.h file to describe what the various #define/#undef lines are doing. From Steven Knight: - Support the ability to subclass the new-style "str" class as input to Builders. - Improve the performance of our type-checking by using isinstance() with new-style classes. - Fix #include (and other $*PATH variables searches) of files with absolute path names. Don't die if they don't exist (due to being #ifdef'ed out or the like). - Fix --interactive mode when Default(None) is used. - Fix --debug=memoizer to work around a bug in base Python 2.2 metaclass initialization (by just not allowing Memoization in Python versions that have the bug). - Have the "scons-time time" subcommand handle empty log files, and log files that contain no results specified by the --which option. - Fix the max Y of vertical bars drawn by "scons-time --fmt=gnuplot". - On Mac OS X, account for the fact that the header file generated from a C++ file will be named (e.g.) file.cpp.h, not file.hpp. - Fix floating-point numbers confusing the Java parser about generated .class file names in some configurations. - Document (nearly) all the values you can now fetch with GetOption(). - Fix use of file names containing strings of multiple spaces when using ActionFactory instances like the Copy() or Move() function. - Fix a 0.97 regression when using a variable expansion (like $OBJSUFFIX) in a source file name to a builder with attached source builders that match suffix (like Program()+Object()). - Have the Java parser recognize generics (surrounded by angle brackets) so they don't interfere with identifying anonymous inner classes. - Avoid an infinite loop when trying to use saved copies of the env.Install() or env.InstallAs() after replacing the method attributes. - Improve the performance of setting construction variables. - When cloning a construction environment, avoid over-writing an attribute for an added method if the user explicitly replaced it. - Add a warning about deprecated support for Python 1.5, 2.0 and 2.1. - Fix being able to SetOption('warn', ...) in SConscript files. - Add a warning about env.Copy() being deprecated. - Add warnings about the --debug={dtree,stree,tree} options being deprecated. - Add VariantDir() as the first step towards deprecating BuildDir(). Add the keyword argument "variant_dir" as the replacement for "build_dir". - Add warnings about the {Target,Source}Signatures() methods and functions being deprecated. From Rob Managan: - Enhance TeX and LaTeX support to work with BuildDir(duplicate=0). - Re-run LaTeX when it issues a package warning that it must be re-run. From Leanid Nazdrynau: - Have the Copy() action factory preserve file modes and times when copying individual files. From Jan Nijtmans: - If $JARCHDIR isn't set explicitly, use the .java_classdir attribute that was set when the Java() Builder built the .class files. From Greg Noel: - Document the Dir(), File() and Entry() methods of Dir and File Nodes. - Add the parse_flags option when creating Environments From Gary Oberbrunner: - Make File(), Dir() and Entry() return a list of Nodes when passed a list of names, instead of trying to make a string from the name list and making a Node from that string. - Fix the ability to build an Alias in --interactive mode. - Fix the ability to hash the contents of actions for nested Python functions on Python versions where the inability to pickle them returns a TypeError (instead of the documented PicklingError). From Jonas Olsson: - Fix use of the Intel C compiler when the top compiler directory, but not the compiler version, is specified. - Handle Intel C compiler network license files (port@system). From Jim Randall: - Fix how Python Value Nodes are printed in --debug=explain output. From Adam Simpkins: - Add a --interactive option that starts a session for building (or cleaning) targets without re-reading the SConscript files every time. - Fix use of readline command-line editing in --interactive mode. - Have the --interactive mode "build" command with no arguments build the specified Default() targets. - Fix the Chmod(), Delete(), Mkdir() and Touch() Action factories to take a list (of Nodes or strings) as arguments. From Vaclav Smilauer: - Fix saving and restoring an Options value of 'all' on Python versions where all() is a builtin function. From Daniel Svensson: - Code correction in SCons.Util.is_List(). From Ben Webb: - Support the SWIG %module statement with following modifiers in parenthese (e.g., '%module(directors="1")'). RELEASE 0.97.0d20071212 - Wed, 12 Dec 2007 09:29:32 -0600 From Benoit Belley: - Fix occasional spurious rebuilds and inefficiency when using --implicit-cache and Builders that produce multiple targets. - Allow SCons to not have to know about the builders of generated files when BuildDir(duplicate=0) is used, potentially allowing some SConscript files to be ignored for smaller builds. From David Cournapeau: - Add a CheckTypeSize() call to configure contexts. From Ken Deeter: - Make the "contents" of Alias Nodes a concatenation of the children's content signatures (MD5 checksums), not a concatenation of the children's contents, to avoid using large amounts of memory during signature calculation. From Malte Helmert: - Fix a lot of typos in the man page and User's Guide. From Geoffrey Irving: - Speed up conversion of paths in .sconsign files to File or Dir Nodes. From Steven Knight: - Add an Options.UnknownOptions() method that returns any settings (from the command line, or whatever dictionary was passed in) that aren't known to the Options object. - Add a Glob() function. - When removing targets with the -c option, use the absolute path (to avoid problems interpreting BuildDir() when the top-level directory is the source directory). - Fix problems with Install() and InstallAs() when called through a clone (of a clone, ...) of a cloned construction environment. - When executing a file containing Options() settings, add the file's directory to sys.path (so modules can be imported from there) and explicity set __name__ to the name of the file so the statement's in the file can deduce the location if they need to. - Fix an O(n^2) performance problem when adding sources to a target through calls to a multi Builder (including Aliases). - Redefine the $WINDOWSPROGMANIFESTSUFFIX and $WINDOWSSHLIBMANIFESTSUFFIX variables so they pick up changes to the underlying $SHLIBSUFFIX and $PROGSUFFIX variables. - Add a GetBuildFailures() function that can be called from functions registered with the Python atexit module to print summary information about any failures encountered while building. - Return a NodeList object, not a Python list, when a single_source Builder like Object() is called with more than one file. - When searching for implicit dependency files in the directories in a $*PATH list, don't create Dir Nodes for directories that don't actually exist on-disk. - Add a Requires() function to allow the specification of order-only prerequisites, which will be updated before specified "downstream" targets but which don't actually cause the target to be rebuilt. - Restore the FS.{Dir,File,Entry}.rel_path() method. - Make the default behavior of {Source,Target}Signatures('timestamp') be equivalent to 'timestamp-match', not 'timestamp-newer'. - Fix use of CacheDir with Decider('timestamp-newer') by updating the modification time when copying files from the cache. - Fix random issues with parallel (-j) builds on Windows when Python holds open file handles (especially for SCons temporary files, or targets built by Python function actions) across process creation. From Maxim Kartashev: - Fix test scripts when run on Solaris. From Gary Oberbrunner: - Fix Glob() when a pattern is in an explicitly-named subdirectory. From Philipp Scholl: - Fix setting up targets if multiple Package builders are specified at once. RELEASE 0.97.0d20070918 - Tue, 18 Sep 2007 10:51:27 -0500 From Steven Knight: - Fix the wix Tool module to handle null entries in $PATH variables. - Move the documentation of Install() and InstallAs() from the list of functions to the list of Builders (now that they're implemented as such). - Allow env.CacheDir() to be set per construction environment. The global CacheDir() function now sets an overridable global default. - Add an env.Decider() method and a Node.Decider() method that allow flexible specification of an arbitrary function to decide if a given dependency has changed since the last time a target was built. - Don't execute Configure actions (while reading SConscript files) when cleaning (-c) or getting help (-h or -H). - Add to each target an implicit dependency on the external command(s) used to build the target, as found by searching env['ENV']['PATH'] for the first argument on each executed command line. - Add support for a $IMPLICIT_COMMAND_DEPENDENCIES construction variabe that can be used to disable the automatic implicit dependency on executed commands. - Add an "ensure_suffix" keyword to Builder() definitions that, when true, will add the configured suffix to the targets even if it looks like they already have a different suffix. - Add a Progress() function that allows for calling a function or string (or list of strings) to display progress while walking the DAG. - Allow ParseConfig(), MergeFlags() and ParseFlags() to handle output from a *config command with quoted path names that contain spaces. - Make the Return() function stop processing the SConscript file and return immediately. Add a "stop=" keyword argument that can be set to False to preserve the old behavior. - Fix use of exitstatfunc on an Action. - Introduce all man page function examples with "Example:" or "Examples:". - When a file gets added to a directory, make sure the directory gets re-scanned for the new implicit dependency. - Fix handling a file that's specified multiple times in a target list so that it doesn't cause dependent Nodes to "disappear" from the dependency graph walk. From Carsten Koch: - Avoid race conditions with same-named files and directory creation when pushing copies of files to CacheDir(). From Tzvetan Mikov: - Handle $ in Java class names. From Gary Oberbrunner: - Add support for the Intel C compiler on Windows64. - On SGI IRIX, have $SHCXX use $CXX by default (like other platforms). From Sohail Somani: - When Cloning a construction environment, set any variables before applying tools (so the tool module can access the configured settings) and re-set them after (so they end up matching what the user set). From Matthias Troffaes: - Make sure extra auxiliary files generated by some LaTeX packages and not ending in .aux also get deleted by scons -c. From Greg Ward: - Add a $JAVABOOTCLASSPATH variable for directories to be passed to the javac -bootclasspath option. From Christoph Wiedemann: - Add implicit dependencies on the commands used to build a target. RELEASE 0.97.0d20070809 - Fri, 10 Aug 2007 10:51:27 -0500 From Lars Albertsson: - Don't error if a #include line happens to match a directory somewhere on a path (like $CPPPATH, $FORTRANPATH, etc.). From Mark Bertoglio: - Fix listing multiple projects in Visual Studio 7.[01] solution files, including generating individual project GUIDs instead of re-using the solution GUID. From Jean Brouwers: - Add /opt/SUNWspro/bin to the default execution PATH on Solaris. From Allan Erskine: - Only expect the Microsoft IDL compiler to emit *_p.c and *_data.c files if the /proxy and /dlldata switches are used (respectively). From Steven Knight: - Have --debug=explain report if a target is being rebuilt because AlwaysBuild() is specified (instead of "unknown reasons"). - Support {Get,Set}Option('help') to make it easier for SConscript files to tell if a help option (-h, --help, etc.) has been specified. - Support {Get,Set}Option('random') so random-dependency interaction with CacheDir() is controllable from SConscript files. - Add a new AddOption() function to support user-defined command- line flags (like --prefix=, --force, etc.). - Replace modified Optik version with new optparse compatibility module for command line processing in Scripts/SConsOptions.py - Push and retrieve built symlinks to/from a CacheDir() as actual symlinks, not by copying the file contents. - Fix how the Action module handles stringifying the shared library generator in the Tool/mingw.py module. - When generating a config.h file, print "#define HAVE_{FEATURE} 1" instad of just "#define HAVE_{FEATURE}", for more compatibility with Autoconf-style projects. - Fix expansion of $TARGET, $TARGETS, $SOURCE and $SOURCES keywords in Visual C/C++ PDB file names. - Fix locating Visual C/C++ PDB files in build directories. - Support an env.AddMethod() method and an AddMethod() global function for adding a new method, respectively, to a construction environment or an arbitrary object (such as a class). - Fix the --debug=time option when the -j option is specified and all files are up to date. - Add a $SWIGOUTDIR variable to allow setting the swig -outdir option, and use it to identify files created by the swig -java option. - Add a $SWIGPATH variable that specifies the path to be searched for included SWIG files, Also add related $SWIGINCPREFIX and $SWIGINCSUFFIX variables that specify the prefix and suffix to be be added to each $SWIGPATH directory when expanded on the SWIG command line. - More efficient copying of construction environments (mostly borrowed from copy.deepcopy() in the standard Python library). - When printing --tree=prune output, don't print [brackets] around source files, only do so for built targets with children. - Fix interpretation of Builder source arguments when the Builder has a src_suffix *and* a source_builder and the argument has no suffix. - Fix use of expansions like ${TARGET.dir} or ${SOURCE.dir} in the following construction variables: $FORTRANMODDIR, $JARCHDIR, $JARFLAGS, $LEXFLAGS, $SWIGFLAGS, $SWIGOUTDIR and $YACCFLAGS. - Fix dependencies on Java files generated by SWIG so they can be detected and built in one pass. - Fix SWIG when used with a BuildDir(). From Leanid Nazdrynau: - When applying Tool modules after a construction environment has already been created, don't overwrite existing $CFILESUFFIX and $CXXFILESUFFIX value. - Support passing the Java() builder a list of explicit .java files (not only a list of directories to be scanned for .java files). - Support passing .java files to the Jar() and JavaH() builders, which then use the builder underlying the Java() builder to turn them into .class files. (That is, the Jar()-Java() chain of builders become multi-step, like the Program()-Object()-CFile() builders.) - Support passing SWIG .i files to the Java builders (Java(), Jar(), JavaH()), to cause intermediate .java files to be created automatically. - Add $JAVACLASSPATH and $JAVASOURCEPATH variables, that get added to the javac "-classpath" and "-sourcepath" options. (Note that SCons does *not* currently search these paths for implicit dependencies.) - Commonize initialization of Java-related builders. From Jan Nijtmans: - Find Java anonymous classes when the next token after the name is an open parenthesis. From Gary Oberbrunner: - Fix a code example in the man page. From Tilo Prutz: - Add support for the file names that Java 1.5 (and 1.6) generates for nested anonymous inner classes, which are different from Java 1.4. From Adam Simpkins: - Allow worker threads to terminate gracefully when all jobs are finished. From Sohail Somani: - Add LaTeX scanner support for finding dependencies specified with the \usepackage{} directive. RELEASE 0.97 - Thu, 17 May 2007 08:59:41 -0500 From Steven Knight: - Fix a bug that would make parallel builds stop in their tracks if Nodes that depended on lists that contained some Nodes built together caused the reference count to drop below 0 if the Nodes were visited and commands finished in the wrong order. - Make sure the DirEntryScanner doesn't choke if it's handed something that's not a directory (Node.FS.Dir) Node. RELEASE 0.96.96 - Thu, 12 Apr 2007 12:36:25 -0500 NOTE: This is (Yet) a(nother) pre-release of 0.97 for testing purposes. From Joe Bloggs: - Man page fix: remove cut-and-paste sentence in NoCache() description. From Dmitry Grigorenko and Gary Oberbrunner: - Use the Intel C++ compiler, not $CC, to link C++ source. From Helmut Grohne: - Fix the man page example of propagating a user's external environment. From Steven Knight: - Back out (most of) the Windows registry installer patch, which seems to not work on some versions of Windows. - Don't treat Java ".class" attributes as defining an inner class. - Fix detecting an erroneous Java anonymous class when the first non-skipped token after a "new" keyword is a closing brace. - Fix a regression when a CPPDEFINES list contains a tuple, the second item of which (the option value) is a construction variable expansion (e.g. $VALUE) and the value of the variable isn't a string. - Improve the error message if an IOError (like trying to read a directory as a file) occurs while deciding if a node is up-to-date. - Fix "maximum recursion" / "unhashable type" errors in $CPPPATH PathList expansion if a subsidiary expansion yields a stringable, non-Node object. - Generate API documentation from the docstrings (using epydoc). - Fix use of --debug=presub with Actions for out-of-the-box Builders. - Fix handling nested lists within $CPPPATH, $LIBPATH, etc. - Fix a "builders_used" AttributeError that real-world Qt initialization triggered in the refactored suffix handling for Builders. - Make the reported --debug=time timings meaningful when used with -j. Better documentation of what the times mean. - User Guide updates: --random, AlwaysBuild(), --tree=, --debug=findlibs, --debug=presub, --debug=stacktrace, --taskmastertrace. - Document (in both man page and User's Guide) that --implicit-cache ignores changes in $CPPPATH, $LIBPATH, etc. From Jean-Baptiste Lab: - Remove hard-coded dependency on Python 2.2 from Debian packaging files. From Jeff Mahovsky: - Handle spaces in the build target name in Visual Studio project files. From Rob Managan: - Re-run LaTeX after BibTeX has been re-run in response to a changed .bib file. From Joel B. Mohler: - Make additional TeX auxiliary files (.toc, .idx and .bbl files) Precious so their removal doesn't affect whether the necessary sections are included in output PDF or PostScript files. From Gary Oberbrunner: - Fix the ability to import modules in the site_scons directory from a subdirectory. From Adam Simpkins: - Make sure parallel (-j) builds all targets even if they show up multiple times in the child list (as a source and a dependency). From Matthias Troffaes: - Don't re-run TeX if the triggering strings (\makeindex, \bibliography \tableofcontents) are commented out. From Richard Viney: - Fix use of custom include and lib paths with Visual Studio 8. - Select the default .NET Framework SDK Dir based on the version of Visual Studio being used. RELEASE 0.96.95 - Mon, 12 Feb 2007 20:25:16 -0600 From Anatoly Techtonik: - Add the scons.org URL and a package description to the setup.py arguments. - Have the Windows installer add a registry entry for scons.bat in the "App Paths" key, so scons.bat can be executed without adding the directory to the %PATH%. (Python itself works this way.) From Anonymous: - Fix looking for default paths in Visual Studio 8.0 (and later). - Add -lm to the list of default D libraries for linking. From Matt Doar: - Provide a more complete write-your-own-Scanner example in the man page. From Ralf W. Grosse-Kunstleve: - Contributed upstream Python change to our copied subprocess.py module for more efficient standard input processing. From Steven Knight: - Fix the Node.FS.Base.rel_path() method when the two nodes are on different drive letters. (This caused an infinite loop when trying to write .sconsign files.) - Fully support Scanners that use a dictionary to map file suffixes to other scanners. - Support delayed evaluation of the $SPAWN variable to allow selection of a function via ${} string expansions. - Add --srcdir as a synonym for -Y/--repository. - Document limitations of #include "file.h" with Repository(). - Fix use of a toolpath under the source directory of a BuildDir(). - Fix env.Install() with a file name portion that begins with '#'. - Fix ParseConfig()'s handling of multiple options in a string that's replaced a *FLAGS construction variable. - Have the C++ tools initialize common C compilation variables ($CCFLAGS, $SHCCFLAGS and $_CCCOMCOM) even if the 'cc' Tool isn't loaded. From Leanid Nazdrynau: - Fix detection of Java anonymous classes if a newline precedes the opening brace. From Gary Oberbrunner: - Document use of ${} to execute arbitrary Python code. - Add support for: 1) automatically adding a site_scons subdirectory (in the top-level SConstruct directory) to sys.path (PYTHONPATH); 2) automatically importing site_scons/site_init.py; 3) automatically adding site_scons/site_tools to the toolpath. From John Pye: - Change ParseConfig() to preserve white space in arguments passed in as a list. From a smith: - Fix adding explicitly-named Java inner class files (and any other file names that may contain a '$') to Jar files. From David Vitek: - Add a NoCache() function to mark targets as unsuitable for propagating to (or retrieving from) a CacheDir(). From Ben Webb: - If the swig -noproxy option is used, it won't generate a .py file, so don't emit it as a target that we expect to be built. RELEASE 0.96.94 - Sun, 07 Jan 2007 18:36:20 -0600 NOTE: This is a pre-release of 0.97 for testing purposes. From Anonymous: - Allow arbitrary white space after a SWIG %module declaration. From Paul: - When compiling resources under MinGW, make sure there's a space between the --include-dir option and its argument. From Jay Kint: - Alleviate long command line issues on Windows by executing command lines directly via os.spawnv() if the command line doesn't need shell interpretation (has no pipes, redirection, etc.). From Walter Franzini: - Exclude additional Debian packaging files from the copyright check. From Fawad Halim: - Handle the conflict between the impending Python 2.6 'as' keyword and our Tool/as.py module name. From Steven Knight: - Speed up the Node.FS.Dir.rel_path() method used to generate path names that get put into the .sconsign* file(s). - Optimize Node.FS.Base.get_suffix() by computing the suffix once, up front, when we set the Node's name. (Duh...) - Reduce the Memoizer's responsibilities to simply counting hits and misses when the --debug=memoizer option is used, not to actually handling the key calculation and memoization itself. This speeds up some configurations significantly, and should cause no functional differences. - Add a new scons-time script with subcommands for generating consistent timing output from SCons configurations, extracting various information from those timings, and displaying them in different formats. - Reduce some unnecessary stat() calls from on-disk entry type checks. - Fix SideEffect() when used with -j, which was badly broken in 0.96.93. - Propagate TypeError exceptions when evaluating construction variable expansions up the stack, so users can see what's going on. - When disambiguating a Node.FS.Entry into a Dir or File, don't look in the on-disk source directory until we've confirmed there's no on-disk entry locally and there *is* one in the srcdir. This avoids creating a phantom Node that can interfere with dependencies on directory contents. - Add an AllowSubstExceptions() function that gives the SConscript files control over what exceptions cause a string to expand to '' vs. terminating processing with an error. - Allow the f90.py and f95.py Tool modules to compile earlier source source files of earlier Fortran version. - Fix storing signatures of files retrieved from CacheDir() so they're correctly identified as up-to-date next invocation. - Make sure lists of computed source suffixes cached by Builder objects don't persist across changes to the list of source Builders (so the addition of suffixes like .ui by the qt.py Tool module take effect). - Enhance the bootstrap.py script to allow it to be used to execute SCons more easily from a checked-out source tree. From Ben Leslie: - Fix post-Memoizer value caching misspellings in Node.FS._doLookup(). From Rob Managan, Dmitry Mikhin and Joel B. Mohler: - Handle TeX/LaTeX files in subdirectories by changing directory before invoking TeX/LaTeX. - Scan LaTeX files for \bibliography lines. - Support multiple file names in a "\bibliography{file1,file2}" string. - Handle TeX warnings about undefined citations. - Support re-running LaTeX if necessary due to a Table of Contents. From Dmitry Mikhin: - Return LaTeX if "Rerun to get citations correct" shows up on the next line after the "Warning:" string. From Gary Oberbrunner: - Add #include lines to fix portability issues in two tests. - Eliminate some unnecessary os.path.normpath() calls. - Add a $CFLAGS variable for C-specific options, leaving $CCFLAGS for options common to C and C++. From Tom Parker: - Have the error message print the missing file that Qt can't find. From John Pye: - Fix env.MergeFlags() appending to construction variable value of None. From Steve Robbins: - Fix the "sconsign" script when the .sconsign.dblite file is explicitly specified on the command line (and not intuited from the old way of calling it with just ".sconsign"). From Jose Pablo Ezequiel "Pupeno" Fernandez Silva: - Give the 'lex' tool knowledge of the additional target files produced by the flex "--header-file=" and "--tables-file=" options. - Give the 'yacc' tool knowledge of the additional target files produced by the bison "-g", "--defines=" and "--graph=" options. - Generate intermediate files with Objective C file suffixes (.m) when the lex and yacc source files have appropriate suffixes (.lm and .ym). From Sohail Somain: - Have the mslink.py Tool only look for a 'link' executable on Windows systems. From Vaclav Smilauer: - Add support for a "srcdir" keyword argument when calling a Builder, which will add a srcdir prefix to all non-relative string sources. From Jonathan Ultis: - Allow Options converters to take the construction environment as an optional argument. RELEASE 0.96.93 - Mon, 06 Nov 2006 00:44:11 -0600 NOTE: This is a pre-release of 0.97 for testing purposes. From Anonymous: - Allow Python Value Nodes to be Builder targets. From Matthias: - Only filter Visual Studio common filename prefixes on complete directory names. From Chad Austin: - Fix the build of the SCons documentation on systems that don't have "python" in the $PATH. From Ken Boortz: - Enhance ParseConfig() to recognize options that begin with '+'. From John Calcote, Elliot Murphy: - Document ways to override the CCPDBFLAGS variable to use the Microsoft linker's /Zi option instead of the default /Z7. From Christopher Drexler: - Make SCons aware bibtex must be called if any \include files cause creation of a bibliography. - Make SCons aware that "\bilbiography" in TeX source files means that related .bbl and .blg bibliography files will be created. (NOTE: This still needs to search for the string in \include files.) From David Gruener: - Fix inconsistent handling of Action strfunction arguments. - Preserve white space in display Action strfunction strings. From James Y. Knight and Gerard Patel: - Support creation of shared object files from assembly language. From Steven Knight: - Speed up the Taskmaster significantly by avoiding unnecessary re-scans of Nodes to find out if there's work to be done, having it track the currently-executed top-level target directly and not through its presence on the target list, and eliminating some other minor list(s), method(s) and manipulation. - Fix the expansion of $TARGET and $SOURCE in the expansion of $INSTALLSTR displayed for non-environment calls to InstallAs(). - Fix the ability to have an Alias() call refer to a directory name that's not identified as a directory until later. - Enhance runtest.py with an option to use QMTest as the harness. This will become the default behavior as we add more functionality to the QMTest side. - Let linking on mingw use the default function that chooses $CC (gcc) or $CXX (g++) depending on whether there are any C++ source files. - Work around a bug in early versions of the Python 2.4 profile module that caused the --profile= option to fail. - Only call Options validators and converters once when initializing a construction environment. - Fix the ability of env.Append() and env.Prepend(), in all known Python versions, to handle different input value types when the construction variable being updated is a dictionary. - Add a --cache-debug option for information about what files it's looking for in a CacheDir(). - Document the difference in construction variable expansion between {Action,Builder}() and env.{Action,Builder}(). - Change the name of env.Copy() to env.Clone(), keeping the old name around for backwards compatibility (with the intention of eventually phasing it out to avoid confusion with the Copy() Action factory). From Arve Knudsen: - Support cleaning and scanning SWIG-generated files. From Carsten Koch: - Allow selection of Visual Studio version by setting $MSVS_VERSION after construction environment initialization. From Jean-Baptiste Lab: - Try using zipimport if we can't import Tool or Platform modules using the normal "imp" module. This allows SCons to be packaged using py2exe's all-in-one-zip-file approach. From Ben Liblit: - Do not re-scan files if the scanner returns no implicit dependencies. From Sanjoy Mahajan: - Change use of $SOURCES to $SOURCE in all TeX-related Tool modules. From Joel B. Mohler: - Make SCons aware that "\makeindex" in TeX source files means that related .ilg, .ind and .idx index files will be created. (NOTE: This still needs to search for the string in \include files.) - Prevent scanning the TeX .aux file for additional files from trying to remove it twice when the -c option is used. From Leanid Nazdrynau: - Give the MSVC RES (resource) Builder a src_builder list and a .rc src_suffix so other builders can generate .rc files. From Matthew A. Nicholson: - Enhance Install() and InstallAs() to handle directory trees as sources. From Jan Nijtmans: - Don't use the -fPIC flag when using gcc on Windows (e.g. MinGW). From Greg Noel: - Add an env.ParseFlags() method that provides separate logic for parsing GNU tool chain flags into a dictionary. - Add an env.MergeFlags() method to apply an arbitrary dictionary of flags to a construction environment's variables. From Gary Oberbrunner: - Fix parsing tripartite Intel C compiler version numbers on Linux. - Extend the ParseConfig() function to recognize -arch and -isysroot options. - Have the error message list the known suffixes when a Builder call can't build a source file with an unknown suffix. From Karol Pietrzak: - Avoid recursive calls to main() in the program snippet used by the SConf subsystem to test linking against libraries. This changes the default behavior of CheckLib() and CheckLibWithHeader() to print "Checking for C library foo..." instead of "Checking for main() in C library foo...". From John Pye: - Throw an exception if a command called by ParseConfig() or ParseFlags() returns an error. From Stefan Seefeld: - Initial infrastructure for running SCons tests under QMTest. From Sohail Somani: - Fix tests that fail due to gcc warnings. From Dobes Vandermeer: - In stack traces, print the full paths of SConscript files. From Atul Varma: - Fix detection of Visual C++ Express Edition. From Dobes Vandermeer: - Let the src_dir option to the SConscript() function affect all the the source file paths, instead of treating all source files paths as relative to the SConscript directory itself. From Nicolas Vigier: - Fix finding Fortran modules in build directories. - Fix use of BuildDir() when the source file in the source directory is a symlink with a relative path. From Edward Wang: - Fix the Memoizer when the SCons Python modules are executed from .pyo files at different locations from where they were compiled. From Johan Zander: - Fix missing os.path.join() when constructing the $FRAMEWORKSDKDIR/bin. RELEASE 0.96.92 - Mon, 10 Apr 2006 21:08:22 -0400 NOTE: This was a pre-release of 0.97 for testing purposes. From Anonymous: - Fix the intelc.py Tool module to not throw an exception if the only installed version is something other than ia32. - Set $CCVERSION when using gcc. From Matthias: - Support generating project and solution files for Microsoft Visual Studio version 8. - Support generating more than one project file for a Microsoft Visual Studio solution file. - Add support for a support "runfile" parameter to Microsoft Visual Studio project file creation. - Put the project GUID, not the solution GUID, in the right spot in the solution file. From Erling Andersen: - Fix interpretation of Node.FS objects wrapped in Proxy instances, allowing expansion of things like ${File(TARGET)} in command lines. From Stanislav Baranov: - Add a separate MSVSSolution() Builder, with support for the following new construction variables: $MSVSBUILDCOM, $MSVSCLEANCOM, $MSVSENCODING, $MSVSREBUILDCOM, $MSVSSCONS, $MSVSSCONSCOM, $MSVSSCONSFLAGS, $MSVSSCONSCRIPT and $MSVSSOLUTIONCOM. From Ralph W. Grosse-Kunstleve and Patrick Mezard: - Remove unneceesary (and incorrect) SCons.Util strings on some function calls in SCons.Util. From Bob Halley: - Fix C/C++ compiler selection on AIX to not always use the external $CC environment variable. From August Hörandl: - Add a scanner for \include and \import files, with support for searching a directory list in $TEXINPUTS (imported from the external environment). - Support $MAKEINDEX, $MAKEINDEXCOM, $MAKEINDEXCOMSTR and $MAKEINDEXFLAGS for generating indices from .idx files. From Steven Johnson: - Add a NoClean() Environment method and function to override removal of targets during a -c clean, including documentation and tests. From Steven Knight: - Check for whether files exist on disk by listing the directory contents, not calling os.path.exists() file by file. This is somewhat more efficient in general, and may be significantly more efficient on Windows. - Minor speedups in the internal is_Dict(), is_List() and is_String() functions. - Fix a signature refactoring bug that caused Qt header files to get re-generated every time. - Don't fail when writing signatures if the .sconsign.dblite file is owned by a different user (e.g. root) from a previous run. - When deleting variables from stacked OverrideEnvironments, don't throw a KeyError if we were able to delte the variable from any Environment in the stack. - Get rid of the last indentation tabs in the SCons source files and add -tt to the Python invocations in the packaging build and the tests so they don't creep back in. - In Visual Studio project files, put quotes around the -C directory so everything works even if the path has spaces in it. - The Intel Fortran compiler uses -object:$TARGET, not "-o $TARGET", when building object files on Windows. Have the the ifort Tool modify the default command lines appropriately. - Document the --debug=explain option in the man page. (How did we miss this?) - Add a $LATEXRETRIES variable to allow configuration of the number of times LaTex can be re-called to try to resolve undefined references. - Change the order of the arguments to Configure.Checklib() to match the documentation. - Handle signature calculation properly when the Python function used for a FunctionAction is an object method. - On Windows, assume that absolute path names without a drive letter refer to the drive on which the SConstruct file lives. - Add /usr/ccs/bin to the end of the the default external execution PATH on Solaris. - Add $PKGCHK and $PKGINFO variables for use on Solaris when searching for the SunPRO C++ compiler. Make the default value for $PKGCHK be /usr/sbin/pgkchk (since /usr/sbin isn't usually on the external execution $PATH). - Fix a man page example of overriding variables when calling SharedLibrary() to also set the $LIBSUFFIXES variable. - Add a --taskmastertrace=FILE option to give some insight on how the taskmaster decides what Node to build next. - Changed the names of the old $WIN32DEFPREFIX, $WIN32DEFSUFFIX, $WIN32DLLPREFIX and $WIN32IMPLIBPREFIX construction variables to new $WINDOWSDEFPREFIX, $WINDOWSDEFSUFFIX, $WINDOWSDLLPREFIX and $WINDOWSIMPLIBPREFIX construction variables. The old names are now deprecated, but preserved for backwards compatibility. - Fix (?) a runtest.py hang on Windows when the --xml option is used. - Change the message when an error occurs trying to interact with the file system to report the target(s) in square brackets (as before) and the actual file or directory that encountered the error afterwards. From Chen Lee: - Add x64 support for Microsoft Visual Studio 8. From Baptiste Lepilleur: - Support the --debug=memory option on Windows when the Python version has the win32process and win32api modules. - Add support for Visual Studio 2005 Pro. - Fix portability issues in various tests: test/Case.py, Test/Java/{JAR,JARCHDIR,JARFLAGS,JAVAC,JAVACFLAGS,JAVAH,RMIC}.py, test/MSVS/vs-{6.0,7.0,7.1,8.0}-exec.py, test/Repository/{Java,JavaH,RMIC}.py, test/QT/{generated-ui,installed,up-to-date,warnings}.py, test/ZIP/ZIP.py. - Ignore pkgchk errors on Solaris when searching for the C++ compiler. - Speed up the SCons/EnvironmentTests.py unit tests. - Add a --verbose= option to runtest.py to print executed commands and their output at various levels. From Christian Maaser: - Add support for Visual Studio Express Editions. - Add support for Visual Studio 8 *.manifest files, includng new $WINDOWS_INSERT_MANIFEST, $WINDOWSPROGMANIFESTSUFFIX, $WINDOWSPROGMANIFESTPREFIX, $WINDOWSPROGMANIFESTSUFFIX, $WINDOWSSHLIBMANIFESTPREFIX and $WINDOWSSHLIBMANIFESTSUFFIX construction variables. From Adam MacBeth: - Fix detection of additional Java inner classes following use of a "new" keyword inside an inner class. From Sanjoy Mahajan: - Correct TeX-related command lines to just $SOURCE, not $SOURCES From Patrick Mezard: - Execute build commands for a command-line target if any of the files built along with the target is out of date or non-existent, not just if the command-line target itself is out of date. - Fix the -n option when used with -c to print all of the targets that will be removed for a multi-target Builder call. - If there's no file in the source directory, make sure there isn't one in the build directory, too, to avoid dangling files left over from previous runs when a source file is removed. - Allow AppendUnique() and PrependUnique() to append strings (and other atomic objects) to lists. From Joel B. Mohler: - Extend latex.py, pdflatex.py, pdftex.py and tex.py so that building from both TeX and LaTeX files uses the same logic to call $BIBTEX when it's necessary, to call $MAKEINDEX when it's necessary, and to call $TEX or $LATEX multiple times to handle undefined references. - Add an emitter to the various TeX builders so that the generated .aux and .log files also get deleted by the -c option. From Leanid Nazdrynau: - Fix the Qt UIC scanner to work with generated .ui files (by using the FindFile() function instead of checking by-hand for the file). From Jan Nieuwenhuizen: - Fix a problem with interpreting quoted argument lists on command lines. From Greg Noel: - Add /sw/bin to the default execution PATH on Mac OS X. From Kian Win Ong: - When building a .jar file and there is a $JARCHDIR, put the -C in front of each .class file on the command line. - Recognize the Java 1.5 enum keyword. From Asfand Yar Qazi: - Add /opt/bin to the default execution PATH on all POSIX platforms (between /usr/local/bin and /bin). From Jon Rafkind: - Fix the use of Configure() contexts from nested subsidiary SConscript files. From Christoph Schulz: - Add support for $CONFIGUREDIR and $CONFIGURELOG variables to control the directory and logs for configuration tests. - Add support for a $INSTALLSTR variable. - Add support for $RANLIBCOM and $RANLIBCOMSTR variables (which fixes a bug when setting $ARCOMSTR). From Amir Szekely: - Add use of $CPPDEFINES to $RCCOM (resource file compilation) on MinGW. From Erick Tryzelaar: - Fix the error message when trying to report that a given option is not gettable/settable from an SConscript file. From Dobes Vandermeer: - Add support for SCC and other settings in Microsoft Visual Studio project and solution files: $MSVS_PROJECT_BASE_PATH, $MSVS_PROJECT_GUID, $MSVS_SCC_AUX_PATH, $MSVS_SCC_LOCAL_PATH, $MSVS_SCC_PROJECT_NAME, $MSVS_SCC_PROVIDER, - Add support for using a $SCONS_HOME variable (imported from the external environment, or settable internally) to put a shortened SCons execution line in the Visual Studio project file. From David J. Van Maren: - Only filter common prefixes from source files names in Visual Studio project files if the prefix is a complete (sub)directory name. From Thad Ward: - If $MSVSVERSIONS is already set, don't overwrite it with information from the registry. RELEASE 0.96.91 - Thu, 08 Sep 2005 07:18:23 -0400 NOTE: This was a pre-release of 0.97 for testing purposes. From Chad Austin: - Have the environment store the toolpath and re-use it to find Tools modules during later Copy() or Tool() calls (unless overridden). - Normalize the directory path names in SConsignFile() database files so the same signature file can interoperate on Windows and non-Windows systems. - Make --debug=stacktrace print a stacktrace when a UserError is thrown. - Remove an old, erroneous cut-and-paste comment in Scanner/Dir.py. From Stanislav Baranov: - Make it possible to support with custom Alias (sub-)classes. - Allow Builders to take empty source lists when called. - Allow access to both TARGET and SOURCE in $*PATH expansions. - Allow SConscript files to modify BUILD_TARGETS. From Timothee Besset: - Add support for Objective C/C++ .m and .mm file suffixes (for Mac OS X). From Charles Crain - Fix the PharLap linkloc.py module to use target+source arguments when calling env.subst(). From Bjorn Eriksson: - Fix an incorrect Command() keyword argument in the man page. - Add a $TEMPFILEPREFIX variable to control the prefix or flag used to pass a long-command-line-execution tempfile to a command. From Steven Knight: - Enhanced the SCons setup.py script to install man pages on UNIX/Linux systems. - Add support for an Options.FormatOptionHelpText() method that can be overridden to customize the format of Options help text. - Add a global name for the Entry class (which had already been documented). - Fix re-scanning of generated source files for implicit dependencies when the -j option is used. - Fix a dependency problem that caused $LIBS scans to not be added to all of the targets in a multiple-target builder call, which could cause out-of-order builds when the -j option is used. - Store the paths of source files and dependencies in the .sconsign* file(s) relative to the target's directory, not relative to the top-level SConstruct directory. This starts to make it possible to subdivide the dependency tree arbitrarily by putting an SConstruct file in every directory and using content signatures. - Add support for $YACCHFILESUFFIX and $YACCHXXFILESUFFIX variables that accomodate parser generators that write header files to a different suffix than the hard-coded .hpp when the -d option is used. - The default behavior is now to store signature information in a single .sconsign.dblite file in the top-level SConstruct directory. The old behavior of a separate .sconsign file in each directory can be specified by calling SConsignFile(None). - Remove line number byte codes within the signature calculation of Python function actions, so that changing the location of an otherwise unmodified Python function doesn't cause rebuilds. - Fix AddPreAction() and AddPostAction() when an action has more than one target file: attach the actions to the Executor, not the Node. - Allow the source directory of a BuildDir / build_dir to be outside of the top-level SConstruct directory tree. - Add a --debug=nomemoizer option that disables the Memoizer for clearer looks at the counts and profiles of the underlying function calls, not the Memoizer wrappers. - Print various --debug= stats even if we exit early (e.g. using -h). - Really only use the cached content signature value if the file is older than --max-drift, not just if --max-drift is set. - Remove support for conversion from old (pre 0.96) .sconsign formats. - Add support for a --diskcheck option to enable or disable various on-disk checks: that File and Dir nodes match on-disk entries; whether an RCS file exists for a missing source file; whether an SCCS file exists for a missing source file. - Add a --raw argument to the sconsign script, so it can print a raw representation of each entry's NodeInfo dictionary. - Add the 'f90' and 'f95' tools to the list of Fortran compilers searched for by default. - Add the +Z option by default when compiling shared objects on HP-UX. From Chen Lee: - Handle Visual Studio project and solution files in Unicode. From Sanjoy Mahajan: - Fix a bad use of Copy() in an example in the man page, and a bad regular expression example in the man page and User's Guide. From Shannon Mann: - Have the Visual Studio project file(s) echo "Starting SCons" before executing SCons, mainly to work around a quote-stripping bug in (some versions of?) the Windows cmd command executor. From Georg Mischler: - Remove the space after the -o option when invoking the Borland BCC compiler; some versions apparently require that the file name argument be concatenated with the option. From Leanid Nazdrynau: - Fix the Java parser's handling of backslashes in strings. From Greg Noel: - Add construction variables to support frameworks on Mac OS X: $FRAMEWORKS, $FRAMEWORKPREFIX, $FRAMEWORKPATH, $FRAMEWORKPATHPREFIX. - Re-order link lines so the -o option always comes right after the command name. From Gary Oberbrunner: - Add support for Intel C++ beta 9.0 (both 32 and 64 bit versions). - Document the new $FRAMEWORK* variables for Mac OS X. From Karol Pietrzak: - Add $RPATH (-R) support to the Sun linker Tool (sunlink). - Add a description of env.subst() to the man page. From Chris Prince: - Look in the right directory, not always the local directory, for a same-named file or directory conflict on disk. - On Windows, preserve the external environment's %SYSTEMDRIVE% variable, too. From Craig Scott: - Have the Fortran module emitter look for Fortan modules to be created relative to $FORTRANMODDIR, not the top-level directory. - When saving Options to a file, run default values through the converter before comparing them with the set values. This correctly suppresses Boolean Option values from getting written to the saved file when they're one of the many synonyms for a default True or False value. - Fix the Fortran Scanner's ability to handle a module being used in the same file in which it is defined. From Steve-o: - Add the -KPIC option by default when compiling shared objects on Solaris. - Change the default suffix for Solaris objects to .o, to conform to Sun WorkShop's expectations. Change the profix to so_ so they can still be differentiated from static objects in the same directory. From Amir Szekely: - When calling the resource compiler on MinGW, add --include-dir and the source directory so it finds the source file. - Update EnsureSConsVersion() to support revision numbers. From Greg Ward: - Fix a misplaced line in the man page. RELEASE 0.96.90 - Tue, 15 Feb 2005 21:21:12 +0000 NOTE: This was a pre-release of 0.97 for testing purposes. From Anonymous: - Fix Java parsing to avoid erroneously identifying a new array of class instances as an anonymous inner class. - Fix a typo in the man page description of PathIsDirCreate. From Chad Austin: - Allow Help() to be called multiple times, appending to the help text each call. - Allow Tools found on a toolpath to import Python modules from their local directory. From Steve Christensen: - Handle exceptions from Python functions as build actions. - Add a set of canned PathOption validators: PathExists (the default), PathIsFile, PathIsDir and PathIsDirCreate. From Matthew Doar: - Add support for .lex and .yacc file suffixes for Lex and Yacc files. From Eric Frias: - Huge performance improvement: wrap the tuples representing an include path in an object, so that the time it takes to hash the path doesn't grow porportionally to the length of the path. From Gottfried Ganssauge: - Fix SCons on SuSE/AMD-64 Linux by having the wrapper script also check for the build engine in the parent directory of the Python library directory (/usr/lib64 instead of /usr/lib). From Stephen Kennedy: - Speed up writing the .sconsign file at the end of a run by only calling sync() once at the end, not after every entry. From Steven Knight: - When compiling with Microsoft Visual Studio, don't include the ATL and MFC directories in the default INCLUDE and LIB environment variables. - Remove the following deprecated features: the ParseConfig() global function (deprecated in 0.93); the misspelled "validater" keyword to the Options.Add() method (deprecated in 0.91); the SetBuildSignatureType(), SetContentSignatureType(), SetJobs() and GetJobs() global functions (deprecated in 0.14). - Fix problems with corrupting the .sconsign.dblite file when interrupting builds by writing to a temporary file and renaming, not writing the file directly. - Fix a 0.96 regression where when running with -k, targets built from walking dependencies later on the command line would not realize that a dependency had failed an earlier build attempt, and would try to rebuild the dependent targets. - Change the final messages when using -k and errors occur from "{building,cleaning} terminated because of errors" to "done {building,cleaning} targets (errors occurred during {build,clean})." - Allow Configure.CheckFunc() to take an optional header argument (already supported by Conftest.py) to specify text at the top of the compiled test file. - Fix the --debug=explain output when a Python function action changed so it prints a meaningful string, not the binary representation of the function contents. - Allow a ListOption's default value(s) to be a Python list of specified values, not just a string containing a comma-separated list of names. - Add a ParseDepends() function that will parse up a list of explicit dependencies from a "make depend" style file. - Support the ability to change directory when executing an Action through "chdir" keyword arguments to Action and Builder creation and calls. - Fix handling of Action ojects (and other callables that don't match our calling arguments) in construction variable expansions. - On Win32, install scons.bat in the Python directory when installing from setup.py. (The bdist_wininst installer was already doing this.) - Fix env.SConscript() when called with a list of SConscipt files. (The SConscript() global function already worked properly.) - Add a missing newline to the end of the --debug=explain "unknown reasons" message. - Enhance ParseConfig() to work properly for spaces in between the -I, -L and -l options and their arguments. - Packaging build fix: Rebuild the files that are use to report the --version of SCons whenever the development version number changes. - Fix the ability to specify a target_factory of Dir() to a Builder, which the default create-a-directory Builder was interfering with. - Mark a directory as built if it's created as part of the preparation for another target, to avoid trying to build it again when it comes up in the target list. - Allow a function with the right calling signature to be put directly in an Environment's BUILDERS dictionary, making for easier creation and use of wrappers (pseudo-Builders) that call other Builders. - On Python 2.x, wrap lists of Nodes returned by Builders in a UserList object that adds a method that makes str() object return a string with all of the Nodes expanded to their path names. (Builders under Python 1.5.2 still return lists to avoid TypeErrors when trying to extend() list, so Python 1.5.2 doesn't get pretty-printing of Node lists, but everything should still function.) - Allow Aliases to have actions that will be executed whenever any of the expanded Alias targets are out of date. - Fix expansion of env.Command() overrides within target and source file names. - Support easier customization of what's displayed by various default actions by adding lots of new construction variables: $ARCOMSTR, $ASCOMSTR, $ASPPCOMSTR, $BIBTEXCOMSTR, $BITKEEPERCOMSTR, $CCCOMSTR, $CVSCOMSTR, $CXXCOMSTR, $DCOMSTR, $DVIPDFCOMSTR, $F77COMSTR, $F90COMSTR, $F95COMSTR, $FORTRANCOMSTR, $GSCOMSTR, $JARCOMSTR, $JAVACCOMSTR, $JAVAHCOMSTR, $LATEXCOMSTR, $LEXCOMSTR, $LINKCOMSTR, $M4COMSTR, $MIDLCOMSTR, $P4COMSTR, $PCHCOMSTR, $PDFLATEXCOMSTR, $PDFTEXCOMSTR, $PSCOMSTR, $QT_MOCFROMCXXCOMSTR, $QT_MOCFROMHCOMSTR, $QT_UICCOMSTR, $RCCOMSTR, $REGSVRCOMSTR, $RCS_COCOMSTR, $RMICCOMSTR, $SCCSCOMSTR, $SHCCCOMSTR, $SHCXXCOMSTR, $SHF77COMSTR, $SHF90COMSTR, $SHF95COMSTR, $SHFORTRANCOMSTR, $SHLINKCOMSTR, $SWIGCOMSTR, $TARCOMSTR, $TEXCOMSTR, $YACCCOMSTR and $ZIPCOMSTR. - Add an optional "map" keyword argument to ListOption() that takes a dictionary to map user-specified values to legal values from the list (like EnumOption() already doee). - Add specific exceptions to try:-except: blocks without any listed, so that they won't catch and mask keyboard interrupts. - Make --debug={tree,dtree,stree} print something even when there's a build failure. - Fix how Scanners sort the found dependencies so that it doesn't matter whether the dependency file is in a Repository or not. This may cause recompilations upon upgrade to this version. - Make AlwaysBuild() work with Alias and Python value Nodes (making it much simpler to support aliases like "clean" that just invoke an arbitrary action). - Have env.ParseConfig() use AppendUnique() by default to suppress duplicate entries from multiple calls. Add a "unique" keyword argument to allow the old behavior to be specified. - Allow the library modules imported by an SConscript file to get at all of the normally-available global functions and variables by saying "from SCons.Script import *". - Add a --debug=memoizer option to print Memoizer hit/mass statistics. - Allow more than one --debug= option to be set at a time. - Change --debug=count to report object counts before and after reading SConscript files and before and after building targets. - Change --debug=memory output to line up the numbers and to better match (more or less) the headers on the --debug=count columns. - Speed things up when there are lists of targets and/or sources by getting rid of some N^2 walks of the lists involved. - Cache evaluation of LazyActions so we don't create a new object for each invocation. - When scanning, don't create Nodes for include files that don't actually exist on disk. - Make supported global variables CScanner, DScanner, ProgramScanner and SourceFileScanner. Make SourceFileScanner.add_scanner() a supported part of the public interface. Keep the old SCons.Defaults.*Scan names around for a while longer since some people were already using them. - By default, don't scan directories for on-disk files. Add a DirScanner global scanner that can be used in Builders or Command() calls that want source directory trees scanned for on-disk changes. Have the Tar() and Zip() Builders use the new DirScanner to preserve the behavior of rebuilding a .tar or .zip file if any file or directory under a source tree changes. Add Command() support for a source_scanner keyword argument to Command() that can be set to DirScanner to get this behavior. - Documentation changes: Explain that $CXXFLAGS contains $CCFLAGS by default. Fix a bad target_factory example in the man page. Add appendices to the User's Guide to cover the available Tools, Builders and construction variables. Comment out the build of the old Python 10 paper, which doesn't build on all systems and is old enough at this point that it probably isn't worth the effort to make it do so. From Wayne Lee: - Avoid "maximum recursion limit" errors when removing $(-$) pairs from long command lines. From Clive Levinson: - Make ParseConfig() recognize and add -mno-cygwin to $LINKFLAGS and $CCFLAGS, and -mwindows to $LINKFLAGS. From Michael McCracken: - Add a new "applelink" tool to handle the things like Frameworks and bundles that Apple has added to gcc for linking. - Use more appropriate default search lists of linkers, compilers and and other tools for the 'darwin' platform. - Add a LoadableModule Builder that builds a bundle on Mac OS X (Darwin) and a shared library on other systems. - Improve SWIG tests for use on Mac OS X (Darwin). From Elliot Murphy: - Enhance the tests to guarantee persistence of ListOption values in saved options files. - Supply the help text when -h is used with the -u, -U or -D options. From Christian Neeb: - Fix the Java parser's handling of string definitions to avoid ignoring subsequent code. From Han-Wen Nienhuys: - Optimize variable expansion by: using the re.sub() method (when possible); not using "eval" for variables for which we can fetch the value directory; avoiding slowing substitution logic when there's no '$' in the string. From Gary Oberbrunner: - Add an Environment.Dump() method to print the contents of a construction environment. - Allow $LIBS (and similar variables) to contain explicit File Nodes. - Change ParseConfig to add the found library names directly to the $LIBS variable, instead of returning them. - Add ParseConfig() support for the -framework GNU linker option. - Add a PRINT_CMD_LINE_FUNC construction variable to allow people to filter (or log) command-line output. - Print an internal Python stack trace in response to an otherwise unexplained error when --debug=stacktrace is specified. - Add a --debug=findlibs option to print what's happening when the scanner is searching for libraries. - Allow Tool specifications to be passed a dictionary of keyword arguments. - Support an Options default value of None, in which case the variable will not be added to the construction environment unless it's set explicitly by the user or from an Options file. - Avoid copying __builtin__ values into a construction environment's dictionary when evaluating construction variables. - Add a new cross-platform intelc.py Tool that can detect and configure the Intel C++ v8 compiler on both Windows, where it's named icl, and Linux, where it's named icc. It also checks that the directory specified in the Windows registry exists, and sets a new $INTEL_C_COMPILER_VERSION construction variable to identify the version being used. (Niall Douglas contributed an early prototype of parts of this module.) - Fix the private Conftest._Have() function so it doesn't change non-alphanumeric characters to underscores. - Supply a better error message when a construction variable expansion has an unknown attribute. - Documentation changes: Update the man page to describe use of filenames or Nodes in $LIBS. From Chris Pawling: - Have the linkloc tool use $MSVS_VERSION to select the Microsoft Visual Studio version to use. From Kevin Quick: - Fix the Builder name returned from ListBuilders and other instances of subclasses of the BuilderBase class. - Add Builders and construction variables to support rpcgen: RPCGenClient(), RPCGenHeader(), RPCGenService(), RPCGenXDR(), $RPCGEN, $RPCGENFLAGS, $RPCGENCLIENTFLAGS, $RPCGENHEADERFLAGS, $RPCGENSERVICEFLAGS, $RPCGENXDRFLAGS. - Update the man page to document that prefix and suffix Builder keyword arguments can be strings, callables or dictionaries. - Provide more info in the error message when a user tries to build a target multiple ways. - Fix Delete() when a file doesn't exist and must_exist=1. (We were unintentionally dependent on a bug in versions of the Python shutil.py module prior to Python 2.3, which would generate an exception for a nonexistent file even when ignore_errors was set.) - Only replace a Node's builder with a non-null source builder. - Fix a stack trace when a suffix selection dictionary is passed an empty source file list. - Allow optional names to be attached to Builders, for default Builders that don't get attached to construction environments. - Fix problems with Parallel Task Exception handling. - Build targets in an associated BuildDir even if there are targets or subdirectories locally in the source directory. - If a FunctionAction has a callable class as its underlying Python function, use its strfunction() method (if any) to display the action. - Fix handling when BuildDir() exists but is unwriteable. Add "Stop." to those error messages for consistency. - Catch incidents of bad builder creation (without an action) and supply meaningful error messages. - Fix handling of src_suffix values that aren't extensions (don't begin with a '.'). - Don't retrieve files from a CacheDir, but report what would happen, when the -n option is used. - Use the source_scanner from the target Node, not the source node itself. - Internal Scanners fixes: Make sure Scanners are only passed Nodes. Fix how a Scanner.Selector called its base class initialization. Make comparisons of Scanner objects more robust. Add a name to an internal default ObjSourceScanner. - Add a deprecated warning for use of the old "scanner" keyword argument to Builder creation. - Improve the --debug=explain message when the build action changes. - Test enhancements in SourceCode.py, option-n.py, midl.py. Better Command() and Scanner test coverage. Improved test infrastructure for -c output. - Refactor the interface between Action and Executor objects to treat Actions atomically. - The --debug=presub option will now report the pre-substitution each action seprately, instead of reporting the entire list before executing the actions one by one. - The --debug=explain option explaining a changed action will now (more correctly) show pre-substitution action strings, instead of the commands with substituted file names. - A Node (file) will now be rebuilt if its PreAction or PostAction actions change. - Python Function actions now have their calling signature (target, source, env) reported correctly when displayed. - Fix BuildDir()/build_dir handling when the build_dir is underneath the source directory and trying to use entries from the build_dir as sources for other targets in the build-dir. - Fix hard-coding of JDK path names in various Java tests. - Handle Python stack traces consistently (stop at the SConscript stack frame, by default) even if the Python source code isn't available. - Improve the performance of the --debug={tree,dtree} options. - Add --debug=objects logging of creation of OverrideWarner, EnvironmentCopy and EnvironmentOverride objects. - Fix command-line expansion of Python Value Nodes. - Internal cleanups: Remove an unnecessary scan argument. Associate Scanners only with Builders, not nodes. Apply overrides once when a Builder is called, not in multiple places. Cache results from the Node.FS.get_suffix() and Node.get_build_env() methods. Use the Python md5 modules' hexdigest() method, if there is one. Have Taskmaster call get_stat() once for each Node and re-use the value instead of calling it each time it needs the value. Have Node.depends_on() re-use the list from the children() method instead of calling it multiple times. - Use the correct scanner if the same source file is used for targets in two different environments with the same path but different scanners. - Collect logic for caching values in memory in a Memoizer class, which cleans up a lot of special-case code in various methods and caches additional values to speed up most configurations. - Add a PathAccept validator to the list of new canned PathOption validators. From Jeff Squyres: - Documentation changes: Use $CPPDEFINES instead of $CCFLAGS in man page examples. From Levi Stephen: - Allow $JARCHDIR to be expanded to other construction variables. From Christoph Wiedemann: - Add an Environment.SetDefault() method that only sets values if they aren't already set. - Have the qt.py Tool not override variables already set by the user. - Add separate $QT_BINPATH, $QT_CPPPATH and $QT_LIBPATH variables so these can be set individually, instead of being hard-wired relative to $QTDIR. - The %TEMP% and %TMP% external environment variables are now propagated automatically to the command execution environment on Windows systems. - A new --config= command-line option allows explicit control of of when the Configure() tests are run: --config=force forces all checks to be run, --config=cache uses all previously cached values, --config=auto (the default) runs tests only when dependency analysis determines it's necessary. - The Configure() subsystem can now write a config.h file with values like HAVE_STDIO_H, HAVE_LIBM, etc. - The Configure() subsystem now executes its checks silently when the -Q option is specified. - The Configure() subsystem now reports if a test result is being taken from cache, and prints the standard output and error output of tests even when cached. - Configure() test results are now reported as "yes" or "no" instead of "ok" or "failed." - Fixed traceback printing when calling the env.Configure() method instead of the Configure() global function. - The Configure() subsystem now caches build failures in a .sconsign file in the subdirectory, not a .cache file. This may cause tests to be re-executed the first time after you install 0.97. - Additional significant internal cleanups in the Configure() subsystem and its tests. - Have the Qt Builder make uic-generated files dependent on the .ui.h file, if one exists. - Add a test to make sure that SCons source code does not contain try:-except: blocks that catch all errors, which potentially catch and mask keyboard interrupts. - Fix us of TargetSignatures('content') with the SConf subsystem. From Russell Yanofsky: - Add support for the Metrowerks Codewarrior compiler and linker (mwcc and mwld). RELEASE 0.96.1 - Mon, 23 Aug 2004 12:55:50 +0000 From Craig Bachelor: - Handle white space in the executable Python path name within in MSVS project files by quoting the path. - Correct the format of a GUID string in a solution (.dsw) file so MSVS can correctly "build enable" a project. From Steven Knight: - Add a must_exist flag to Delete() to let the user control whether it's an error if the specified entry doesn't exist. The default behavior is now to silently do nothing if it doesn't exist. - Package up the new Platform/darwin.py, mistakenly left out of 0.96. - Make the scons.bat REM statements into @REM so they aren't printed. - Make the SCons packaging SConscript files platform independent. From Anthony Roach: - Fix scanning of pre-compiled header (.pch) files for #includes, broken in 0.96. RELEASE 0.96 - Wed, 18 Aug 2004 13:36:40 +0000 From Chad Austin: - Make the CacheDir() directory if it doesn't already exist. - Allow construction variable substitutions in $LIBS specifications. - Allow the emitter argument to a Builder() to be or expand to a list of emitter functions, which will be called in sequence. - Suppress null values in construction variables like $LIBS that use the internal _concat() function. - Remove .dll files from the construction variables searched for libraries that can be fed to Win32 compilers. From Chad Austin and Christoph Wiedemann: - Add support for a $RPATH variable to supply a list of directories to search for shared libraries when linking a program. Used by the GNU and IRIX linkers (gnulink and sgilink). From Charles Crain: - Restore the ability to do construction variable substitutions in all kinds of *PATH variables, even when the substitution returns a Node or other object. From Tom Epperly: - Allow the Java() Builder to take more than one source directory. From Ralf W. Grosse-Kunstleve: - Have SConsignFile() use, by default, a custom "dblite.py" that we can control and guarantee to work on all Python versions (or nearly so). From Jonathan Gurley: - Add support for the newer "ifort" versions of the Intel Fortran Compiler for Linux. From Bob Halley: - Make the new *FLAGS variable type work with copied Environments. From Chris Hoeppler: - Initialize the name of a Scanner.Classic scanner correctly. From James Juhasz: - Add support for the .dylib shared library suffix and the -dynamiclib linker option on Mac OS X. From Steven Knight: - Add an Execute() method for executing actions directly. - Support passing environment override keyword arguments to Command(). - Fix use of $MSVS_IGNORE_IDE_PATHS, which was broken when we added support for $MSVS_USE_MFC_DIRS last release. - Make env.Append() and env.Prepend() act like the underlying Python behavior when the variable being appended to is a UserList object. - Fix a regression that prevented the Command() global function in 0.95 from working with command-line strings as actions. - Fix checking out a file from a source code management system when the env.SourceCode() method was called with an individual file name or node, not a directory name or node. - Enhance the Task.make_ready() method to create a list of the out-of-date Nodes for the task for use by the wrapping interface. - Allow Scanners to pull the list of suffixes from the construction environment when the "skeys" keyword argument is a string containing a construction variable to be expanded. - Support new $CPPSUFFIXES, $DSUFFIXES $FORTRANSUFFIXES, and $IDLSUFFIXES. construction variables that contain the default list of suffixes to be scanned by a given type of scanner, allowing these suffix lists to be easily added to or overridden. - Speed up Node creation when calling a Builder by comparing whether two Environments are the same object, not if their underlying dictionaries are equivalent. - Add a --debug=explain option that reports the reason(s) why SCons thinks it must rebuild something. - Add support for functions that return platform-independent Actions to Chmod(), Copy(), Delete(), Mkdir(), Move() and Touch() files and/or directories. Like any other Actions, the returned Action object may be executed directly using the Execute() global function or env.Execute() environment method, or may be used as a Builder action or in an env.Command() action list. - Add support for the strfunction argument to all types of Actions: CommandAction, ListAction, and CommandGeneratorAction. - Speed up turning file system Nodes into strings by caching the values after we're finished reading the SConscript files. - Have ParseConfig() recognize and supporting adding the -Wa, -Wl, and -Wp, flags to ASFLAGS, LINKFLAGS and CPPFLAGS, respectively. - Change the .sconsign format and the checks for whether a Node is up-to-date to make dependency checks more efficient and correct. - Add wrapper Actions to SCons.Defaults for $ASCOM, $ASPPCOM, $LINKCOM, $SHLINKCOM, $ARCOM, $LEXCOM and $YACCCOM. This makes it possible to replace the default print behavior with a custom strfunction() for each of these. - When a Node has been built, don't walk the whole tree back to delete the parents's implicit dependencies, let returning up the normal Taskmaster descent take care of it for us. - Add documented support for separate target_scanner and source_scanner arguments to Builder creation, which allows different scanners to be applied to source files - Don't re-install or (re-generate) .h files when a subsidiary #included .h file changes. This eliminates incorrect circular dependencies with .h files generated from other source files. - Slim down the internal Sig.Calculator class by eliminating methods whose functionality is now covered by Node methods. - Document use of the target_factory and source_factory keyword arguments when creating Builder objects. Enhance Dir Nodes so that they can be created with user-specified Builder objects. - Don't blow up with stack trace when the external $PATH environment variable isn't set. - Make Builder calls return lists all the time, even if there's only one target. This keeps things consistent and easier to program to across platforms. - Add a Flatten() function to make it easier to deal with the Builders all returning lists of targets, not individual targets. - Performance optimizations in Node.FS.__doLookup(). - Man page fixes: formatting typos, misspellings, bad example. - User's Guide fixes: Fix the signatures of the various example *Options() calls. Triple-quote properly a multi-line Split example. - User's Guide additions: Chapter describing File and Directory Nodes. Section describing declarative nature of SCons functions in SConscript files. Better organization and clarification of points raised by Robert P. J. Day. Chapter describing SConf (Autoconf-like) functionality. Chapter describing how to install Python and SCons. Chapter describing Java builds. From Chris Murray: - Add a .win32 attribute to force file names to expand with Windows backslash path separators. - Fix escaping file names on command lines when the expansion is concatenated with another string. - Add support for Fortran 90 and Fortran 95. This adds $FORTRAN* variables that specify a default compiler, command-line, flags, etc. for all Fortran versions, plus separate $F90* and $F95* variables for when different compilers/flags/etc. must be specified for different Fortran versions. - Have individual tools that create libraries override the default $LIBPREFIX and $LIBSUFFIX values set by the platform. This makes it easier to use Microsoft Visual Studio tools on a CygWin platform. From Gary Oberbrunner: - Add a --debug=presub option to print actions prior to substitution. - Add a warning upon use of the override keywords "targets" and "sources" when calling Builders. These are usually mistakes which are otherwise silently (and confusingly) turned into construction variable overrides. - Try to find the ICL license file path name in the external environment and the registry before resorting to the hard-coded path name. - Add support for fetching command-line keyword=value arguments in order from an ARGLIST list. - Avoid stack traces when trying to read dangling symlinks. - Treat file "extensions" that only contain digits as part of the file basename. This supports version numbers as part of shared library names, for example. - Avoid problems when there are null entries (None or '') in tool lists or CPPPATH. - Add an example and explanation of how to use "tools = ['default', ..." when creating a construction environment. - Add a section describing File and Directory Nodes and some of their attributes and methods. - Have ParseConfig() add a returned -pthread flag to both $CCFLAGS and $LINKFLAGS. - Fix some test portability issues on Mac OS X (darwin). From Simon Perkins: - Fix a bug introduced in building shared libraries under MinGW. From Kevin Quick: - Handling SCons exceptions according to Pythonic standards. - Fix test/chained-build.py on systems that execute within one second. - Fix tests on systems where 'ar' warns about archive creation. From Anthony Roach: - Fix use of the --implicit-cache option with timestamp signatures. - If Visual Studio is installed, assume the C/C++ compiler, the linker and the MIDL compiler that comes with it are available, too. - Better error messages when evaluating a construction variable expansion yields a Python syntax error. - Change the generation of PDB files when using Visual Studio from compile time to link time. From sam th: - Allow SConf.CheckLib() to search a list of libraries, like the Autoconf AC_SEARCH_LIBS macro. - Allow the env.WhereIs() method to take a "reject" argument to let it weed out specific path names. From Christoph Wiedemann: - Add new Moc() and Uic() Builders for more explicit control over Qt builds, plus new construction variables to control them: $QT_AUTOSCAN, $QT_DEBUG, $QT_MOCCXXPREFIX, $QT_MOCCXXSUFFIX, $QT_MOCHPREFIX, $QT_MOCHSUFFIX, $QT_UICDECLPREFIX, $QT_UICDECLSUFFIX, $QT_UICIMPLPREFIX, $QT_UICIMPLSUFFIX and $QT_UISUFFIX. - Add a new single_source keyword argument for Builders that enforces a single source file on calls to the Builder. RELEASE 0.95 - Mon, 08 Mar 2004 06:43:20 -0600 From Chad Austin: - Replace print statements with calls to sys.stdout.write() so output lines stay together when -j is used. - Add portability fixes for a number of tests. - Accomodate the fact that Cygwin's os.path.normcase() lies about the underlying system being case-sensitive. - Fix an incorrect _concat() call in the $RCINCFLAGS definition for the mingw Tool. - Fix a problem with the msvc tool with Python versions prior to 2.3. - Add support for a "toolpath" Tool() and Environment keyword that allows Tool modules to be found in specified local directories. - Work around Cygwin Python's silly fiction that it's using a case-sensitive file system. - More robust handling of data in VCComponents.dat. - If the "env" command is available, spawn commands with the more general "env -" instead of "env -i". From Kerim Borchaev: - Fix a typo in a msvc.py's registry lookup: "VCComponents.dat", not "VSComponents.dat". From Chris Burghart: - Fix the ability to save/restore a PackageOption to a file. From Steve Christensen: - Update the MSVS .NET and MSVC 6.0/7.0 path detection. From David M. Cooke: - Make the Fortran scanner case-insensitive for the INCLUDE string. From Charles Crain: - If no version of MSVC is detected but the tool is specified, use the MSVC 6.0 paths by default. - Ignore any "6.1" version of MSVC found in the registry; this is a phony version number (created by later service packs?) and would throw off the logic if the user had any non-default paths configure. - Correctly detect if the user has independently configured the MSVC "include," "lib" or "path" in the registry and use the appropriate values. Previously, SCons would only use the values if all three were set in the registry. - Make sure side-effect nodes are prepare()d before building their corresponding target. - Preserve the ability to call BuildDir() multiple times with the same target and source directory arguments. From Andy Friesen: - Add support for the Digital Mars "D" programming language. From Scott Lystig Fritchie: - Fix the ability to use a custom _concat() function in the construction environment when calling _stripixes(). - Make the message about ignoring a missing SConscript file into a suppressable Warning, not a hard-coded sys.stderr.write(). - If a builder can be called multiple times for a target (because the sources and overrides are identical, or it's a builder with the "multi" flag set), allow the builder to be called through multiple environments so long as the builders have the same signature for the environments in questions (that is, they're the same action). From Bob Halley: - When multiple targets are built by a single action, retrieve all of them from cache, not just the first target, and exec the build command if any of the targets isn't present in the cache. From Zephaniah Hull: - Fix command-line ARGUMENTS with multiple = in them. From Steven Knight: - Fix EnsureSConsVersion() so it checks against the SCons version, not the Python version, on Pythons with sys.version_info. - Don't swallow the AttributeError when someone uses an expansion like $TARGET.bak, so we can supply a more informative error message. - Fix an odd double-quote escape sequence in the man page. - Fix looking up a naked drive letter as a directory (Dir('C:')). - Support using File nodes in the LIBS construction variable. - Allow the LIBS construction variable to be a single string or File node, not a list, when only one library is needed. - Fix typos in the man page: JAVACHDIR => JARCHDIR; add "for_signature" to the __call__() example in the "Variable Substitution" section. - Correct error message spellings of "non-existant" to "non-existent." - When scanning for libraries to link with, don't append $LIBPREFIXES or $LIBSUFFIXES values to the $LIBS values if they're already present. - Add a ZIPCOMPRESSION construction variable to control whether the internal Python action for the Zip Builder compresses the file or not. The default value is zipfile.ZIP_DEFLATED, which generates a compressed file. - Refactor construction variable expansion to support recursive expansion of variables (e.g. CCFLAGS = "$CCFLAGS -g") without going into an infinite loop. Support this in all construction variable overrides, as well as when copying Environments. - Fix calling Configure() from more than one subsidiary SConscript file. - Fix the env.Action() method so it returns the correct type of Action for its argument(s). - Fix specifying .class files as input to JavaH with the .class suffix when they weren't generated using the Java Builder. - Make the check for whether all of the objects going into a SharedLibrary() are shared work even if the object was built in a previous run. - Supply meaningful error messages, not stack traces, if we try to add a non-Node as a source, dependency, or ignored dependency of a Node. - Generate MSVS Project files that re-invoke SCons properly regardless of whether the file was built via scons.bat or scons.py. (Thanks to Niall Douglas for contributing code and testing.) - Fix TestCmd.py, runtest.py and specific tests to accomodate being run from directories whose paths include white space. - Provide a more useful error message if a construction variable expansion contains a syntax error during evaluation. - Fix transparent checkout of implicit dependency files from SCCS and RCS. - Added new --debug=count, --debug=memory and --debug=objects options. --debug=count and --debug=objects only print anything when run under Python 2.1 or later. - Deprecate the "overrides" keyword argument to Builder() creation in favor of using keyword argument values directly (like we do for builder execution and the like). - Always use the Builder overrides in substitutions, not just if there isn't a target-specific environment. - Add new "rsrcpath" and "rsrcdir" and attributes to $TARGET/$SOURCE, so Builder command lines can find things in Repository source directories when using BuildDir. - Fix the M4 Builder so that it chdirs to the Repository directory when the input file is in the source directory of a BuildDir. - Save memory at build time by allowing Nodes to delete their build environments after they've been built. - Add AppendUnique() and PrependUnique() Environment methods, which add values to construction variables like Append() and Prepend() do, but suppress any duplicate elements in the list. - Allow the 'qt' tool to still be used successfully from a copied Environment. The include and library directories previously ended up having the same string re-appended to the end, yielding an incorrect path name. - Supply a more descriptive error message when the source for a target can't be found. - Initialize all *FLAGS variables with objects do the right thing with appending flags as strings or lists. - Make things like ${TARGET.dir} work in *PATH construction variables. - Allow a $MSVS_USE_MFC_DIRS construction variable to control whether ATL and MFC directories are included in the default INCLUDE and LIB paths. - Document the dbm_module argument to the SConsignFile() function. From Vincent Risi: - Add support for the bcc32, ilink32 and tlib Borland tools. From Anthony Roach: - Supply an error message if the user tries to configure a BuildDir for a directory that already has one. - Remove documentation of the still-unimplemented -e option. - Add -H help text listing the legal --debug values. - Don't choke if a construction variable is a non-string value. - Build Type Libraries in the target directory, not the source directory. - Add an appendix to the User's Guide showing how to accomplish various common tasks in Python. From Greg Spencer: - Add support for Microsoft Visual Studio 2003 (version 7.1). - Evaluate $MSVSPROJECTSUFFIX and $MSVSSOLUTIONSUFFIX when the Builder is invoked, not when the tool is initialized. From Christoph Wiedemann: - When compiling Qt, make sure the moc_*.cc files are compiled using the flags from the environment used to specify the target, not the environment that first has the Qt Builders attached. RELEASE 0.94 - Fri, 07 Nov 2003 05:29:48 -0600 From Hartmut Goebel: - Add several new types of canned functions to help create options: BoolOption(), EnumOption(), ListOption(), PackageOption(), PathOption(). From Steven Knight: - Fix use of CPPDEFINES with C++ source files. - Fix env.Append() when the operand is an object with a __cmp__() method (like a Scanner instance). - Fix subclassing the Environment and Scanner classes. - Add BUILD_TARGETS, COMMAND_LINE_TARGETS and DEFAULT_TARGETS variables. From Steve Leblanc: - SGI fixes: Fix C++ compilation, add a separate Tool/sgic++.py module. From Gary Oberbrunner: - Fix how the man page un-indents after examples in some browsers. From Vincent Risi: - Fix the C and C++ tool specifications for AIX. RELEASE 0.93 - Thu, 23 Oct 2003 07:26:55 -0500 From J.T. Conklin: - On POSIX, execute commands with the more modern os.spawnvpe() function, if it's available. - Scan .S, .spp and .SPP files for C preprocessor dependencies. - Refactor the Job.Parallel() class to use a thread pool without a condition variable. This improves parallel build performance and handles keyboard interrupts properly when -j is used. From Charles Crain: - Add support for a JARCHDIR variable to control changing to a directory using the jar -C option. - Add support for detecting Java manifest files when using jar, and specifying them using the jar m flag. - Fix some Python 2.2 specific things in various tool modules. - Support directories as build sources, so that a rebuild of a target can be triggered if anything underneath the directory changes. - Have the scons.bat and scons.py files look for the SCons modules in site-packages as well. From Christian Engel: - Support more flexible inclusion of separate C and C++ compilers. - Use package management tools on AIX and Solaris to find where the comilers are installed, and what version they are. - Add support for CCVERSION and CXXVERSION variables for a number of C and C++ compilers. From Sergey Fogel: - Add test cases for the new capabilities to run bibtex and to rerun latex as needed. From Ralf W. Grosse-Kunstleve: - Accomodate anydbm modules that don't have a sync() method. - Allow SConsignFile() to take an argument specifying the DBM module to be used. From Stephen Kennedy: - Add support for a configurable global .sconsign.dbm file which can be used to avoid cluttering each directory with an individual .sconsign file. From John Johnson: - Fix (re-)scanning of dependencies in generated or installed header files. From Steven Knight: - The -Q option suppressed too many messages; fix it so that it only suppresses the Reading/Building messages. - Support #include when there's no space before the opening quote or angle bracket. - Accomodate alphanumeric version strings in EnsurePythonVersion(). - Support arbitrary expansion of construction variables within file and directory arguments to Builder calls and Environment methods. - Add Environment-method versions of the following global functions: Action(), AddPostAction(), AddPreAction(), Alias(), Builder(), BuildDir(), CacheDir(), Clean(), Configure(), Default(), EnsurePythonVersion(), EnsureSConsVersion(), Environment(), Exit(), Export(), FindFile(), GetBuildPath(), GetOption(), Help(), Import(), Literal(), Local(), Platform(), Repository(), Scanner(), SConscriptChdir(), SConsignFile(), SetOption(), SourceSignatures(), Split(), TargetSignatures(), Tool(), Value(). - Add the following global functions that correspond to the same-named Environment methods: AlwaysBuild(), Command(), Depends(), Ignore(), Install(), InstallAs(), Precious(), SideEffect() and SourceCode(). - Add the following global functions that correspond to the default Builder methods supported by SCons: CFile(), CXXFile(), DVI(), Jar(), Java(), JavaH(), Library(), M4(), MSVSProject(), Object(), PCH(), PDF(), PostScript(), Program(), RES(), RMIC(), SharedLibrary(), SharedObject(), StaticLibrary(), StaticObject(), Tar(), TypeLibrary() and Zip(). - Rearrange the man page to show construction environment methods and global functions in the same list, and to explain the difference. - Alphabetize the explanations of the builder methods in the man page. - Rename the Environment.Environment class to Enviroment.Base. Allow the wrapping interface to extend an Environment by using its own subclass of Environment.Base and setting a new Environment.Environment variable as the calling entry point. - Deprecate the ParseConfig() global function in favor of a same-named construction environment method. - Allow the Environment.WhereIs() method to take explicit path and pathext arguments (like the underlying SCons.Util.WhereIs() function). - Remove the long-obsolete {Get,Set}CommandHandler() functions. - Enhance env.Append() to suppress null values when appropriate. - Fix ParseConfig() so it works regardless of initial construction variable values. Extend CheckHeader(), CheckCHeader(), CheckCXXHeader() and CheckLibWithHeader() to accept a list of header files that will be #included in the test. The last one in the list is assumed to be the one being checked for. (Prototype code contributed by Gerard Patel and Niall Douglas). - Supply a warning when -j is used and threading isn't built in to the current version of Python. - First release of the User's Guide (finally, and despite a lot of things still missing from it...). From Clark McGrew: - Generalize the action for .tex files so that it will decide whether a file is TeX or LaTeX, check the .aux output to decide if it should run bibtex, and check the .log output to re-run LaTeX if needed. From Bram Moolenaar: - Split the non-SCons-specific functionality from SConf.py to a new, re-usable Conftest.py module. From Gary Oberbrunner: - Allow a directory to be the target or source or dependency of a Depends(), Ignore(), Precious() or SideEffect() call. From Gerard Patel: - Use the %{_mandir} macro when building our RPM package. From Marko Rauhamaa: - Have the closing message say "...terminated because of errors" if there were any. From Anthony Roach: - On Win32 systems, only use "rm" to delete files if Cygwin is being used. ("rm" doesn't understand Win32-format path names.) From Christoph Wiedemann: - Fix test/SWIG.py to find the Python include directory in all cases. - Fix a bug in detection of Qt installed on the local system. - Support returning Python 2.3 BooleanType values from Configure checks. - Provide an error message if someone mistakenly tries to call a Configure check from within a Builder function. - Support calling a Builder when a Configure context is still open. - Handle interrupts better by eliminating all try:-except: blocks which caught any and all exceptions, including KeyboardInterrupt. - Add a --duplicate= option to control how files are duplicated. RELEASE 0.92 - Wed, 20 Aug 2003 03:45:28 -0500 From Charles Crain and Gary Oberbrunner: - Fix Tool import problems with the Intel and PharLap linkers. From Steven Knight - Refactor the DictCmdGenerator class to be a Selector subclass. - Allow the DefaultEnvironment() function to take arguments and pass them to instantiation of the default construction environment. - Update the Debian package so it uses Python 2.2 and more closely resembles the currently official Debian packaging info. From Gerard Patel - When the yacc -d flag is used, take the .h file base name from the target .c file, not the source (matching what yacc does). RELEASE 0.91 - Thu, 14 Aug 2003 13:00:44 -0500 From Chad Austin: - Support specifying a list of tools when calling Environment.Copy(). - Give a Value Nodes a timestamp of the system time when they're created, so they'll work when using timestamp-based signatures. - Add a DefaultEnvironment() function that only creates a default environment on-demand (for fetching source files, e.g.). - Portability fix for test/M4.py. From Steven Knight: - Tighten up the scons -H help output. - When the input yacc file ends in .yy and the -d flag is specified, recognize that a .hpp file (not a .h file) will be created. - Make builder prefixes work correctly when deducing a target from a source file name in another directory. - Documentation fixes: typo in the man page; explain up-front about not propagating the external environment. - Use "cvs co -d" instead of "cvs co -p >" when checking out something from CVS with a specified module name. This avoids zero-length files when there is a checkout error. - Add an "sconsign" script to print the contents of .sconsign files. - Speed up maintaining the various lists of Node children by using dictionaries to avoid "x in list" searches. - Cache the computed list of Node children minus those being Ignored so it's only calculated once. - Fix use of the --cache-show option when building a Program() (or using any other arbitrary action) by making sure all Action instances have strfunction() methods. - Allow the source of Command() to be a directory. - Better error handling of things like raw TypeErrors in SConscripts. - When installing using "setup.py install --prefix=", suppress the distutils warning message about adding the (incorrect) library directory to your search path. - Correct the spelling of the "validater" option to "validator." Add a DeprecatedWarning when the old spelling is used. - Allow a Builder's emitter to be a dictionary that maps source file suffixes to emitter functions, using the suffix of the first file in the source list to pick the right one. - Refactor the creation of the Program, *Object and *Library Builders so that they're moved out of SCons.Defaults and created on demand. - Don't split SConscript file names on white space. - Document the SConscript function's "dirs" and "name" keywords. - Remove the internal (and superfluous) SCons.Util.argmunge() function. - Add /TP to the default CXXFLAGS for msvc, so it can compile all of the suffixes we use as C++ files. - Allow the "prefix" and "suffix" attributes of a Builder to be callable objects that return generated strings, or dictionaries that map a source file suffix to the right prefix/suffix. - Support a MAXLINELINELENGTH construction variable on Win32 systems to control when a temporary file is used for long command lines. - Make how we build .rpm packages not depend on the installation locations from the distutils being used. - When deducing a target Node, create it directly from the first source Node, not by trying to create the right string to pass to arg2nodes(). - Add support for SWIG. From Bram Moolenaar: - Test portability fixes for FreeBSD. From Gary Oberbrunner: - Report the target being built in error messages when building multiple sources from different extensions, or when the target file extension can't be deduced, or when we don't have an action for a file suffix. - Provide helpful error messages when the arguments to env.Install() are incorrect. - Fix the value returned by the Node.prevsiginfo() method to conform to a previous change when checking whether a node is current. - Supply a stack trace if the Taskmaster catches an exception. - When using a temporary file for a long link line on Win32 systems, (also) print the command line that is being executed through the temporary file. - Initialize the LIB environment variable when using the Intel compiler (icl). - Documentation fixes: better explain the AlwaysBuild() function. From Laurent Pelecq: - When the -debug=pdb option is specified, use pdb.Pdb().runcall() to call pdb directly, don't call Python recursively. From Ben Scott: - Add support for a platform-independent CPPDEFINES variable. From Christoph Wiedemann: - Have the g++ Tool actually use g++ in preference to c++. - Have the gcc Tool actually use gcc in preference to cc. - Add a gnutools.py test of the GNU tool chain. - Be smarter about linking: use $CC by default and $CXX only if we're linking with any C++ objects. - Avoid SCons hanging when a piped command has a lot of output to read. - Add QT support for preprocessing .ui files into .c files. RELEASE 0.90 - Wed, 25 Jun 2003 14:24:52 -0500 From Chad Austin: - Fix the _concat() documentation, and add a test for it. - Portability fixes for non-GNU versions of lex and yacc. From Matt Balvin: - Fix handling of library prefixes when the subdirectory matches the prefix. From Timothee Bessett: - Add an M4 Builder. From Charles Crain: - Use '.lnk' as the suffix on the temporary file for linking long command lines (necessary for the Phar Lap linkloc linker). - Save non-string Options values as their actual type. - Save Options string values that contain a single quote correctly. - Save any Options values that are changed from the default Environment values, not just ones changed on the command line or in an Options file. - Make closing the Options file descriptor exception-safe. From Steven Knight: - SCons now enforces (with an error) that construction variables must have the same form as valid Python identifiers. - Fix man page bugs: remove duplicate AddPostAction() description; document no_import_lib; mention that CPPFLAGS does not contain $_CPPINCFLAGS; mention that F77FLAGS does not contain $_F77INCFLAGS; mention that LINKFLAGS and SHLINKFLAGS contains neither $_LIBFLAGS nor $_LIBDIRFLAGS. - Eliminate a dependency on the distutils.fancy_getopt module by copying and pasting its wrap_text() function directly. - Make the Script.Options() subclass match the underlying base class implementation. - When reporting a target is up to date, quote the target like make (backquote-quote) instead of with double quotes. - Fix handling of ../* targets when using -U, -D or -u. From Steve Leblanc: - Don't update the .sconsign files when run with -n. From Gary Oberbrunner: - Add support for the Intel C Compiler (icl.exe). From Anthony Roach - Fix Import('*'). From David Snopek - Fix use of SConf in paths with white space in them. - Add CheckFunc and CheckType functionality to SConf. - Fix use of SConf with Builders that return a list of nodes. From David Snopek and Christoph Wiedemann - Fix use of the SConf subsystem with SConscriptChdir(). From Greg Spencer - Check for the existence of MS Visual Studio on disk before using it, to avoid getting fooled by leftover junk in the registry. - Add support for MSVC++ .NET. - Add support for MS Visual Studio project files (DSP, DSW, SLN and VCPROJ files). From Christoph Wiedemann - SConf now works correctly when the -n and -q options are used. RELEASE 0.14 - Wed, 21 May 2003 05:16:32 -0500 From Chad Austin: - Use .dll (not .so) for shared libraries on Cygwin; use -fPIC when compiling them. - Use 'rm' to remove files under Cygwin. - Add a PLATFORM variable to construction environments. - Remove the "platform" argument from tool specifications. - Propogate PYTHONPATH when running the regression tests so distutils can be found in non-standard locations. - Using MSVC long command-line linking when running Cygwin. - Portability fixes for a lot of tests. - Add a Value Node class for dependencies on in-core Python values. From Allen Bierbaum: - Pass an Environment to the Options validator method, and add an Options.Save() method. From Steve Christensen: - Add an optional sort function argument to the GenerateHelpText() Options function. - Evaluate the "varlist" variables when computing the signature of a function action. From Charles Crain: - Parse the source .java files for class names (including inner class names) to figure out the target .class files that will be created. - Make Java support work with Repositories and SConscriptChdir(0). - Pass Nodes, not strings, to Builder emitter functions. - Refactor command-line interpolation and signature calculation so we can use real Node attributes. From Steven Knight: - Add Java support (javac, javah, jar and rmic). - Propagate the external SYSTEMROOT environment variable into ENV on Win32 systems, so external commands that use sockets will work. - Add a .posix attribute to PathList expansions. - Check out CVS source files using POSIX path names (forward slashes as separators) even on Win32. - Add Node.clear() and Node.FS.Entry.clear() methods to wipe out a Node's state, allowing it to be re-evaluated by continuous integration build interfaces. - Change the name of the Set{Build,Content}SignatureType() functions to {Target,Source}Signatures(). Deprecate the old names but support them for backwards compatibility. - Add internal SCons.Node.FS.{Dir,File}.Entry() methods. - Interpolate the null string if an out-of-range subscript is used for a construction variable. - Fix the internal Link function so that it properly links or copies files in subsidiary BuildDir directories. - Refactor the internal representation of a single execution instance of an action to eliminate redundant signature calculations. - Eliminate redundant signature calculations for Nodes. - Optimize out calling hasattr() before accessing attributes. - Say "Cleaning targets" (not "Building...") when the -c option is used. From Damyan Pepper: - Quote the "Entering directory" message like Make. From Stefan Reichor: - Add support for using Ghostscript to convert Postscript to PDF files. From Anthony Roach: - Add a standalone "Alias" function (separate from an Environment). - Make Export() work for local variables. - Support passing a dictionary to Export(). - Support Import('*') to import everything that's been Export()ed. - Fix an undefined exitvalmap on Win32 systems. - Support new SetOption() and GetOption() functions for setting various command-line options from with an SConscript file. - Deprecate the old SetJobs() and GetJobs() functions in favor of using the new generic {Set,Get}Option() functions. - Fix a number of tests that searched for a Fortran compiler using the external PATH instead of what SCons would use. - Fix the interaction of SideEffect() and BuildDir() so that (for example) PDB files get put correctly in a BuildDir(). From David Snopek: - Contribute the "Autoscons" code for Autoconf-like checking for the existence of libraries, header files and the like. - Have the Tool() function add the tool name to the $TOOLS construction variable. From Greg Spencer: - Support the C preprocessor #import statement. - Allow the SharedLibrary() Builder on Win32 systems to be able to register a newly-built dll using regsvr32. - Add a Builder for Windows type library (.tlb) files from IDL files. - Add an IDL scanner. - Refactor the Fortran, C and IDL scanners to share common logic. - Add .srcpath and .srcdir attributes to $TARGET and $SOURCE. From Christoph Wiedemann: - Integrate David Snopek's "Autoscons" code as the new SConf configuration subsystem, including caching of values between runs (using normal SCons dependency mechanisms), tests, and documentation. RELEASE 0.13 - Mon, 31 Mar 2003 20:22:00 -0600 From Charles Crain: - Fix a bug when BuildDir(duplicate=0) is used and SConscript files are called from within other SConscript files. - Support (older) versions of Perforce which don't set the Windows registry. RELEASE 0.12 - Thu, 27 Mar 2003 23:52:09 -0600 From Charles Crain: - Added support for the Perforce source code management system. - Fix str(Node.FS) so that it returns a path relative to the calling SConscript file's directory, not the top-level directory. - Added support for a separate src_dir argument to SConscript() that allows explicit specification of where the source files for an SConscript file can be found. - Support more easily re-usable flavors of command generators by calling callable variables when strings are expanded. From Steven Knight: - Added an INSTALL construction variable that can be set to a function to control how the Install() and InstallAs() Builders install files. The default INSTALL function now copies, not links, files. - Remove deprecated features: the "name" argument to Builder objects, and the Environment.Update() method. - Add an Environment.SourceCode() method to support fetching files from source code systems. Add factory methods that create Builders to support BitKeeper, CVS, RCS, and SCCS. Add support for fetching files from RCS or SCCS transparently (like GNU Make). - Make the internal to_String() function more efficient. - Make the error message the same as other build errors when there's a problem unlinking a target file in preparation for it being built. - Make TARGET, TARGETS, SOURCE and SOURCES reserved variable names and warn if the user tries to set them in a construction environment. - Add support for Tar and Zip files. - Better documentation of the different ways to export variables to a subsidiary SConscript file. Fix documentation bugs in a tools example, places that still assumed SCons split strings on white space, and typos. - Support fetching arbitrary files from the TARGETS or SOURCES lists (e.g. ${SOURCES[2]}) when calculating the build signature of a command. - Don't silently swallow exceptions thrown by Scanners (or other exceptions while finding a node's dependent children). - Push files to CacheDir() before calling the superclass built() method (which may clear the build signature as part of clearing cached implicit dependencies, if the file has a source scanner). (Bug reported by Jeff Petkau.) - Raise an internal error if we attempt to push a file to CacheDir() with a build signature of None. - Add an explicit Exit() function for terminating early. - Change the documentation to correctly describe that the -f option doesn't change to the directory in which the specified file lives. - Support changing directories locally with SConscript directory path names relative to any SConstruct file specified with -f. This allows you to build in another directory by simply changing there and pointing at the SConstruct file in another directory. - Change the default SConscriptChdir() behavior to change to the SConscript directory while it's being read. - Fix an exception thrown when the -U option was used with no Default() target specified. - Fix -u so that it builds things in corresponding build directories when used in a source directory. From Lachlan O'Dea: - Add SharedObject() support to the masm tool. - Fix WhereIs() to return normalized paths. From Jeff Petkau: - Don't copy a built file to a CacheDir() if it's already there. - Avoid partial copies of built files in a CacheDir() by copying to a temporary file and renaming. From Anthony Roach: - Fix incorrect dependency-cycle errors when an Aliased source doesn't exist. RELEASE 0.11 - Tue, 11 Feb 2003 05:24:33 -0600 From Chad Austin: - Add support for IRIX and the SGI MIPSPro tool chain. - Support using the MSVC tool chain when running Cygwin Python. From Michael Cook: - Avoid losing signal bits in the exit status from a command, helping terminate builds on interrupt (CTRL+C). From Charles Crain: - Added new AddPreAction() and AddPostAction() functions that support taking additional actions before or after building specific targets. - Add support for the PharLap ETS tool chain. From Steven Knight: - Allow Python function Actions to specify a list of construction variables that should be included in the Action's signature. - Allow libraries in the LIBS variable to explicitly include the prefix and suffix, even when using the GNU linker. (Bug reported by Neal Becker.) - Use DOS-standard CR-LF line endings in the scons.bat file. (Bug reported by Gary Ruben.) - Doc changes: Eliminate description of deprecated "name" keyword argument from Builder definition (reported by Gary Ruben). - Support using env.Append() on BUILDERS (and other dictionaries). (Bug reported by Bj=F6rn Bylander.) - Setting the BUILDERS construction variable now properly clears the previous Builder attributes from the construction Environment. (Bug reported by Bj=F6rn Bylander.) - Fix adding a prefix to a file when the target isn't specified. (Bug reported by Esa Ilari Vuokko.) - Clean up error messages from problems duplicating into read-only BuildDir directories or into read-only files. - Add a CommandAction.strfunction() method, and add an "env" argument to the FunctionAction.strfunction() method, so that all Action objects have strfunction() methods, and the functions for building and returning a string both take the same arguments. - Add support for new CacheDir() functionality to share derived files between builds, with related options --cache-disable, --cache-force, and --cache-show. - Change the default behavior when no targets are specified to build everything in the current directory and below (like Make). This can be disabled by specifying Default(None) in an SConscript. - Revamp SCons installation to fix a case-sensitive installation on Win32 systems, and to add SCons-specific --standard-lib, --standalone-lib, and --version-lib options for easier user control of where the libraries get installed. - Fix the ability to directly import and use Platform and Tool modules that have been implicitly imported into an Environment(). - Add support for allowing an embedding interface to annotate a node when it's created. - Extend the SConscript() function to accept build_dir and duplicate keyword arguments that function like a BuildDir() call. From Steve Leblanc: - Fix the output of -c -n when directories are involved, so it matches -c. From Anthony Roach: - Use a different shared object suffix (.os) when using gcc so shared and static objects can exist side-by-side in the same directory. - Allow the same object files on Win32 to be linked into either shared or static libraries. - Cache implicit cache values when using --implicit-cache. RELEASE 0.10 - Thu, 16 Jan 2003 04:11:46 -0600 From Derrick 'dman' Hudson: - Support Repositories on other file systems by symlinking or copying files when hard linking won't work. From Steven Knight: - Remove Python bytecode (*.pyc) files from the scons-local packages. - Have FunctionActions print a description of what they're doing (a representation of the Python call). - Fix the Install() method so that, like other actions, it prints what would have happened when the -n option is used. - Don't create duplicate source files in a BuildDir when the -n option is used. - Refactor the Scanner interface to eliminate unnecessary Scanner calls and make it easier to write efficient scanners. - Added a "recursive" flag to Scanner creation that specifies the Scanner should be invoked recursively on dependency files returned by the scanner. - Significant performance improvement from using a more efficient check, throughout the code, for whether a Node has a Builder. - Fix specifying only the source file to MultiStepBuilders such as the Program Builder. (Bug reported by Dean Bair.) - Fix an exception when building from a file with the same basename as the subdirectory in which it lives. (Bug reported by Gerard Patel.) - Fix automatic deduction of a target file name when there are multiple source files specified; the target is now deduced from just the first source file in the list. - Documentation fixes: better initial explanation of SConscript files; fix a misformatted "table" in the StaticObject explanation. From Steven Knight and Steve Leblanc: - Fix the -c option so it will remove symlinks. From Steve Leblanc: - Add a Clean() method to support removing user-specified targets when using the -c option. - Add a development script for running SCons through PyChecker. - Clean up things found by PyChecker (mostly unnecessary imports). - Add a script to use HappyDoc to create HTML class documentation. From Lachlan O'Dea: - Make the Environment.get() method return None by default. From Anthony Roach: - Add SetJobs() and GetJobs() methods to allow configuration of the number of default jobs (still overridden by -j). - Convert the .sconsign file format from ASCII to a pickled Python data structure. - Error message cleanups: Made consistent the format of error messages (now all start with "scons: ***") and warning messages (now all start with "scons: warning:"). Caught more cases with the "Do not know how to build" error message. - Added support for the MinGW tool chain. - Added a --debug=includes option. RELEASE 0.09 - Thu, 5 Dec 2002 04:48:25 -0600 From Chad Austin: - Add a Prepend() method to Environments, to append values to the beginning of construction variables. From Matt Balvin: - Add long command-line support to the "lib" Tool (Microsoft library archiver), too. From Charles Crain: - Allow $$ in a string to be passed through as $. - Support file names with odd characters in them. - Add support for construction variable substition on scanner directories (in CPPPATH, F77PATH, LIBPATH, etc.). From Charles Crain and Steven Knight: - Add Repository() functionality, including the -Y option. From Steven Knight: - Fix auto-deduction of target names so that deduced targets end up in the same subdirectory as the source. - Don't remove source files specified on the command line! - Suport the Intel Fortran Compiler (ifl.exe). - Supply an error message if there are no command-line or Default() targets specified. - Fix the ASPPCOM values for the GNU assembler. (Bug reported by Brett Polivka.) - Fix an exception thrown when a Default() directory was specified when using the -U option. - Issue a warning when -c can't remove a target. - Eliminate unnecessary Scanner calls by checking for the existence of a file before scanning it. (This adds a generic hook to check an arbitrary condition before scanning.) - Add explicit messages to tell when we're "Reading SConscript files ...," "done reading SConscript files," "Building targets," and "done building targets." Add a -Q option to supress these. - Add separate $SHOBJPREFIX and $SHOBJSUFFIX construction variables (by default, the same as $OBJPREFIX and $OBJSUFFIX). - Add Make-like error messages when asked to build a source file, and before trying to build a file that doesn't have all its source files (including when an invalid drive letter is used on WIN32). - Add an scons-local-{version} package (in both .tar.gz and .zip flavors) to help people who want to ship SCons as a stand-alone build tool in their software packages. - Prevent SCons from unlinking files in certain situations when the -n option is used. - Change the name of Tool/lib.py to Tool/mslib.py. From Steven Knight and Anthony Roach: - Man page: document the fact that Builder calls return Node objects. From Steve LeBlanc: - Refactor option processing to use our own version of Greg Ward's Optik module, modified to run under Python 1.5.2. - Add a ParseConfig() command to modify an environment based on parsing output from a *-config command. From Jeff Petkau: - Fix interpretation of '#/../foo' on Win32 systems. From Anthony Roach: - Fixed use of command lines with spaces in their arguments, and use of Nodes with spaces in their string representation. - Make access and modification times of files in a BuildDir match the source file, even when hard linking isn't available. - Make -U be case insensitive on Win32 systems. - Issue a warning and continue when finding a corrupt .sconsign file. - Fix using an alias as a dependency of a target so that if one of the alias' dependencies gets rebuilt, the resulting target will, too. - Fix differently ordered targets causing unnecessary rebuilds on case insensitive systems. - Use os.system() to execute external commands whenever the "env" utility is available, which is much faster than fork()/exec(), and fixes the -j option on several platforms. - Fix use of -j with multiple targets. - Add an Options() object for friendlier accomodation of command- line arguments. - Add support for Microsoft VC++ precompiled header (.pch) files, debugger (.pdb) files, and resource (.rc) files. - Don't compute the $_CPPINCFLAGS, $_F77INCFLAGS, $_LIBFLAGS and $_LIBDIRFLAGS variables each time a command is executed, define them so they're computed only as needed. Add a new _concat function to the Environment that allows people to define their own similar variables. - Fix dependency scans when $LIBS is overridden. - Add EnsurePythonVersion() and EnsureSConsVersion() functions. - Fix the overly-verbose stack trace on ListBuilder build errors. - Add a SetContentSignatureType() function, allowing use of file timestamps instead of MD5 signatures. - Make -U and Default('source') fail gracefully. - Allow the File() and Dir() methods to take a path-name string as the starting directory, in addition to a Dir object. - Allow the command handler to be selected via the SPAWN, SHELL and ESCAPE construction variables. - Allow construction variables to be overridden when a Builder is called. From sam th: - Dynamically check for the existence of utilities with which to initialize Environments by default. RELEASE 0.08 - Mon, 15 Jul 2002 12:08:51 -0500 From Charles Crain: - Fixed a bug with relative CPPPATH dirs when using BuildDir(). (Bug reported by Bob Summerwill.) - Added a warnings framework and a --warn option to enable or disable warnings. - Make the C scanner warn users if files referenced by #include directives cannot be found and --warn=dependency is specified. - The BUILDERS construction variable should now be a dictionary that maps builder names to actions. Existing uses of lists, and the Builder name= keyword argument, generate warnings about use of deprecated features. - Removed the "shared" keyword argument from the Object and Library builders. - Added separated StaticObject, SharedObject, StaticLibrary and SharedLibrary builders. Made Object and Library synonyms for StaticObject and StaticLibrary, respectively. - Add LIBS and LIBPATH dependencies for shared libraries. - Removed support for the prefix, suffix and src_suffix arguments to Builder() to be callable functions. - Fix handling file names with multiple dots. - Allow a build directory to be outside of the SConstruct tree. - Add a FindFile() function that searches for a file node with a specified name. - Add $CPPFLAGS to the shared-object command lines for g++ and gcc. From Charles Crain and Steven Knight: - Add a "tools=" keyword argument to Environment instantiation, and a separate Tools() method, for more flexible specification of tool-specific environment changes. From Steven Knight: - Add a "platform=" keyword argument to Environment instantiation, and a separate Platform() method, for more flexible specification of platform-specific environment changes. - Updated README instructions and setup.py code to catch an installation failure from not having distutils installed. - Add descriptions to the -H help text for -D, -u and -U so people can tell them apart. - Remove the old feature of automatically splitting strings of file names on white space. - Add a dependency Scanner for native Fortran "include" statements, using a new "F77PATH" construction variable. - Fix C #include scanning to detect file names with characters like '-' in them. - Add more specific version / build output to the -v option. - Add support for the GNU as, Microsoft masm, and nasm assemblers. - Allow the "target" argument to a Builder call to be omitted, in which case the target(s) are deduced from the source file(s) and the Builder's specified suffix. - Add a tar archive builder. - Add preliminary support for the OS/2 Platform, including the icc and ilink Tools. From Jeff Petkau: - Fix --implicit-cache if the scanner returns an empty list. From Anthony Roach: - Add a "multi" keyword argument to Builder creation that specifies it's okay to call the builder multiple times for a target. - Set a "multi" on Aliases so multiple calls will append to an Alias. - Fix emitter functions' use of path names when using BuildDir or in subdirectories. - Fix --implicit-cache causing redundant rebuilds when the header file list changed. - Fix --implicit-cache when a file has no implicit dependencies and its source is generated. - Make the drive letters on Windows always be the same case, so that changes in the case of drive letters don't cause a rebuild. - Fall back to importing the SCons.TimeStamp module if the SCons.MD5 module can't be imported. - Fix interrupt handling to guarantee that a single interrupt will halt SCons both when using -j and not. - Fix .sconsign signature storage so that output files of one build can be safely used as input files to another build. - Added a --debug=time option to print SCons execution times. - Print an error message if a file can't be unlinked before being built, rather than just silently terminating the build. - Add a SideEffect() method that can be used to tell the build engine that a given file is created as a side effect of building a target. A file can be specified as a side effect of more than one build comand, in which case the commands will not be executed simultaneously. - Significant performance gains from not using our own version of the inefficient stock os.path.splitext() method, caching source suffix computation, code cleanup in MultiStepBuilder.__call__(), and replicating some logic in scons_subst(). - Add --implicit-deps-changed and --implicit-deps-unchanged options. - Add a GetLaunchDir() function. - Add a SetBuildSignatureType() function. From Zed Shaw: - Add an Append() method to Environments, to append values to construction variables. - Change the name of Update() to Replace(). Keep Update() as a deprecated synonym, at least for now. From Terrel Shumway: - Use a $PYTHON construction variable, initialized to sys.executable, when using Python to build parts of the SCons packages. - Use sys.prefix, not sys.exec_prefix, to find pdb.py. RELEASE 0.07 - Thu, 2 May 2002 13:37:16 -0500 From Chad Austin: - Changes to build SCons packages on IRIX (and other *NIces). - Don't create a directory Node when a file already exists there, and vice versa. - Add 'dirs' and 'names' keyword arguments to SConscript for easier specification of subsidiary SConscript files. From Charles Crain: - Internal cleanup of environment passing to function Actions. - Builders can now take arbitrary keyword arguments to create attributes to be passed to: command generator functions, FunctionAction functions, Builder emitter functions (below), and prefix/suffix generator functions (below). - Command generator functions can now return ANYTHING that can be converted into an Action (a function, a string, a CommandGenerator instance, even an ActionBase instance). - Actions now call get_contents() with the actual target and source nodes used for the build. - A new DictCmdGenerator class replaces CompositeBuilder to support more flexible Builder behavior internally. - Builders can now take an emitter= keyword argument. An emitter is a function that takes target, source, and env argument, then return a 2-tuple of (new sources, new targets). The emitter is called when the Builder is __call__'ed, allowing a user to modify source and target lists. - The prefix, suffix and src_suffix Builder arguments now take a callable as well a string. The callable is passed the Environment and any extra Builder keyword arguments and is expected to return the appropriate prefix or suffix. - CommandActions can now be a string, a list of command + argument strings, or a list of commands (strings or lists). - Added shared library support. The Object and Library Builders now take a "shared=1" keyword argument to specify that a shared object or shared library should be built. It is an error to try to build static objects into a shared library or vice versa. - Win32 support for .def files has been added. Added the Win32-specific construction variables $WIN32DEFPREFIX, $WIN32DEFSUFFIX, $WIN32DLLPREFIX and $WIN32IMPLIBPREFIX. When building a .dll, the new construction variable $WIN32_INSERT_DEF, controls whether the appropriately-named .def file is inserted into the target list (if not already present). A .lib file is always added to a Library build if not present in the list of targets. - ListBuilder now passes all targets to the action, not just the first. - Fix so that -c now deletes generated yacc .h files. - Builder actions and emitter functions can now be initialized, through construction variables, to things other than strings. - Make top-relative '#/dir' lookups work like '#dir'. - Fix for relative CPPPATH directories in subsidiary SConscript files (broken in 0.06). - Add a for_signature argument to command generators, so that generators that need to can return distinct values for the command signature and for executing the command. From Alex Jacques: - Create a better scons.bat file from a py2bat.py script on the Python mailing list two years ago (modeled after pl2bat.pl). From Steven Knight: - Fix so that -c -n does *not* remove the targets! - Man page: Add a hierarchical libraries + Program example. - Support long MSVC linker command lines through a builder action that writes to a temporary file and uses the magic MSVC "link @file" argument syntax if the line is longer than 2K characters. - Fix F77 command-line options on Win32 (use /Fo instead of -o). - Use the same action to build from .c (lower case) and .C (upper case) files on case-insensitive systems like Win32. - Support building a PDF file directly from a TeX or LaTeX file using pdftex or pdflatex. - Add a -x option to runtest.py to specify the script being tested. A -X option indicates it's an executable, not a script to feed to the Python interpreter. - Add a Split() function (identical to SCons.Util.argmunge()) for use in the next release, when Builders will no longer automatically split strings on white space. From Steve Leblanc: - Add the SConscriptChdir() method. From Anthony Roach: - Fix --debug=tree when used with directory targets. - Significant internal restructuring of Scanners and Taskmaster. - Added new --debug=dtree option. - Fixes for --profile option. - Performance improvement in construction variable substitution. - Implemented caching of content signatures, plus added --max-drift option to control caching. - Implemented caching of dependency signatures, enabled by new --implicit-cache option. - Added abspath construction variable modifier. - Added $SOURCE variable as a synonym for $SOURCES[0]. - Write out .sconsign files on error or interrupt so intermediate build results are saved. - Change the -U option to -D. Make a new -U that builds just the targets from the local SConscript file. - Fixed use of sys.path so Python modules can be imported from the SConscript directory. - Fix for using Aliases with the -u, -U and -D options. - Fix so that Nodes can be passed to SConscript files. From Moshe Zadka: - Changes for official Debian packaging. RELEASE 0.06 - Thu, 28 Mar 2002 01:24:29 -0600 From Charles Crain: - Fix command generators to expand construction variables. - Make FunctionAction arguments be Nodes, not strings. From Stephen Kennedy: - Performance: Use a dictionary, not a list, for a Node's parents. From Steven Knight: - Add .zip files to the packages we build. - Man page: document LIBS, fix a typo, document ARGUMENTS. - Added RANLIB and RANLIBFLAGS construction variables. Only use them in ARCOM if there's a "ranlib" program on the system. - Add a configurable CFILESUFFIX for the Builder of .l and .y files into C files. - Add a CXXFile Builder that turns .ll and .yy files into .cc files (configurable via a CXXFILESUFFIX construction variable). - Use the POSIX-standard lex -t flag, not the GNU-specific -o flag. (Bug reported by Russell Christensen.) - Fixed an exception when CPPPATH or LIBPATH is a null string. (Bug reported by Richard Kiss.) - Add a --profile=FILE option to make profiling SCons easier. - Modify the new DVI builder to create .dvi files from LaTeX (.ltx and .latex) files. - Add support for Aliases (phony targets). - Add a WhereIs() method for searching for path names to executables. - Add PDF and PostScript document builders. - Add support for compiling Fortran programs from a variety of suffixes (a la GNU Make): .f, .F, .for, .FOR, .fpp and .FPP - Support a CPPFLAGS variable on all default commands that use the C preprocessor. From Steve Leblanc: - Add support for the -U option. - Allow CPPPATH, LIBPATH and LIBS to be specified as white-space separated strings. - Add a document builder to create .dvi files from TeX (.tex) files. From Anthony Roach: - Fix: Construction variables with values of 0 were incorrectly interpolated as ''. - Support env['VAR'] to fetch construction variable values. - Man page: document Precious(). RELEASE 0.05 - Thu, 21 Feb 2002 16:50:03 -0600 From Chad Austin: - Set PROGSUFFIX to .exe under Cygwin. From Charles Crain: - Allow a library to specified as a command-line source file, not just in the LIBS construction variable. - Compensate for a bug in os.path.normpath() that returns '' for './' on WIN32. - More performance optimizations: cache #include lines from files, eliminate unnecessary calls. - If a prefix or suffix contains white space, treat the resulting concatenation as separate arguments. - Fix irregularities in the way we fetch DevStudio information from the Windows registry, and in our registry error handling. From Steven Knight: - Flush stdout after print so it intermixes correctly with stderr when redirected. - Allow Scanners to return a list of strings, and document how to write your own Scanners. - Look up implicit (scanned) dependencies relative to the directory of file being scanned. - Make writing .sconsign files more robust by first trying to write to a temp file that gets renamed. - Create all of the directories for a list of targets before trying to build any of the targets. - WIN32 portability fixes in tests. - Allow the list of variables exported to an SConscript file to be a UserList, too. - Document the overlooked LIBPATH construction variable. (Bug reported by Eicke Godehardt.) - Fix so that Ignore() ignores indirect, implicit dependencies (included files), not just direct dependencies. - Put the man page in the Debian distribution. - Run HTML docs through tidy to clean up the HTML (for Konqueror). - Add preliminary support for Unicode strings. - Efficiency: don't scan dependencies more than once during the walk of a tree. - Fix the -c option so it doesn't stop removing targets if one doesn't already exist. (Bug reported by Paul Connell.) - Fix the --debug=pdb option when run on Windows NT. (Bug reported by Paul Connell.) - Add support for the -q option. From Steve Leblanc: - Add support for the -u option. - Add .cc and .hh file suffixes to the C Scanner. From Anthony Roach: - Make the scons script return an error code on failures. - Add support for using code to generate a command to build a target. RELEASE 0.04 - Wed, 30 Jan 2002 11:09:42 -0600 From Charles Crain: - Significant performance improvements in the Node.FS and Scanner subsystems. - Fix signatures of binary files on Win32 systems. - Allow LIBS and LIBPATH to be strings, not just arrays. - Print a traceback if a Python-function builder throws an exception. From Steven Knight: - Fix using a directory as a Default(), and allow Default() to support white space in file names for strings in arrays. - Man page updates: corrected some mistakes, documented various missing Environment methods, alphabetized the construction variables and other functions, defined begin and end macros for the example sections, regularized white space separation, fixed the use of Export() in the Multiple Variants example. - Function action fixes: None is now a successful return value. Exceptions are now reported. Document function actions. - Add 'Action' and 'Scanner' to the global keywords so SConscript files can use them too. - Removed the Wrapper class between Nodes and Walkers. - Add examples using Library, LIBS, and LIBPATH. - The C Scanner now always returns a sorted list of dependencies so order changes don't cause unnecessary rebuilds. - Strip $(-$) bracketed text from command lines. Use this to surround $_INCDIRS and $_LIBDIRS so we don't rebuild in response to changes to -I or -L options. - Add the Ignore() method to ignore dependencies. - Provide an error message when a nonexistent target is specified on the command line. - Remove targets before building them, and add an Environment Precious() method to override that. - Eliminate redundant calls to the same builder when the target is a list of targets: Add a ListBuilder class that wraps Builders to handle lists atomically. Extend the Task class to support building and updating multiple targets in a single Task. Simplify the interface between Task and Taskmaster. - Add a --debug=pdb option to re-run SCons under the Python debugger. - Only compute a build signature once for each node. - Changes to our sys.path[] manipulation to support installation into an arbitrary --prefix value. From Steve Leblanc: - Add var=value command-line arguments. RELEASE 0.03 - Fri, 11 Jan 2002 01:09:30 -0600 From Charles Crain: - Performance improvements in the Node.FS and Sig.Calculator classes. - Add the InstallAs() method. - Execute commands through an external interpreter (sh, cmd.exe, or command.com) to handle redirection metacharacters. - Allow the user to supply a command handler. From Steven Knight: - Search both /usr/lib and /usr/local/lib for scons directories by adding them both to sys.path, with whichever is in sys.prefix first. - Fix interpreting strings of multiple white-space separated file names as separate file names, allowing prefixes and suffixes to be appended to each individually. - Refactor to move CompositeBuilder initialization logic from the factory wrapper to the __init__() method, and allow a Builder to have both an action and a src_builder (or array of them). - Refactor BuilderBase.__call__() to separate Node creation/lookup from initialization of the Node's builder information. - Add a CFile Builder object that supports turning lex (.l) and yacc (.y) files into .c files. - Document: variable interpretation attributes; how to propogate the user's environment variables to executed commands; how to build variants in multiple BuildDirs. - Collect String, Dict, and List type-checking in common utility routines so we can accept User{String,Dict,List}s all over. - Put the Action factory and classes into their own module. - Use one CPlusPlusAction in the Object Builder's action dictionary, instead of letting it create multiple identical instances. - Document the Install() and InstallAs() methods. From Steve Leblanc: - Require that a Builder be given a name argument, supplying a useful error message when it isn't. From Anthony Roach: - Add a "duplicate" keyword argument to BuildDir() that can be set to prevent linking/copying source files into build directories. - Add a "--debug=tree" option to print an ASCII dependency tree. - Fetch the location of the Microsoft Visual C++ compiler(s) from the Registry, instead of hard-coding the location. - Made Scanner objects take Nodes, not path names. - Have the C Scanner cache the #include file names instead of (re-)scanning the file each time it's called. - Created a separate class for parent "nodes" of file system roots, eliminating the need for separate is-parent-null checks everywhere. - Removed defined __hash__() and __cmp() methods from FS.Entry, in favor of Python's more efficient built-in identity comparisons. RELEASE 0.02 - Sun, 23 Dec 2001 19:05:09 -0600 From Charles Crain: - Added the Install(), BuildDir(), and Export() methods. - Fix the -C option by delaying setting the top of the FS tree. - Avoid putting the directory path on the libraries in the LIBS construction variable. - Added a GetBuildPath() method to return the full path to the Node for a specified string. - Fixed variable substitution in CPPPATH and LIBPATH. From Steven Knight: - Fixed the version comment in the scons.bat (the UNIX geek used # instead of @rem). - Fix to setup.py so it doesn't require a sys.argv[1] argument. - Provide make-like warning message for "command not found" and similar errors. - Added an EXAMPLES section to the man page. - Make Default() targets properly relative to their SConscript file's subdirectory. From Anthony Roach: - Documented CXXFLAGS, CXXCOM, and CPPPATH. - Fixed SCONS_LIB_DIR to work as documented. - Made Default() accept Nodes as arguments. - Changed Export() to make it easier to use. - Added the Import() and Return() methods. RELEASE 0.01 - Thu Dec 13 19:25:23 CST 2001 A brief overview of important functionality available in release 0.01: - C and C++ compilation on POSIX and Windows NT. - Automatic scanning of C/C++ source files for #include dependencies. - Support for building libraries; setting construction variables allows creation of shared libraries. - Library and C preprocessor search paths. - File changes detected using MD5 signatures. - User-definable Builder objects for building files. - User-definable Scanner objects for scanning for dependencies. - Parallel build (-j) support. - Dependency cycles detected. - Linux packages available in RPM and Debian format. - Windows installer available. Copyright (c) 2001 - 2017 The SCons Foundation src/CHANGES.txt 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog scons-3.0.1/RELEASE.txt0000664000175000017500000000507113202656512015766 0ustar bdbaddogbdbaddog00000000000000 A new SCons checkpoint release, 3.0.1, is now available on the SCons download page: http://www.scons.org/download.php XXX The primary purpose of this release ... XXX A SCons "checkpoint release" is intended to provide early access to new features so they can be tested in the field before being released for adoption by other software distributions. Note that a checkpoint release is developed using the same test-driven development methodology as all SCons releases. Existing SCons functionality should all work as it does in previous releases (except for any changes identified in the release notes) and early adopters should be able to use a checkpoint release safely for production work with existing SConscript files. If not, it represents not only a bug in SCons but also a hole in the regression test suite, and we want to hear about it. New features may be more lightly tested than in past releases, especially as concerns their interaction with all of the other functionality in SCons. We are especially interested in hearing bug reports about new functionality. We do not recommend that downstream distributions (Debian, Fedora, etc.) package a checkpoint release, mainly to avoid confusing the "public" release numbering with the long checkpoint release names. Here is a summary of the changes since 1.3.0: NEW FUNCTIONALITY - List new features (presumably why a checkpoint is being released) DEPRECATED FUNCTIONALITY - List anything that's been deprecated since the last release CHANGED/ENHANCED EXISTING FUNCTIONALITY - List modifications to existing features, where the previous behavior wouldn't actually be considered a bug FIXES - List fixes of outright bugs IMPROVEMENTS - List improvements that wouldn't be visible to the user in the documentation: performance improvements (describe the circumstances under which they would be observed), or major code cleanups PACKAGING - List changes in the way SCons is packaged and/or released DOCUMENTATION - List any significant changes to the documentation (not individual typo fixes, even if they're mentioned in src/CHANGES.txt to give the contributor credit) DEVELOPMENT - List visible changes in the way SCons is developed Thanks to CURLY, LARRY, and MOE for their contributions to this release. Contributors are listed alphabetically by their last name. Copyright (c) 2001 - 2017 The SCons Foundation src/RELEASE.txt 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog scons-3.0.1/setup.cfg0000664000175000017500000000017713202656642015774 0ustar bdbaddogbdbaddog00000000000000[bdist_rpm] group = Development/Tools [bdist_wininst] title = SCons - a software construction tool [bdist_wheel] universal=1 scons-3.0.1/scons.10000664000175000017500000200624513202656642015366 0ustar bdbaddogbdbaddog00000000000000'\" t .\" Title: SCONS .\" Author: Steven Knight .\" Generator: DocBook XSL Stylesheets v1.76.1 .\" Date: 2004 - 2016 .\" Manual: SCons 3.0.1 .\" Source: SCons 3.0.1 version 3.0.1 .\" Language: English .\" .TH "SCONS" "1" "2004 - 2016" "SCons 3\&.0\&.1 version 3.0.1" "SCons 3\&.0\&.1" .\" ----------------------------------------------------------------- .\" * Define some portability stuff .\" ----------------------------------------------------------------- .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .\" http://bugs.debian.org/507673 .\" http://lists.gnu.org/archive/html/groff/2009-02/msg00013.html .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .ie \n(.g .ds Aq \(aq .el .ds Aq ' .\" ----------------------------------------------------------------- .\" * set default formatting .\" ----------------------------------------------------------------- .\" disable hyphenation .nh .\" disable justification (adjust text to left margin only) .ad l .\" ----------------------------------------------------------------- .\" * MAIN CONTENT STARTS HERE * .\" ----------------------------------------------------------------- .SH "NAME" scons \- a software construction tool .SH "SYNOPSIS" .HP \w'\fBscons\fR\ 'u \fBscons\fR [\fIoptions\fR...] [\fIname=val\fR...] [\fItargets\fR...] .SH "DESCRIPTION" .PP The \fBscons\fR utility builds software (or other files) by determining which component pieces must be rebuilt and executing the necessary commands to rebuild them\&. .PP By default, \fBscons\fR searches for a file named \fISConstruct\fR, \fISconstruct\fR, or \fIsconstruct\fR (in that order) in the current directory and reads its configuration from the first file found\&. An alternate file name may be specified via the \fB\-f\fR option\&. .PP The \fISConstruct\fR file can specify subsidiary configuration files using the \fBSConscript\fR() function\&. By convention, these subsidiary files are named \fISConscript\fR, although any name may be used\&. (Because of this naming convention, the term "SConscript files" is sometimes used to refer generically to all \fBscons\fR configuration files, regardless of actual file name\&.) .PP The configuration files specify the target files to be built, and (optionally) the rules to build those targets\&. Reasonable default rules exist for building common software components (executable programs, object files, libraries), so that for most software projects, only the target and input files need be specified\&. .PP Before reading the \fISConstruct\fR file, \fBscons\fR looks for a directory named \fIsite_scons\fR in various system directories (see below) and the directory containing the \fISConstruct\fR file; for each of those dirs which exists, \fIsite_scons\fR is prepended to sys\&.path, the file \fIsite_scons/site_init\&.py\fR, is evaluated if it exists, and the directory \fIsite_scons/site_tools\fR is prepended to the default toolpath if it exists\&. See the \fB\-\-no\-site\-dir\fR and \fB\-\-site\-dir\fR options for more details\&. .PP \fBscons\fR reads and executes the SConscript files as Python scripts, so you may use normal Python scripting capabilities (such as flow control, data manipulation, and imported Python libraries) to handle complicated build situations\&. \fBscons\fR, however, reads and executes all of the SConscript files \fIbefore\fR it begins building any targets\&. To make this obvious, \fBscons\fR prints the following messages about what it is doing: .sp .if n \{\ .RS 4 .\} .nf $ scons foo\&.out scons: Reading SConscript files \&.\&.\&. scons: done reading SConscript files\&. scons: Building targets \&.\&.\&. cp foo\&.in foo\&.out scons: done building targets\&. $ .fi .if n \{\ .RE .\} .PP The status messages (everything except the line that reads "cp foo\&.in foo\&.out") may be suppressed using the \fB\-Q\fR option\&. .PP \fBscons\fR does not automatically propagate the external environment used to execute \fBscons\fR to the commands used to build target files\&. This is so that builds will be guaranteed repeatable regardless of the environment variables set at the time \fBscons\fR is invoked\&. This also means that if the compiler or other commands that you want to use to build your target files are not in standard system locations, \fBscons\fR will not find them unless you explicitly set the PATH to include those locations\&. Whenever you create an \fBscons\fR construction environment, you can propagate the value of PATH from your external environment as follows: .sp .if n \{\ .RS 4 .\} .nf import os env = Environment(ENV = {\*(AqPATH\*(Aq : os\&.environ[\*(AqPATH\*(Aq]}) .fi .if n \{\ .RE .\} .PP Similarly, if the commands use external environment variables like $PATH, $HOME, $JAVA_HOME, $LANG, $SHELL, $TERM, etc\&., these variables can also be explicitly propagated: .sp .if n \{\ .RS 4 .\} .nf import os env = Environment(ENV = {\*(AqPATH\*(Aq : os\&.environ[\*(AqPATH\*(Aq], \*(AqHOME\*(Aq : os\&.environ[\*(AqHOME\*(Aq]}) .fi .if n \{\ .RE .\} .PP Or you may explicitly propagate the invoking user\*(Aqs complete external environment: .sp .if n \{\ .RS 4 .\} .nf import os env = Environment(ENV = os\&.environ) .fi .if n \{\ .RE .\} .PP This comes at the expense of making your build dependent on the user\*(Aqs environment being set correctly, but it may be more convenient for many configurations\&. .PP \fBscons\fR can scan known input files automatically for dependency information (for example, #include statements in C or C++ files) and will rebuild dependent files appropriately whenever any "included" input file changes\&. \fBscons\fR supports the ability to define new scanners for unknown input file types\&. .PP \fBscons\fR knows how to fetch files automatically from SCCS or RCS subdirectories using SCCS, RCS or BitKeeper\&. .PP \fBscons\fR is normally executed in a top\-level directory containing a \fISConstruct\fR file, optionally specifying as command\-line arguments the target file or files to be built\&. .PP By default, the command .sp .if n \{\ .RS 4 .\} .nf scons .fi .if n \{\ .RE .\} .PP will build all target files in or below the current directory\&. Explicit default targets (to be built when no targets are specified on the command line) may be defined the SConscript file(s) using the \fBDefault()\fR function, described below\&. .PP Even when \fBDefault()\fR targets are specified in the SConscript file(s), all target files in or below the current directory may be built by explicitly specifying the current directory (\&.) as a command\-line target: .sp .if n \{\ .RS 4 .\} .nf scons \&. .fi .if n \{\ .RE .\} .PP Building all target files, including any files outside of the current directory, may be specified by supplying a command\-line target of the root directory (on POSIX systems): .sp .if n \{\ .RS 4 .\} .nf scons / .fi .if n \{\ .RE .\} .PP or the path name(s) of the volume(s) in which all the targets should be built (on Windows systems): .sp .if n \{\ .RS 4 .\} .nf scons C:\e D:\e .fi .if n \{\ .RE .\} .PP To build only specific targets, supply them as command\-line arguments: .sp .if n \{\ .RS 4 .\} .nf scons foo bar .fi .if n \{\ .RE .\} .PP in which case only the specified targets will be built (along with any derived files on which they depend)\&. .PP Specifying "cleanup" targets in SConscript files is not usually necessary\&. The \fB\-c\fR flag removes all files necessary to build the specified target: .sp .if n \{\ .RS 4 .\} .nf scons \-c \&. .fi .if n \{\ .RE .\} .PP to remove all target files, or: .sp .if n \{\ .RS 4 .\} .nf scons \-c build export .fi .if n \{\ .RE .\} .PP to remove target files under build and export\&. Additional files or directories to remove can be specified using the \fBClean()\fR function\&. Conversely, targets that would normally be removed by the \fB\-c\fR invocation can be prevented from being removed by using the \fBNoClean\fR() function\&. .PP A subset of a hierarchical tree may be built by remaining at the top\-level directory (where the \fISConstruct\fR file lives) and specifying the subdirectory as the target to be built: .sp .if n \{\ .RS 4 .\} .nf scons src/subdir .fi .if n \{\ .RE .\} .PP or by changing directory and invoking scons with the \fB\-u\fR option, which traverses up the directory hierarchy until it finds the \fISConstruct\fR file, and then builds targets relatively to the current subdirectory: .sp .if n \{\ .RS 4 .\} .nf cd src/subdir scons \-u \&. .fi .if n \{\ .RE .\} .PP \fBscons\fR supports building multiple targets in parallel via a \fB\-j\fR option that takes, as its argument, the number of simultaneous tasks that may be spawned: .sp .if n \{\ .RS 4 .\} .nf scons \-j 4 .fi .if n \{\ .RE .\} .PP builds four targets in parallel, for example\&. .PP \fBscons\fR can maintain a cache of target (derived) files that can be shared between multiple builds\&. When caching is enabled in a SConscript file, any target files built by \fBscons\fR will be copied to the cache\&. If an up\-to\-date target file is found in the cache, it will be retrieved from the cache instead of being rebuilt locally\&. Caching behavior may be disabled and controlled in other ways by the \fB\-\-cache\-force\fR, \fB\-\-cache\-disable\fR, \fB\-\-cache\-readonly\fR, and \fB\-\-cache\-show\fR command\-line options\&. The \fB\-\-random\fR option is useful to prevent multiple builds from trying to update the cache simultaneously\&. .PP Values of variables to be passed to the SConscript file(s) may be specified on the command line: .sp .if n \{\ .RS 4 .\} .nf scons debug=1 \&. .fi .if n \{\ .RE .\} .PP These variables are available in SConscript files through the ARGUMENTS dictionary, and can be used in the SConscript file(s) to modify the build in any way: .sp .if n \{\ .RS 4 .\} .nf if ARGUMENTS\&.get(\*(Aqdebug\*(Aq, 0): env = Environment(CCFLAGS = \*(Aq\-g\*(Aq) else: env = Environment() .fi .if n \{\ .RE .\} .PP The command\-line variable arguments are also available in the ARGLIST list, indexed by their order on the command line\&. This allows you to process them in order rather than by name, if necessary\&. ARGLIST[0] returns a tuple containing (argname, argvalue)\&. A Python exception is thrown if you try to access a list member that does not exist\&. .PP \fBscons\fR requires Python version 2\&.7 or later\&. There should be no other dependencies or requirements to run \fBscons\&.\fR .PP By default, \fBscons\fR knows how to search for available programming tools on various systems\&. On Windows systems, \fBscons\fR searches in order for the Microsoft Visual C++ tools, the MinGW tool chain, the Intel compiler tools, and the PharLap ETS compiler\&. On OS/2 systems, \fBscons\fR searches in order for the OS/2 compiler, the GCC tool chain, and the Microsoft Visual C++ tools, On SGI IRIX, IBM AIX, Hewlett Packard HP\-UX, and Sun Solaris systems, \fBscons\fR searches for the native compiler tools (MIPSpro, Visual Age, aCC, and Forte tools respectively) and the GCC tool chain\&. On all other platforms, including POSIX (Linux and UNIX) platforms, \fBscons\fR searches in order for the GCC tool chain, the Microsoft Visual C++ tools, and the Intel compiler tools\&. You may, of course, override these default values by appropriate configuration of Environment construction variables\&. .SH "OPTIONS" .PP In general, \fBscons\fR supports the same command\-line options as GNU \fBmake\fR, and many of those supported by \fBcons\fR\&. .PP \-b .RS 4 Ignored for compatibility with non\-GNU versions of \fBmake\&.\fR .RE .PP \-c, \-\-clean, \-\-remove .RS 4 Clean up by removing all target files for which a construction command is specified\&. Also remove any files or directories associated to the construction command using the \fBClean\fR() function\&. Will not remove any targets specified by the \fBNoClean\fR() function\&. .RE .PP \-\-cache\-debug=\fIfile\fR .RS 4 Print debug information about the \fBCacheDir\fR() derived\-file caching to the specified \fIfile\fR\&. If \fIfile\fR is \fB\-\fR (a hyphen), the debug information are printed to the standard output\&. The printed messages describe what signature file names are being looked for in, retrieved from, or written to the \fBCacheDir\fR() directory tree\&. .RE .PP \-\-cache\-disable, \-\-no\-cache .RS 4 Disable the derived\-file caching specified by \fBCacheDir\fR()\&. \fBscons\fR will neither retrieve files from the cache nor copy files to the cache\&. .RE .PP \-\-cache\-force, \-\-cache\-populate .RS 4 When using \fBCacheDir\fR(), populate a cache by copying any already\-existing, up\-to\-date derived files to the cache, in addition to files built by this invocation\&. This is useful to populate a new cache with all the current derived files, or to add to the cache any derived files recently built with caching disabled via the \fB\-\-cache\-disable\fR option\&. .RE .PP \-\-cache\-readonly .RS 4 Use the cache (if enabled) for reading, but do not not update the cache with changed files\&. .RE .PP \-\-cache\-show .RS 4 When using \fBCacheDir\fR() and retrieving a derived file from the cache, show the command that would have been executed to build the file, instead of the usual report, "Retrieved `file\*(Aq from cache\&." This will produce consistent output for build logs, regardless of whether a target file was rebuilt or retrieved from the cache\&. .RE .PP \-\-config=\fImode\fR .RS 4 This specifies how the \fBConfigure\fR call should use or generate the results of configuration tests\&. The option should be specified from among the following choices: .RE .PP \-\-config=auto .RS 4 scons will use its normal dependency mechanisms to decide if a test must be rebuilt or not\&. This saves time by not running the same configuration tests every time you invoke scons, but will overlook changes in system header files or external commands (such as compilers) if you don\*(Aqt specify those dependecies explicitly\&. This is the default behavior\&. .RE .PP \-\-config=force .RS 4 If this option is specified, all configuration tests will be re\-run regardless of whether the cached results are out of date\&. This can be used to explicitly force the configuration tests to be updated in response to an otherwise unconfigured change in a system header file or compiler\&. .RE .PP \-\-config=cache .RS 4 If this option is specified, no configuration tests will be rerun and all results will be taken from cache\&. Note that scons will still consider it an error if \-\-config=cache is specified and a necessary test does not yet have any results in the cache\&. .RE .PP \-C\fI directory\fR, \-\-directory=\fIdirectory\fR .RS 4 Change to the specified \fIdirectory\fR before searching for the \fISConstruct\fR, \fISconstruct\fR, or \fIsconstruct\fR file, or doing anything else\&. Multiple \fB\-C\fR options are interpreted relative to the previous one, and the right\-most \fB\-C\fR option wins\&. (This option is nearly equivalent to \fB\-f directory/SConstruct\fR, except that it will search for \fISConstruct\fR, \fISconstruct\fR, or \fIsconstruct\fR in the specified directory\&.) .RE .PP \-D .RS 4 Works exactly the same way as the \fB\-u\fR option except for the way default targets are handled\&. When this option is used and no targets are specified on the command line, all default targets are built, whether or not they are below the current directory\&. .RE .PP \-\-debug=\fItype\fR .RS 4 Debug the build process\&. \fItype[,type\&.\&.\&.]\fR specifies what type of debugging\&. Multiple types may be specified, separated by commas\&. The following types are valid: .RE .PP \-\-debug=count .RS 4 Print how many objects are created of the various classes used internally by SCons before and after reading the SConscript files and before and after building targets\&. This is not supported when SCons is executed with the Python \fB\-O\fR (optimized) option or when the SCons modules have been compiled with optimization (that is, when executing from \fB*\&.pyo\fR files)\&. .RE .PP \-\-debug=duplicate .RS 4 Print a line for each unlink/relink (or copy) of a variant file from its source file\&. Includes debugging info for unlinking stale variant files, as well as unlinking old targets before building them\&. .RE .PP \-\-debug=dtree .RS 4 A synonym for the newer \fB\-\-tree=derived\fR option\&. This will be deprecated in some future release and ultimately removed\&. .RE .PP \-\-debug=explain .RS 4 Print an explanation of precisely why \fBscons\fR is deciding to (re\-)build any targets\&. (Note: this does not print anything for targets that are \fInot\fR rebuilt\&.) .RE .PP \-\-debug=findlibs .RS 4 Instruct the scanner that searches for libraries to print a message about each potential library name it is searching for, and about the actual libraries it finds\&. .RE .PP \-\-debug=includes .RS 4 Print the include tree after each top\-level target is built\&. This is generally used to find out what files are included by the sources of a given derived file: .sp .if n \{\ .RS 4 .\} .nf $ scons \-\-debug=includes foo\&.o .fi .if n \{\ .RE .\} .RE .PP \-\-debug=memoizer .RS 4 Prints a summary of hits and misses using the Memoizer, an internal subsystem that counts how often SCons uses cached values in memory instead of recomputing them each time they\*(Aqre needed\&. .RE .PP \-\-debug=memory .RS 4 Prints how much memory SCons uses before and after reading the SConscript files and before and after building targets\&. .RE .PP \-\-debug=nomemoizer .RS 4 A deprecated option preserved for backwards compatibility\&. .RE .PP \-\-debug=objects .RS 4 Prints a list of the various objects of the various classes used internally by SCons\&. .RE .PP \-\-debug=pdb .RS 4 Re\-run SCons under the control of the pdb Python debugger\&. .RE .PP \-\-debug=prepare .RS 4 Print a line each time any target (internal or external) is prepared for building\&. \fBscons\fR prints this for each target it considers, even if that target is up to date (see also \-\-debug=explain)\&. This can help debug problems with targets that aren\*(Aqt being built; it shows whether \fBscons\fR is at least considering them or not\&. .RE .PP \-\-debug=presub .RS 4 Print the raw command line used to build each target before the construction environment variables are substituted\&. Also shows which targets are being built by this command\&. Output looks something like this: .sp .if n \{\ .RS 4 .\} .nf $ scons \-\-debug=presub Building myprog\&.o with action(s): $SHCC $SHCFLAGS $SHCCFLAGS $CPPFLAGS $_CPPINCFLAGS \-c \-o $TARGET $SOURCES \&.\&.\&. .fi .if n \{\ .RE .\} .RE .PP \-\-debug=stacktrace .RS 4 Prints an internal Python stack trace when encountering an otherwise unexplained error\&. .RE .PP \-\-debug=stree .RS 4 A synonym for the newer \fB\-\-tree=all,status\fR option\&. This will be deprecated in some future release and ultimately removed\&. .RE .PP \-\-debug=time .RS 4 Prints various time profiling information: .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The time spent executing each individual build command.RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The total build time (time SCons ran from beginning to end).RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The total time spent reading and executing SConscript files.RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The total time spent SCons itself spend running (that is, not counting reading and executing SConscript files).RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The total time spent executing all build commands.RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The elapsed wall\-clock time spent executing those build commands.RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The time spent processing each file passed to the \fISConscript()\fR function.RE .sp (When \fBscons\fR is executed without the \fB\-j\fR option, the elapsed wall\-clock time will typically be slightly longer than the total time spent executing all the build commands, due to the SCons processing that takes place in between executing each command\&. When \fBscons\fR is executed \fIwith\fR the \fB\-j\fR option, and your build configuration allows good parallelization, the elapsed wall\-clock time should be significantly smaller than the total time spent executing all the build commands, since multiple build commands and intervening SCons processing should take place in parallel\&.) .RE .PP \-\-debug=tree .RS 4 A synonym for the newer \fB\-\-tree=all\fR option\&. This will be deprecated in some future release and ultimately removed\&. .RE .PP \-\-diskcheck=\fItypes\fR .RS 4 Enable specific checks for whether or not there is a file on disk where the SCons configuration expects a directory (or vice versa), and whether or not RCS or SCCS sources exist when searching for source and include files\&. The \fItypes\fR argument can be set to: \fBall\fR, to enable all checks explicitly (the default behavior); \fBnone\fR, to disable all such checks; \fBmatch\fR, to check that files and directories on disk match SCons\*(Aq expected configuration; \fBrcs\fR, to check for the existence of an RCS source for any missing source or include files; \fBsccs\fR, to check for the existence of an SCCS source for any missing source or include files\&. Multiple checks can be specified separated by commas; for example, \fB\-\-diskcheck=sccs,rcs\fR would still check for SCCS and RCS sources, but disable the check for on\-disk matches of files and directories\&. Disabling some or all of these checks can provide a performance boost for large configurations, or when the configuration will check for files and/or directories across networked or shared file systems, at the slight increased risk of an incorrect build or of not handling errors gracefully (if include files really should be found in SCCS or RCS, for example, or if a file really does exist where the SCons configuration expects a directory)\&. .RE .PP \-\-duplicate=\fIORDER\fR .RS 4 There are three ways to duplicate files in a build tree: hard links, soft (symbolic) links and copies\&. The default behaviour of SCons is to prefer hard links to soft links to copies\&. You can specify different behaviours with this option\&. \fIORDER\fR must be one of \fIhard\-soft\-copy\fR (the default), \fIsoft\-hard\-copy\fR, \fIhard\-copy\fR, \fIsoft\-copy\fR or \fIcopy\fR\&. SCons will attempt to duplicate files using the mechanisms in the specified order\&. .RE .PP \-f\fI file\fR, \-\-file=\fIfile\fR, \-\-makefile=\fIfile\fR, \-\-sconstruct=\fIfile\fR .RS 4 Use \fIfile\fR as the initial SConscript file\&. Multiple \fB\-f\fR options may be specified, in which case \fBscons\fR will read all of the specified files\&. .RE .PP \-h, \-\-help .RS 4 Print a local help message for this build, if one is defined in the SConscript file(s), plus a line that describes the \fB\-H\fR option for command\-line option help\&. If no local help message is defined, prints the standard help message about command\-line options\&. Exits after displaying the appropriate message\&. .RE .PP \-H, \-\-help\-options .RS 4 Print the standard help message about command\-line options and exit\&. .RE .PP \-i, \-\-ignore\-errors .RS 4 Ignore all errors from commands executed to rebuild files\&. .RE .PP \-I\fI directory\fR, \-\-include\-dir=\fIdirectory\fR .RS 4 Specifies a \fIdirectory\fR to search for imported Python modules\&. If several \fB\-I\fR options are used, the directories are searched in the order specified\&. .RE .PP \-\-implicit\-cache .RS 4 Cache implicit dependencies\&. This causes \fBscons\fR to use the implicit (scanned) dependencies from the last time it was run instead of scanning the files for implicit dependencies\&. This can significantly speed up SCons, but with the following limitations: .RE .PP \fBscons\fR will not detect changes to implicit dependency search paths (e\&.g\&. \fBCPPPATH\fR, \fBLIBPATH\fR) that would ordinarily cause different versions of same\-named files to be used\&. .PP \fBscons\fR will miss changes in the implicit dependencies in cases where a new implicit dependency is added earlier in the implicit dependency search path (e\&.g\&. \fBCPPPATH\fR, \fBLIBPATH\fR) than a current implicit dependency with the same name\&. .PP \-\-implicit\-deps\-changed .RS 4 Forces SCons to ignore the cached implicit dependencies\&. This causes the implicit dependencies to be rescanned and recached\&. This implies \fB\-\-implicit\-cache\fR\&. .RE .PP \-\-implicit\-deps\-unchanged .RS 4 Force SCons to ignore changes in the implicit dependencies\&. This causes cached implicit dependencies to always be used\&. This implies \fB\-\-implicit\-cache\fR\&. .RE .PP \-\-interactive .RS 4 Starts SCons in interactive mode\&. The SConscript files are read once and a \fBscons>>>\fR prompt is printed\&. Targets may now be rebuilt by typing commands at interactive prompt without having to re\-read the SConscript files and re\-initialize the dependency graph from scratch\&. .sp SCons interactive mode supports the following commands: .PP \fBbuild\fR\fI[OPTIONS] [TARGETS] \&.\&.\&.\fR .RS 4 Builds the specified \fITARGETS\fR (and their dependencies) with the specified SCons command\-line \fIOPTIONS\fR\&. \fBb\fR and \fBscons\fR are synonyms\&. .sp The following SCons command\-line options affect the \fBbuild\fR command: .sp .if n \{\ .RS 4 .\} .nf \-\-cache\-debug=FILE \-\-cache\-disable, \-\-no\-cache \-\-cache\-force, \-\-cache\-populate \-\-cache\-readonly \-\-cache\-show \-\-debug=TYPE \-i, \-\-ignore\-errors \-j N, \-\-jobs=N \-k, \-\-keep\-going \-n, \-\-no\-exec, \-\-just\-print, \-\-dry\-run, \-\-recon \-Q \-s, \-\-silent, \-\-quiet \-\-taskmastertrace=FILE \-\-tree=OPTIONS .fi .if n \{\ .RE .\} .RE .sp Any other SCons command\-line options that are specified do not cause errors but have no effect on the \fBbuild\fR command (mainly because they affect how the SConscript files are read, which only happens once at the beginning of interactive mode)\&. .PP \fBclean\fR\fI[OPTIONS] [TARGETS] \&.\&.\&.\fR .RS 4 Cleans the specified \fITARGETS\fR (and their dependencies) with the specified options\&. \fBc\fR is a synonym\&. This command is itself a synonym for \fBbuild \-\-clean\fR .RE .PP \fBexit\fR .RS 4 Exits SCons interactive mode\&. You can also exit by terminating input (CTRL+D on UNIX or Linux systems, CTRL+Z on Windows systems)\&. .RE .PP \fBhelp\fR\fI[COMMAND]\fR .RS 4 Provides a help message about the commands available in SCons interactive mode\&. If \fICOMMAND\fR is specified, \fBh\fR and \fB?\fR are synonyms\&. .RE .PP \fBshell\fR\fI[COMMANDLINE]\fR .RS 4 Executes the specified \fICOMMANDLINE\fR in a subshell\&. If no \fICOMMANDLINE\fR is specified, executes the interactive command interpreter specified in the \fBSHELL\fR environment variable (on UNIX and Linux systems) or the \fBCOMSPEC\fR environment variable (on Windows systems)\&. \fBsh\fR and \fB!\fR are synonyms\&. .RE .PP \fBversion\fR .RS 4 Prints SCons version information\&. .RE .RE .PP An empty line repeats the last typed command\&. Command\-line editing can be used if the \fBreadline\fR module is available\&. .sp .if n \{\ .RS 4 .\} .nf $ scons \-\-interactive scons: Reading SConscript files \&.\&.\&. scons: done reading SConscript files\&. scons>>> build \-n prog scons>>> exit .fi .if n \{\ .RE .\} .PP \-j\fI N\fR, \-\-jobs=\fIN\fR .RS 4 Specifies the number of jobs (commands) to run simultaneously\&. If there is more than one \fB\-j\fR option, the last one is effective\&. .RE .PP \-k, \-\-keep\-going .RS 4 Continue as much as possible after an error\&. The target that failed and those that depend on it will not be remade, but other targets specified on the command line will still be processed\&. .RE .PP \-m .RS 4 Ignored for compatibility with non\-GNU versions of \fBmake\fR\&. .RE .PP \-\-max\-drift=\fISECONDS\fR .RS 4 Set the maximum expected drift in the modification time of files to \fISECONDS\fR\&. This value determines how long a file must be unmodified before its cached content signature will be used instead of calculating a new content signature (MD5 checksum) of the file\*(Aqs contents\&. The default value is 2 days, which means a file must have a modification time of at least two days ago in order to have its cached content signature used\&. A negative value means to never cache the content signature and to ignore the cached value if there already is one\&. A value of 0 means to always use the cached signature, no matter how old the file is\&. .RE .PP \-\-md5\-chunksize=\fIKILOBYTES\fR .RS 4 Set the block size used to compute MD5 signatures to \fIKILOBYTES\fR\&. This value determines the size of the chunks which are read in at once when computing MD5 signatures\&. Files below that size are fully stored in memory before performing the signature computation while bigger files are read in block\-by\-block\&. A huge block\-size leads to high memory consumption while a very small block\-size slows down the build considerably\&. .sp The default value is to use a chunk size of 64 kilobytes, which should be appropriate for most uses\&. .RE .PP \-n, \-\-just\-print, \-\-dry\-run, \-\-recon .RS 4 No execute\&. Print the commands that would be executed to build any out\-of\-date target files, but do not execute the commands\&. .RE .PP \-\-no\-site\-dir .RS 4 Prevents the automatic addition of the standard \fIsite_scons\fR dirs to \fIsys\&.path\fR\&. Also prevents loading the \fIsite_scons/site_init\&.py\fR modules if they exist, and prevents adding their \fIsite_scons/site_tools\fR dirs to the toolpath\&. .RE .PP \-\-profile=\fIfile\fR .RS 4 Run SCons under the Python profiler and save the results in the specified \fIfile\fR\&. The results may be analyzed using the Python pstats module\&. .RE .PP \-q, \-\-question .RS 4 Do not run any commands, or print anything\&. Just return an exit status that is zero if the specified targets are already up to date, non\-zero otherwise\&. .RE .PP \-Q .RS 4 Quiets SCons status messages about reading SConscript files, building targets and entering directories\&. Commands that are executed to rebuild target files are still printed\&. .RE .PP \-\-random .RS 4 Build dependencies in a random order\&. This is useful when building multiple trees simultaneously with caching enabled, to prevent multiple builds from simultaneously trying to build or retrieve the same target files\&. .RE .PP \-s, \-\-silent, \-\-quiet .RS 4 Silent\&. Do not print commands that are executed to rebuild target files\&. Also suppresses SCons status messages\&. .RE .PP \-S, \-\-no\-keep\-going, \-\-stop .RS 4 Ignored for compatibility with GNU \fBmake\fR\&. .RE .PP \-\-site\-dir=\fIdir\fR .RS 4 Uses the named dir as the site dir rather than the default \fIsite_scons\fR dirs\&. This dir will get prepended to \fIsys\&.path\fR, the module \fIdir\fR/site_init\&.py will get loaded if it exists, and \fIdir\fR/site_tools will get added to the default toolpath\&. .sp The default set of \fIsite_scons\fR dirs used when \fB\-\-site\-dir\fR is not specified depends on the system platform, as follows\&. Note that the directories are examined in the order given, from most generic to most specific, so the last\-executed site_init\&.py file is the most specific one (which gives it the chance to override everything else), and the dirs are prepended to the paths, again so the last dir examined comes first in the resulting path\&. .RE .PP Windows: .RS 4 .sp .if n \{\ .RS 4 .\} .nf %ALLUSERSPROFILE/Application Data/scons/site_scons %USERPROFILE%/Local Settings/Application Data/scons/site_scons %APPDATA%/scons/site_scons %HOME%/\&.scons/site_scons \&./site_scons .fi .if n \{\ .RE .\} .RE .PP Mac OS X: .RS 4 .sp .if n \{\ .RS 4 .\} .nf /Library/Application Support/SCons/site_scons /opt/local/share/scons/site_scons (for MacPorts) /sw/share/scons/site_scons (for Fink) $HOME/Library/Application Support/SCons/site_scons $HOME/\&.scons/site_scons \&./site_scons .fi .if n \{\ .RE .\} .RE .PP Solaris: .RS 4 .sp .if n \{\ .RS 4 .\} .nf /opt/sfw/scons/site_scons /usr/share/scons/site_scons $HOME/\&.scons/site_scons \&./site_scons .fi .if n \{\ .RE .\} .RE .PP Linux, HPUX, and other Posix\-like systems: .RS 4 .sp .if n \{\ .RS 4 .\} .nf /usr/share/scons/site_scons $HOME/\&.scons/site_scons \&./site_scons .fi .if n \{\ .RE .\} .RE .PP \-\-stack\-size=\fIKILOBYTES\fR .RS 4 Set the size stack used to run threads to \fIKILOBYTES\fR\&. This value determines the stack size of the threads used to run jobs\&. These are the threads that execute the actions of the builders for the nodes that are out\-of\-date\&. Note that this option has no effect unless the \fBnum_jobs\fR option, which corresponds to \-j and \-\-jobs, is larger than one\&. Using a stack size that is too small may cause stack overflow errors\&. This usually shows up as segmentation faults that cause scons to abort before building anything\&. Using a stack size that is too large will cause scons to use more memory than required and may slow down the entire build process\&. .sp The default value is to use a stack size of 256 kilobytes, which should be appropriate for most uses\&. You should not need to increase this value unless you encounter stack overflow errors\&. .RE .PP \-t, \-\-touch .RS 4 Ignored for compatibility with GNU \fBmake\fR\&. (Touching a file to make it appear up\-to\-date is unnecessary when using \fBscons\fR\&.) .RE .PP \-\-taskmastertrace=\fIfile\fR .RS 4 Prints trace information to the specified \fIfile\fR about how the internal Taskmaster object evaluates and controls the order in which Nodes are built\&. A file name of \fB\-\fR may be used to specify the standard output\&. .RE .PP \-tree=\fIoptions\fR .RS 4 Prints a tree of the dependencies after each top\-level target is built\&. This prints out some or all of the tree, in various formats, depending on the \fIoptions\fR specified: .RE .PP \-\-tree=all .RS 4 Print the entire dependency tree after each top\-level target is built\&. This prints out the complete dependency tree, including implicit dependencies and ignored dependencies\&. .RE .PP \-\-tree=derived .RS 4 Restricts the tree output to only derived (target) files, not source files\&. .RE .PP \-\-tree=status .RS 4 Prints status information for each displayed node\&. .RE .PP \-\-tree=prune .RS 4 Prunes the tree to avoid repeating dependency information for nodes that have already been displayed\&. Any node that has already been displayed will have its name printed in \fB[square brackets]\fR, as an indication that the dependencies for that node can be found by searching for the relevant output higher up in the tree\&. .RE .PP Multiple options may be specified, separated by commas: .sp .if n \{\ .RS 4 .\} .nf # Prints only derived files, with status information: scons \-\-tree=derived,status # Prints all dependencies of target, with status information # and pruning dependencies of already\-visited Nodes: scons \-\-tree=all,prune,status target .fi .if n \{\ .RE .\} .PP \-u, \-\-up, \-\-search\-up .RS 4 Walks up the directory structure until an \fISConstruct ,\fR \fISconstruct\fR or \fIsconstruct\fR file is found, and uses that as the top of the directory tree\&. If no targets are specified on the command line, only targets at or below the current directory will be built\&. .RE .PP \-U .RS 4 Works exactly the same way as the \fB\-u\fR option except for the way default targets are handled\&. When this option is used and no targets are specified on the command line, all default targets that are defined in the SConscript(s) in the current directory are built, regardless of what directory the resultant targets end up in\&. .RE .PP \-v, \-\-version .RS 4 Print the \fBscons\fR version, copyright information, list of authors, and any other relevant information\&. Then exit\&. .RE .PP \-w, \-\-print\-directory .RS 4 Print a message containing the working directory before and after other processing\&. .RE .PP \-\-no\-print\-directory .RS 4 Turn off \-w, even if it was turned on implicitly\&. .RE .PP \-\-warn=\fItype\fR, \-\-warn=no\-\fItype\fR .RS 4 Enable or disable warnings\&. \fItype\fR specifies the type of warnings to be enabled or disabled: .RE .PP \-\-warn=all, \-\-warn=no\-all .RS 4 Enables or disables all warnings\&. .RE .PP \-\-warn=cache\-version, \-\-warn=no\-cache\-version .RS 4 Enables or disables warnings about the cache directory not using the latest configuration information \fBCacheDir\fR()\&. These warnings are enabled by default\&. .RE .PP \-\-warn=cache\-write\-error, \-\-warn=no\-cache\-write\-error .RS 4 Enables or disables warnings about errors trying to write a copy of a built file to a specified \fBCacheDir\fR()\&. These warnings are disabled by default\&. .RE .PP \-\-warn=corrupt\-sconsign, \-\-warn=no\-corrupt\-sconsign .RS 4 Enables or disables warnings about unfamiliar signature data in \fB\&.sconsign\fR files\&. These warnings are enabled by default\&. .RE .PP \-\-warn=dependency, \-\-warn=no\-dependency .RS 4 Enables or disables warnings about dependencies\&. These warnings are disabled by default\&. .RE .PP \-\-warn=deprecated, \-\-warn=no\-deprecated .RS 4 Enables or disables all warnings about use of currently deprecated features\&. These warnings are enabled by default\&. Note that the \fB\-\-warn=no\-deprecated\fR option does not disable warnings about absolutely all deprecated features\&. Warnings for some deprecated features that have already been through several releases with deprecation warnings may be mandatory for a release or two before they are officially no longer supported by SCons\&. Warnings for some specific deprecated features may be enabled or disabled individually; see below\&. .PP \-\-warn=deprecated\-copy, \-\-warn=no\-deprecated\-copy .RS 4 Enables or disables warnings about use of the deprecated \fBenv\&.Copy()\fR method\&. .RE .PP \-\-warn=deprecated\-source\-signatures, \-\-warn=no\-deprecated\-source\-signatures .RS 4 Enables or disables warnings about use of the deprecated \fBSourceSignatures()\fR function or \fBenv\&.SourceSignatures()\fR method\&. .RE .PP \-\-warn=deprecated\-target\-signatures, \-\-warn=no\-deprecated\-target\-signatures .RS 4 Enables or disables warnings about use of the deprecated \fBTargetSignatures()\fR function or \fBenv\&.TargetSignatures()\fR method\&. .RE .RE .PP \-\-warn=duplicate\-environment, \-\-warn=no\-duplicate\-environment .RS 4 Enables or disables warnings about attempts to specify a build of a target with two different construction environments that use the same action\&. These warnings are enabled by default\&. .RE .PP \-\-warn=fortran\-cxx\-mix, \-\-warn=no\-fortran\-cxx\-mix .RS 4 Enables or disables the specific warning about linking Fortran and C++ object files in a single executable, which can yield unpredictable behavior with some compilers\&. .RE .PP \-\-warn=future\-deprecated, \-\-warn=no\-future\-deprecated .RS 4 Enables or disables warnings about features that will be deprecated in the future\&. These warnings are disabled by default\&. Enabling this warning is especially recommended for projects that redistribute SCons configurations for other users to build, so that the project can be warned as soon as possible about to\-be\-deprecated features that may require changes to the configuration\&. .RE .PP \-\-warn=link, \-\-warn=no\-link .RS 4 Enables or disables warnings about link steps\&. .RE .PP \-\-warn=misleading\-keywords, \-\-warn=no\-misleading\-keywords .RS 4 Enables or disables warnings about use of the misspelled keywords \fBtargets\fR and \fBsources\fR when calling Builders\&. (Note the last \fBs\fR characters, the correct spellings are \fBtarget\fR and \fBsource\&.)\fR These warnings are enabled by default\&. .RE .PP \-\-warn=missing\-sconscript, \-\-warn=no\-missing\-sconscript .RS 4 Enables or disables warnings about missing SConscript files\&. These warnings are enabled by default\&. .RE .PP \-\-warn=no\-md5\-module, \-\-warn=no\-no\-md5\-module .RS 4 Enables or disables warnings about the version of Python not having an MD5 checksum module available\&. These warnings are enabled by default\&. .RE .PP \-\-warn=no\-metaclass\-support, \-\-warn=no\-no\-metaclass\-support .RS 4 Enables or disables warnings about the version of Python not supporting metaclasses when the \fB\-\-debug=memoizer\fR option is used\&. These warnings are enabled by default\&. .RE .PP \-\-warn=no\-object\-count, \-\-warn=no\-no\-object\-count .RS 4 Enables or disables warnings about the \fB\-\-debug=object\fR feature not working when \fBscons\fR is run with the python \fB\-O\fR option or from optimized Python (\&.pyo) modules\&. .RE .PP \-\-warn=no\-parallel\-support, \-\-warn=no\-no\-parallel\-support .RS 4 Enables or disables warnings about the version of Python not being able to support parallel builds when the \fB\-j\fR option is used\&. These warnings are enabled by default\&. .RE .PP \-\-warn=python\-version, \-\-warn=no\-python\-version .RS 4 Enables or disables the warning about running SCons with a deprecated version of Python\&. These warnings are enabled by default\&. .RE .PP \-\-warn=reserved\-variable, \-\-warn=no\-reserved\-variable .RS 4 Enables or disables warnings about attempts to set the reserved construction variable names \fBCHANGED_SOURCES\fR, \fBCHANGED_TARGETS\fR, \fBTARGET\fR, \fBTARGETS\fR, \fBSOURCE\fR, \fBSOURCES\fR, \fBUNCHANGED_SOURCES\fR or \fBUNCHANGED_TARGETS\fR\&. These warnings are disabled by default\&. .RE .PP \-\-warn=stack\-size, \-\-warn=no\-stack\-size .RS 4 Enables or disables warnings about requests to set the stack size that could not be honored\&. These warnings are enabled by default\&. .RE .PP \-\-warn=target_not_build, \-\-warn=no\-target_not_built .RS 4 Enables or disables warnings about a build rule not building the expected targets\&. These warnings are not currently enabled by default\&. .RE .PP \-Y\fI repository\fR, \-\-repository=\fIrepository\fR, \-\-srcdir=\fIrepository\fR .RS 4 Search the specified repository for any input and target files not found in the local directory hierarchy\&. Multiple \fB\-Y\fR options may be specified, in which case the repositories are searched in the order specified\&. .RE .SH "CONFIGURATION FILE REFERENCE" .SS "Construction Environments" .PP A construction environment is the basic means by which the SConscript files communicate build information to \fBscons\fR\&. A new construction environment is created using the \fBEnvironment\fR function: .sp .if n \{\ .RS 4 .\} .nf env = Environment() .fi .if n \{\ .RE .\} .PP Variables, called \fIconstruction\fR \fIvariables\fR, may be set in a construction environment either by specifying them as keywords when the object is created or by assigning them a value after the object is created: .sp .if n \{\ .RS 4 .\} .nf env = Environment(FOO = \*(Aqfoo\*(Aq) env[\*(AqBAR\*(Aq] = \*(Aqbar\*(Aq .fi .if n \{\ .RE .\} .PP As a convenience, construction variables may also be set or modified by the \fIparse_flags\fR keyword argument, which applies the \fBParseFlags\fR method (described below) to the argument value after all other processing is completed\&. This is useful either if the exact content of the flags is unknown (for example, read from a control file) or if the flags are distributed to a number of construction variables\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(parse_flags = \*(Aq\-Iinclude \-DEBUG \-lm\*(Aq) .fi .if n \{\ .RE .\} .PP This example adds \*(Aqinclude\*(Aq to \fBCPPPATH\fR, \*(AqEBUG\*(Aq to \fBCPPDEFINES\fR, and \*(Aqm\*(Aq to \fBLIBS\fR\&. .PP By default, a new construction environment is initialized with a set of builder methods and construction variables that are appropriate for the current platform\&. An optional platform keyword argument may be used to specify that an environment should be initialized for a different platform: .sp .if n \{\ .RS 4 .\} .nf env = Environment(platform = \*(Aqcygwin\*(Aq) env = Environment(platform = \*(Aqos2\*(Aq) env = Environment(platform = \*(Aqposix\*(Aq) env = Environment(platform = \*(Aqwin32\*(Aq) .fi .if n \{\ .RE .\} .PP Specifying a platform initializes the appropriate construction variables in the environment to use and generate file names with prefixes and suffixes appropriate for the platform\&. .PP Note that the \fBwin32\fR platform adds the \fBSystemDrive\fR and \fBSystemRoot\fR variables from the user\*(Aqs external environment to the construction environment\*(Aqs \fBENV\fR dictionary\&. This is so that any executed commands that use sockets to connect with other systems (such as fetching source files from external CVS repository specifications like \fB:pserver:anonymous@cvs\&.sourceforge\&.net:/cvsroot/scons\fR) will work on Windows systems\&. .PP The platform argument may be function or callable object, in which case the Environment() method will call the specified argument to update the new construction environment: .sp .if n \{\ .RS 4 .\} .nf def my_platform(env): env[\*(AqVAR\*(Aq] = \*(Aqxyzzy\*(Aq env = Environment(platform = my_platform) .fi .if n \{\ .RE .\} .PP Additionally, a specific set of tools with which to initialize the environment may be specified as an optional keyword argument: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools = [\*(Aqmsvc\*(Aq, \*(Aqlex\*(Aq]) .fi .if n \{\ .RE .\} .PP Non\-built\-in tools may be specified using the toolpath argument: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools = [\*(Aqdefault\*(Aq, \*(Aqfoo\*(Aq], toolpath = [\*(Aqtools\*(Aq]) .fi .if n \{\ .RE .\} .PP This looks for a tool specification in tools/foo\&.py (as well as using the ordinary default tools for the platform)\&. foo\&.py should have two functions: generate(env, **kw) and exists(env)\&. The \fBgenerate()\fR function modifies the passed\-in environment to set up variables so that the tool can be executed; it may use any keyword arguments that the user supplies (see below) to vary its initialization\&. The \fBexists()\fR function should return a true value if the tool is available\&. Tools in the toolpath are used before any of the built\-in ones\&. For example, adding gcc\&.py to the toolpath would override the built\-in gcc tool\&. Also note that the toolpath is stored in the environment for use by later calls to \fBClone\fR() and \fBTool\fR() methods: .sp .if n \{\ .RS 4 .\} .nf base = Environment(toolpath=[\*(Aqcustom_path\*(Aq]) derived = base\&.Clone(tools=[\*(Aqcustom_tool\*(Aq]) derived\&.CustomBuilder() .fi .if n \{\ .RE .\} .PP The elements of the tools list may also be functions or callable objects, in which case the Environment() method will call the specified elements to update the new construction environment: .sp .if n \{\ .RS 4 .\} .nf def my_tool(env): env[\*(AqXYZZY\*(Aq] = \*(Aqxyzzy\*(Aq env = Environment(tools = [my_tool]) .fi .if n \{\ .RE .\} .PP The individual elements of the tools list may also themselves be two\-element lists of the form (\fItoolname\fR, \fIkw_dict\fR)\&. SCons searches for the \fItoolname\fR specification file as described above, and passes \fIkw_dict\fR, which must be a dictionary, as keyword arguments to the tool\*(Aqs \fBgenerate\fR function\&. The \fBgenerate\fR function can use the arguments to modify the tool\*(Aqs behavior by setting up the environment in different ways or otherwise changing its initialization\&. .sp .if n \{\ .RS 4 .\} .nf # in tools/my_tool\&.py: def generate(env, **kw): # Sets MY_TOOL to the value of keyword argument \*(Aqarg1\*(Aq or 1\&. env[\*(AqMY_TOOL\*(Aq] = kw\&.get(\*(Aqarg1\*(Aq, \*(Aq1\*(Aq) def exists(env): return 1 # in SConstruct: env = Environment(tools = [\*(Aqdefault\*(Aq, (\*(Aqmy_tool\*(Aq, {\*(Aqarg1\*(Aq: \*(Aqabc\*(Aq})], toolpath=[\*(Aqtools\*(Aq]) .fi .if n \{\ .RE .\} .PP The tool definition (i\&.e\&. my_tool()) can use the PLATFORM variable from the environment it receives to customize the tool for different platforms\&. .PP If no tool list is specified, then SCons will auto\-detect the installed tools using the PATH variable in the ENV construction variable and the platform name when the Environment is constructed\&. Changing the PATH variable after the Environment is constructed will not cause the tools to be redetected\&. .PP One feature now present within Scons is the ability to have nested tools\&. Tools which can be located within a subdirectory in the toolpath\&. With a nested tool name the dot represents a directory seperator .sp .if n \{\ .RS 4 .\} .nf # namespaced builder env = Environment(ENV = os\&.environ, tools = [\*(AqSubDir1\&.SubDir2\&.SomeTool\*(Aq]) env\&.SomeTool(targets, sources) # Search Paths # SCons\eTool\eSubDir1\eSubDir2\eSomeTool\&.py # SCons\eTool\eSubDir1\eSubDir2\eSomeTool\e__init__\&.py # \&.\esite_scons\esite_tools\eSubDir1\eSubDir2\eSomeTool\&.py # \&.\esite_scons\esite_tools\eSubDir1\eSubDir2\eSomeTool\e__init__\&.py .fi .if n \{\ .RE .\} .PP SCons supports the following tool specifications out of the box: .PP 386asm .RS 4 Sets construction variables for the 386ASM assembler for the Phar Lap ETS embedded operating system\&. .sp Sets: \fB$AS\fR, \fB$ASCOM\fR, \fB$ASFLAGS\fR, \fB$ASPPCOM\fR, \fB$ASPPFLAGS\fR\&. .sp Uses: \fB$CC\fR, \fB$CPPFLAGS\fR, \fB$_CPPDEFFLAGS\fR, \fB$_CPPINCFLAGS\fR\&. .RE .PP aixc++ .RS 4 Sets construction variables for the IMB xlc / Visual Age C++ compiler\&. .sp Sets: \fB$CXX\fR, \fB$CXXVERSION\fR, \fB$SHCXX\fR, \fB$SHOBJSUFFIX\fR\&. .RE .PP aixcc .RS 4 Sets construction variables for the IBM xlc / Visual Age C compiler\&. .sp Sets: \fB$CC\fR, \fB$CCVERSION\fR, \fB$SHCC\fR\&. .RE .PP aixf77 .RS 4 Sets construction variables for the IBM Visual Age f77 Fortran compiler\&. .sp Sets: \fB$F77\fR, \fB$SHF77\fR\&. .RE .PP aixlink .RS 4 Sets construction variables for the IBM Visual Age linker\&. .sp Sets: \fB$LINKFLAGS\fR, \fB$SHLIBSUFFIX\fR, \fB$SHLINKFLAGS\fR\&. .RE .PP applelink .RS 4 Sets construction variables for the Apple linker (similar to the GNU linker)\&. .sp Sets: \fB$FRAMEWORKPATHPREFIX\fR, \fB$LDMODULECOM\fR, \fB$LDMODULEFLAGS\fR, \fB$LDMODULEPREFIX\fR, \fB$LDMODULESUFFIX\fR, \fB$LINKCOM\fR, \fB$SHLINKCOM\fR, \fB$SHLINKFLAGS\fR, \fB$_FRAMEWORKPATH\fR, \fB$_FRAMEWORKS\fR\&. .sp Uses: \fB$FRAMEWORKSFLAGS\fR\&. .RE .PP ar .RS 4 Sets construction variables for the ar library archiver\&. .sp Sets: \fB$AR\fR, \fB$ARCOM\fR, \fB$ARFLAGS\fR, \fB$LIBPREFIX\fR, \fB$LIBSUFFIX\fR, \fB$RANLIB\fR, \fB$RANLIBCOM\fR, \fB$RANLIBFLAGS\fR\&. .RE .PP as .RS 4 Sets construction variables for the as assembler\&. .sp Sets: \fB$AS\fR, \fB$ASCOM\fR, \fB$ASFLAGS\fR, \fB$ASPPCOM\fR, \fB$ASPPFLAGS\fR\&. .sp Uses: \fB$CC\fR, \fB$CPPFLAGS\fR, \fB$_CPPDEFFLAGS\fR, \fB$_CPPINCFLAGS\fR\&. .RE .PP bcc32 .RS 4 Sets construction variables for the bcc32 compiler\&. .sp Sets: \fB$CC\fR, \fB$CCCOM\fR, \fB$CCFLAGS\fR, \fB$CFILESUFFIX\fR, \fB$CFLAGS\fR, \fB$CPPDEFPREFIX\fR, \fB$CPPDEFSUFFIX\fR, \fB$INCPREFIX\fR, \fB$INCSUFFIX\fR, \fB$SHCC\fR, \fB$SHCCCOM\fR, \fB$SHCCFLAGS\fR, \fB$SHCFLAGS\fR, \fB$SHOBJSUFFIX\fR\&. .sp Uses: \fB$_CPPDEFFLAGS\fR, \fB$_CPPINCFLAGS\fR\&. .RE .PP cc .RS 4 Sets construction variables for generic POSIX C copmilers\&. .sp Sets: \fB$CC\fR, \fB$CCCOM\fR, \fB$CCFLAGS\fR, \fB$CFILESUFFIX\fR, \fB$CFLAGS\fR, \fB$CPPDEFPREFIX\fR, \fB$CPPDEFSUFFIX\fR, \fB$FRAMEWORKPATH\fR, \fB$FRAMEWORKS\fR, \fB$INCPREFIX\fR, \fB$INCSUFFIX\fR, \fB$SHCC\fR, \fB$SHCCCOM\fR, \fB$SHCCFLAGS\fR, \fB$SHCFLAGS\fR, \fB$SHOBJSUFFIX\fR\&. .sp Uses: \fB$PLATFORM\fR\&. .RE .PP clang .RS 4 Set construction variables for the Clang C compiler\&. .sp Sets: \fB$CC\fR, \fB$CCVERSION\fR, \fB$SHCCFLAGS\fR\&. .RE .PP clangxx .RS 4 Set construction variables for the Clang C++ compiler\&. .sp Sets: \fB$CXX\fR, \fB$CXXVERSION\fR, \fB$SHCXXFLAGS\fR, \fB$SHOBJSUFFIX\fR, \fB$STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME\fR\&. .RE .PP cvf .RS 4 Sets construction variables for the Compaq Visual Fortran compiler\&. .sp Sets: \fB$FORTRAN\fR, \fB$FORTRANCOM\fR, \fB$FORTRANMODDIR\fR, \fB$FORTRANMODDIRPREFIX\fR, \fB$FORTRANMODDIRSUFFIX\fR, \fB$FORTRANPPCOM\fR, \fB$OBJSUFFIX\fR, \fB$SHFORTRANCOM\fR, \fB$SHFORTRANPPCOM\fR\&. .sp Uses: \fB$CPPFLAGS\fR, \fB$FORTRANFLAGS\fR, \fB$SHFORTRANFLAGS\fR, \fB$_CPPDEFFLAGS\fR, \fB$_FORTRANINCFLAGS\fR, \fB$_FORTRANMODFLAG\fR\&. .RE .PP cXX .RS 4 Sets construction variables for generic POSIX C++ compilers\&. .sp Sets: \fB$CPPDEFPREFIX\fR, \fB$CPPDEFSUFFIX\fR, \fB$CXX\fR, \fB$CXXCOM\fR, \fB$CXXFILESUFFIX\fR, \fB$CXXFLAGS\fR, \fB$INCPREFIX\fR, \fB$INCSUFFIX\fR, \fB$OBJSUFFIX\fR, \fB$SHCXX\fR, \fB$SHCXXCOM\fR, \fB$SHCXXFLAGS\fR, \fB$SHOBJSUFFIX\fR\&. .sp Uses: \fB$CXXCOMSTR\fR\&. .RE .PP cyglink .RS 4 Set construction variables for cygwin linker/loader\&. .sp Sets: \fB$IMPLIBPREFIX\fR, \fB$IMPLIBSUFFIX\fR, \fB$LDMODULEVERSIONFLAGS\fR, \fB$LINKFLAGS\fR, \fB$RPATHPREFIX\fR, \fB$RPATHSUFFIX\fR, \fB$SHLIBPREFIX\fR, \fB$SHLIBSUFFIX\fR, \fB$SHLIBVERSIONFLAGS\fR, \fB$SHLINKCOM\fR, \fB$SHLINKFLAGS\fR, \fB$_LDMODULEVERSIONFLAGS\fR, \fB$_SHLIBVERSIONFLAGS\fR\&. .RE .PP default .RS 4 Sets variables by calling a default list of Tool modules for the platform on which SCons is running\&. .RE .PP dmd .RS 4 Sets construction variables for D language compiler DMD\&. .sp Sets: \fB$DC\fR, \fB$DCOM\fR, \fB$DDEBUG\fR, \fB$DDEBUGPREFIX\fR, \fB$DDEBUGSUFFIX\fR, \fB$DFILESUFFIX\fR, \fB$DFLAGPREFIX\fR, \fB$DFLAGS\fR, \fB$DFLAGSUFFIX\fR, \fB$DINCPREFIX\fR, \fB$DINCSUFFIX\fR, \fB$DLIB\fR, \fB$DLIBCOM\fR, \fB$DLIBDIRPREFIX\fR, \fB$DLIBDIRSUFFIX\fR, \fB$DLIBFLAGPREFIX\fR, \fB$DLIBFLAGSUFFIX\fR, \fB$DLIBLINKPREFIX\fR, \fB$DLIBLINKSUFFIX\fR, \fB$DLINK\fR, \fB$DLINKCOM\fR, \fB$DLINKFLAGPREFIX\fR, \fB$DLINKFLAGS\fR, \fB$DLINKFLAGSUFFIX\fR, \fB$DPATH\fR, \fB$DRPATHPREFIX\fR, \fB$DRPATHSUFFIX\fR, \fB$DShLibSonameGenerator\fR, \fB$DVERPREFIX\fR, \fB$DVERSIONS\fR, \fB$DVERSUFFIX\fR, \fB$SHDC\fR, \fB$SHDCOM\fR, \fB$SHDLIBVERSION\fR, \fB$SHDLIBVERSIONFLAGS\fR, \fB$SHDLINK\fR, \fB$SHDLINKCOM\fR, \fB$SHDLINKFLAGS\fR\&. .RE .PP docbook .RS 4 This tool tries to make working with Docbook in SCons a little easier\&. It provides several toolchains for creating different output formats, like HTML or PDF\&. Contained in the package is a distribution of the Docbook XSL stylesheets as of version 1\&.76\&.1\&. As long as you don\*(Aqt specify your own stylesheets for customization, these official versions are picked as default\&.\&.\&.which should reduce the inevitable setup hassles for you\&. .sp Implicit dependencies to images and XIncludes are detected automatically if you meet the HTML requirements\&. The additional stylesheet utils/xmldepend\&.xsl by Paul DuBois is used for this purpose\&. .sp Note, that there is no support for XML catalog resolving offered! This tool calls the XSLT processors and PDF renderers with the stylesheets you specified, that\*(Aqs it\&. The rest lies in your hands and you still have to know what you\*(Aqre doing when resolving names via a catalog\&. .sp For activating the tool "docbook", you have to add its name to the Environment constructor, like this .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) .fi .if n \{\ .RE .\} .sp On its startup, the Docbook tool tries to find a required xsltproc processor, and a PDF renderer, e\&.g\&. fop\&. So make sure that these are added to your system\*(Aqs environment PATH and can be called directly, without specifying their full path\&. .sp For the most basic processing of Docbook to HTML, you need to have installed .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} the Python lxml binding to libxml2, or .RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} the direct Python bindings for libxml2/libxslt, or .RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} a standalone XSLT processor, currently detected are xsltproc, saxon, saxon\-xslt and xalan\&. .RE .sp Rendering to PDF requires you to have one of the applications fop or xep installed\&. .sp Creating a HTML or PDF document is very simple and straightforward\&. Say .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtml(\*(Aqmanual\&.html\*(Aq, \*(Aqmanual\&.xml\*(Aq) env\&.DocbookPdf(\*(Aqmanual\&.pdf\*(Aq, \*(Aqmanual\&.xml\*(Aq) .fi .if n \{\ .RE .\} .sp to get both outputs from your XML source manual\&.xml\&. As a shortcut, you can give the stem of the filenames alone, like this: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtml(\*(Aqmanual\*(Aq) env\&.DocbookPdf(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .sp and get the same result\&. Target and source lists are also supported: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtml([\*(Aqmanual\&.html\*(Aq,\*(Aqreference\&.html\*(Aq], [\*(Aqmanual\&.xml\*(Aq,\*(Aqreference\&.xml\*(Aq]) .fi .if n \{\ .RE .\} .sp or even .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtml([\*(Aqmanual\*(Aq,\*(Aqreference\*(Aq]) .fi .if n \{\ .RE .\} .sp .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBImportant\fR .ps -1 .br Whenever you leave out the list of sources, you may not specify a file extension! The Tool uses the given names as file stems, and adds the suffixes for target and source files accordingly\&. .sp .5v .RE The rules given above are valid for the Builders \fBDocbookHtml\fR, \fBDocbookPdf\fR, \fBDocbookEpub\fR, \fBDocbookSlidesPdf\fR and \fBDocbookXInclude\fR\&. For the \fBDocbookMan\fR transformation you can specify a target name, but the actual output names are automatically set from the refname entries in your XML source\&. .sp The Builders \fBDocbookHtmlChunked\fR, \fBDocbookHtmlhelp\fR and \fBDocbookSlidesHtml\fR are special, in that: .sp .RS 4 .ie n \{\ \h'-04' 1.\h'+01'\c .\} .el \{\ .sp -1 .IP " 1." 4.2 .\} they create a large set of files, where the exact names and their number depend on the content of the source file, and .RE .sp .RS 4 .ie n \{\ \h'-04' 2.\h'+01'\c .\} .el \{\ .sp -1 .IP " 2." 4.2 .\} the main target is always named index\&.html, i\&.e\&. the output name for the XSL transformation is not picked up by the stylesheets\&. .RE .sp As a result, there is simply no use in specifying a target HTML name\&. So the basic syntax for these builders is always: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtmlhelp(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .sp If you want to use a specific XSL file, you can set the additional xsl parameter to your Builder call as follows: .sp .if n \{\ .RS 4 .\} .nf env\&.DocbookHtml(\*(Aqother\&.html\*(Aq, \*(Aqmanual\&.xml\*(Aq, xsl=\*(Aqhtml\&.xsl\*(Aq) .fi .if n \{\ .RE .\} .sp Since this may get tedious if you always use the same local naming for your customized XSL files, e\&.g\&. html\&.xsl for HTML and pdf\&.xsl for PDF output, a set of variables for setting the default XSL name is provided\&. These are: .sp .if n \{\ .RS 4 .\} .nf DOCBOOK_DEFAULT_XSL_HTML DOCBOOK_DEFAULT_XSL_HTMLCHUNKED DOCBOOK_DEFAULT_XSL_HTMLHELP DOCBOOK_DEFAULT_XSL_PDF DOCBOOK_DEFAULT_XSL_EPUB DOCBOOK_DEFAULT_XSL_MAN DOCBOOK_DEFAULT_XSL_SLIDESPDF DOCBOOK_DEFAULT_XSL_SLIDESHTML .fi .if n \{\ .RE .\} .sp and you can set them when constructing your environment: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq], DOCBOOK_DEFAULT_XSL_HTML=\*(Aqhtml\&.xsl\*(Aq, DOCBOOK_DEFAULT_XSL_PDF=\*(Aqpdf\&.xsl\*(Aq) env\&.DocbookHtml(\*(Aqmanual\*(Aq) # now uses html\&.xsl .fi .if n \{\ .RE .\} .sp Sets: \fB$DOCBOOK_DEFAULT_XSL_EPUB\fR, \fB$DOCBOOK_DEFAULT_XSL_HTML\fR, \fB$DOCBOOK_DEFAULT_XSL_HTMLCHUNKED\fR, \fB$DOCBOOK_DEFAULT_XSL_HTMLHELP\fR, \fB$DOCBOOK_DEFAULT_XSL_MAN\fR, \fB$DOCBOOK_DEFAULT_XSL_PDF\fR, \fB$DOCBOOK_DEFAULT_XSL_SLIDESHTML\fR, \fB$DOCBOOK_DEFAULT_XSL_SLIDESPDF\fR, \fB$DOCBOOK_FOP\fR, \fB$DOCBOOK_FOPCOM\fR, \fB$DOCBOOK_FOPFLAGS\fR, \fB$DOCBOOK_XMLLINT\fR, \fB$DOCBOOK_XMLLINTCOM\fR, \fB$DOCBOOK_XMLLINTFLAGS\fR, \fB$DOCBOOK_XSLTPROC\fR, \fB$DOCBOOK_XSLTPROCCOM\fR, \fB$DOCBOOK_XSLTPROCFLAGS\fR, \fB$DOCBOOK_XSLTPROCPARAMS\fR\&. .sp Uses: \fB$DOCBOOK_FOPCOMSTR\fR, \fB$DOCBOOK_XMLLINTCOMSTR\fR, \fB$DOCBOOK_XSLTPROCCOMSTR\fR\&. .RE .PP dvi .RS 4 Attaches the \fBDVI\fR builder to the construction environment\&. .RE .PP dvipdf .RS 4 Sets construction variables for the dvipdf utility\&. .sp Sets: \fB$DVIPDF\fR, \fB$DVIPDFCOM\fR, \fB$DVIPDFFLAGS\fR\&. .sp Uses: \fB$DVIPDFCOMSTR\fR\&. .RE .PP dvips .RS 4 Sets construction variables for the dvips utility\&. .sp Sets: \fB$DVIPS\fR, \fB$DVIPSFLAGS\fR, \fB$PSCOM\fR, \fB$PSPREFIX\fR, \fB$PSSUFFIX\fR\&. .sp Uses: \fB$PSCOMSTR\fR\&. .RE .PP f03 .RS 4 Set construction variables for generic POSIX Fortran 03 compilers\&. .sp Sets: \fB$F03\fR, \fB$F03COM\fR, \fB$F03FLAGS\fR, \fB$F03PPCOM\fR, \fB$SHF03\fR, \fB$SHF03COM\fR, \fB$SHF03FLAGS\fR, \fB$SHF03PPCOM\fR, \fB$_F03INCFLAGS\fR\&. .sp Uses: \fB$F03COMSTR\fR, \fB$F03PPCOMSTR\fR, \fB$SHF03COMSTR\fR, \fB$SHF03PPCOMSTR\fR\&. .RE .PP f08 .RS 4 Set construction variables for generic POSIX Fortran 08 compilers\&. .sp Sets: \fB$F08\fR, \fB$F08COM\fR, \fB$F08FLAGS\fR, \fB$F08PPCOM\fR, \fB$SHF08\fR, \fB$SHF08COM\fR, \fB$SHF08FLAGS\fR, \fB$SHF08PPCOM\fR, \fB$_F08INCFLAGS\fR\&. .sp Uses: \fB$F08COMSTR\fR, \fB$F08PPCOMSTR\fR, \fB$SHF08COMSTR\fR, \fB$SHF08PPCOMSTR\fR\&. .RE .PP f77 .RS 4 Set construction variables for generic POSIX Fortran 77 compilers\&. .sp Sets: \fB$F77\fR, \fB$F77COM\fR, \fB$F77FILESUFFIXES\fR, \fB$F77FLAGS\fR, \fB$F77PPCOM\fR, \fB$F77PPFILESUFFIXES\fR, \fB$FORTRAN\fR, \fB$FORTRANCOM\fR, \fB$FORTRANFLAGS\fR, \fB$SHF77\fR, \fB$SHF77COM\fR, \fB$SHF77FLAGS\fR, \fB$SHF77PPCOM\fR, \fB$SHFORTRAN\fR, \fB$SHFORTRANCOM\fR, \fB$SHFORTRANFLAGS\fR, \fB$SHFORTRANPPCOM\fR, \fB$_F77INCFLAGS\fR\&. .sp Uses: \fB$F77COMSTR\fR, \fB$F77PPCOMSTR\fR, \fB$FORTRANCOMSTR\fR, \fB$FORTRANPPCOMSTR\fR, \fB$SHF77COMSTR\fR, \fB$SHF77PPCOMSTR\fR, \fB$SHFORTRANCOMSTR\fR, \fB$SHFORTRANPPCOMSTR\fR\&. .RE .PP f90 .RS 4 Set construction variables for generic POSIX Fortran 90 compilers\&. .sp Sets: \fB$F90\fR, \fB$F90COM\fR, \fB$F90FLAGS\fR, \fB$F90PPCOM\fR, \fB$SHF90\fR, \fB$SHF90COM\fR, \fB$SHF90FLAGS\fR, \fB$SHF90PPCOM\fR, \fB$_F90INCFLAGS\fR\&. .sp Uses: \fB$F90COMSTR\fR, \fB$F90PPCOMSTR\fR, \fB$SHF90COMSTR\fR, \fB$SHF90PPCOMSTR\fR\&. .RE .PP f95 .RS 4 Set construction variables for generic POSIX Fortran 95 compilers\&. .sp Sets: \fB$F95\fR, \fB$F95COM\fR, \fB$F95FLAGS\fR, \fB$F95PPCOM\fR, \fB$SHF95\fR, \fB$SHF95COM\fR, \fB$SHF95FLAGS\fR, \fB$SHF95PPCOM\fR, \fB$_F95INCFLAGS\fR\&. .sp Uses: \fB$F95COMSTR\fR, \fB$F95PPCOMSTR\fR, \fB$SHF95COMSTR\fR, \fB$SHF95PPCOMSTR\fR\&. .RE .PP fortran .RS 4 Set construction variables for generic POSIX Fortran compilers\&. .sp Sets: \fB$FORTRAN\fR, \fB$FORTRANCOM\fR, \fB$FORTRANFLAGS\fR, \fB$SHFORTRAN\fR, \fB$SHFORTRANCOM\fR, \fB$SHFORTRANFLAGS\fR, \fB$SHFORTRANPPCOM\fR\&. .sp Uses: \fB$FORTRANCOMSTR\fR, \fB$FORTRANPPCOMSTR\fR, \fB$SHFORTRANCOMSTR\fR, \fB$SHFORTRANPPCOMSTR\fR\&. .RE .PP g++ .RS 4 Set construction variables for the gXX C++ compiler\&. .sp Sets: \fB$CXX\fR, \fB$CXXVERSION\fR, \fB$SHCXXFLAGS\fR, \fB$SHOBJSUFFIX\fR\&. .RE .PP g77 .RS 4 Set construction variables for the g77 Fortran compiler\&. Calls the f77 Tool module to set variables\&. .RE .PP gas .RS 4 Sets construction variables for the gas assembler\&. Calls the as module\&. .sp Sets: \fB$AS\fR\&. .RE .PP gcc .RS 4 Set construction variables for the gcc C compiler\&. .sp Sets: \fB$CC\fR, \fB$CCVERSION\fR, \fB$SHCCFLAGS\fR\&. .RE .PP gdc .RS 4 Sets construction variables for the D language compiler GDC\&. .sp Sets: \fB$DC\fR, \fB$DCOM\fR, \fB$DDEBUG\fR, \fB$DDEBUGPREFIX\fR, \fB$DDEBUGSUFFIX\fR, \fB$DFILESUFFIX\fR, \fB$DFLAGPREFIX\fR, \fB$DFLAGS\fR, \fB$DFLAGSUFFIX\fR, \fB$DINCPREFIX\fR, \fB$DINCSUFFIX\fR, \fB$DLIB\fR, \fB$DLIBCOM\fR, \fB$DLIBDIRPREFIX\fR, \fB$DLIBDIRSUFFIX\fR, \fB$DLIBFLAGPREFIX\fR, \fB$DLIBFLAGSUFFIX\fR, \fB$DLIBLINKPREFIX\fR, \fB$DLIBLINKSUFFIX\fR, \fB$DLINK\fR, \fB$DLINKCOM\fR, \fB$DLINKFLAGPREFIX\fR, \fB$DLINKFLAGS\fR, \fB$DLINKFLAGSUFFIX\fR, \fB$DPATH\fR, \fB$DRPATHPREFIX\fR, \fB$DRPATHSUFFIX\fR, \fB$DShLibSonameGenerator\fR, \fB$DVERPREFIX\fR, \fB$DVERSIONS\fR, \fB$DVERSUFFIX\fR, \fB$SHDC\fR, \fB$SHDCOM\fR, \fB$SHDLIBVERSION\fR, \fB$SHDLIBVERSIONFLAGS\fR, \fB$SHDLINK\fR, \fB$SHDLINKCOM\fR, \fB$SHDLINKFLAGS\fR\&. .RE .PP gettext .RS 4 This is actually a toolset, which supports internationalization and localization of software being constructed with SCons\&. The toolset loads following tools: .sp .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} xgettext \- to extract internationalized messages from source code to POT file(s), .RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} msginit \- may be optionally used to initialize PO files, .RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} msgmerge \- to update PO files, that already contain translated messages, .RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} msgfmt \- to compile textual PO file to binary installable MO file\&. .RE .sp When you enable gettext, it internally loads all abovementioned tools, so you\*(Aqre encouraged to see their individual documentation\&. .sp Each of the above tools provides its own builder(s) which may be used to perform particular activities related to software internationalization\&. You may be however interested in \fItop\-level\fR builder \fBTranslate\fR described few paragraphs later\&. .sp To use gettext tools add \*(Aqgettext\*(Aq tool to your environment: .sp .if n \{\ .RS 4 .\} .nf env = Environment( tools = [\*(Aqdefault\*(Aq, \*(Aqgettext\*(Aq] ) .fi .if n \{\ .RE .\} .RE .PP gfortran .RS 4 Sets construction variables for the GNU F95/F2003 GNU compiler\&. .sp Sets: \fB$F77\fR, \fB$F90\fR, \fB$F95\fR, \fB$FORTRAN\fR, \fB$SHF77\fR, \fB$SHF77FLAGS\fR, \fB$SHF90\fR, \fB$SHF90FLAGS\fR, \fB$SHF95\fR, \fB$SHF95FLAGS\fR, \fB$SHFORTRAN\fR, \fB$SHFORTRANFLAGS\fR\&. .RE .PP gnulink .RS 4 Set construction variables for GNU linker/loader\&. .sp Sets: \fB$LDMODULEVERSIONFLAGS\fR, \fB$RPATHPREFIX\fR, \fB$RPATHSUFFIX\fR, \fB$SHLIBVERSIONFLAGS\fR, \fB$SHLINKFLAGS\fR, \fB$_LDMODULESONAME\fR, \fB$_SHLIBSONAME\fR\&. .RE .PP gs .RS 4 This Tool sets the required construction variables for working with the Ghostscript command\&. It also registers an appropriate Action with the PDF Builder (\fBPDF\fR), such that the conversion from PS/EPS to PDF happens automatically for the TeX/LaTeX toolchain\&. Finally, it adds an explicit Ghostscript Builder (\fBGs\fR) to the environment\&. .sp Sets: \fB$GS\fR, \fB$GSCOM\fR, \fB$GSFLAGS\fR\&. .sp Uses: \fB$GSCOMSTR\fR\&. .RE .PP hpc++ .RS 4 Set construction variables for the compilers aCC on HP/UX systems\&. .RE .PP hpcc .RS 4 Set construction variables for the aCC on HP/UX systems\&. Calls the cXX tool for additional variables\&. .sp Sets: \fB$CXX\fR, \fB$CXXVERSION\fR, \fB$SHCXXFLAGS\fR\&. .RE .PP hplink .RS 4 Sets construction variables for the linker on HP/UX systems\&. .sp Sets: \fB$LINKFLAGS\fR, \fB$SHLIBSUFFIX\fR, \fB$SHLINKFLAGS\fR\&. .RE .PP icc .RS 4 Sets construction variables for the icc compiler on OS/2 systems\&. .sp Sets: \fB$CC\fR, \fB$CCCOM\fR, \fB$CFILESUFFIX\fR, \fB$CPPDEFPREFIX\fR, \fB$CPPDEFSUFFIX\fR, \fB$CXXCOM\fR, \fB$CXXFILESUFFIX\fR, \fB$INCPREFIX\fR, \fB$INCSUFFIX\fR\&. .sp Uses: \fB$CCFLAGS\fR, \fB$CFLAGS\fR, \fB$CPPFLAGS\fR, \fB$_CPPDEFFLAGS\fR, \fB$_CPPINCFLAGS\fR\&. .RE .PP icl .RS 4 Sets construction variables for the Intel C/C++ compiler\&. Calls the intelc Tool module to set its variables\&. .RE .PP ifl .RS 4 Sets construction variables for the Intel Fortran compiler\&. .sp Sets: \fB$FORTRAN\fR, \fB$FORTRANCOM\fR, \fB$FORTRANPPCOM\fR, \fB$SHFORTRANCOM\fR, \fB$SHFORTRANPPCOM\fR\&. .sp Uses: \fB$CPPFLAGS\fR, \fB$FORTRANFLAGS\fR, \fB$_CPPDEFFLAGS\fR, \fB$_FORTRANINCFLAGS\fR\&. .RE .PP ifort .RS 4 Sets construction variables for newer versions of the Intel Fortran compiler for Linux\&. .sp Sets: \fB$F77\fR, \fB$F90\fR, \fB$F95\fR, \fB$FORTRAN\fR, \fB$SHF77\fR, \fB$SHF77FLAGS\fR, \fB$SHF90\fR, \fB$SHF90FLAGS\fR, \fB$SHF95\fR, \fB$SHF95FLAGS\fR, \fB$SHFORTRAN\fR, \fB$SHFORTRANFLAGS\fR\&. .RE .PP ilink .RS 4 Sets construction variables for the ilink linker on OS/2 systems\&. .sp Sets: \fB$LIBDIRPREFIX\fR, \fB$LIBDIRSUFFIX\fR, \fB$LIBLINKPREFIX\fR, \fB$LIBLINKSUFFIX\fR, \fB$LINK\fR, \fB$LINKCOM\fR, \fB$LINKFLAGS\fR\&. .RE .PP ilink32 .RS 4 Sets construction variables for the Borland ilink32 linker\&. .sp Sets: \fB$LIBDIRPREFIX\fR, \fB$LIBDIRSUFFIX\fR, \fB$LIBLINKPREFIX\fR, \fB$LIBLINKSUFFIX\fR, \fB$LINK\fR, \fB$LINKCOM\fR, \fB$LINKFLAGS\fR\&. .RE .PP install .RS 4 Sets construction variables for file and directory installation\&. .sp Sets: \fB$INSTALL\fR, \fB$INSTALLSTR\fR\&. .RE .PP intelc .RS 4 Sets construction variables for the Intel C/C++ compiler (Linux and Windows, version 7 and later)\&. Calls the gcc or msvc (on Linux and Windows, respectively) to set underlying variables\&. .sp Sets: \fB$AR\fR, \fB$CC\fR, \fB$CXX\fR, \fB$INTEL_C_COMPILER_VERSION\fR, \fB$LINK\fR\&. .RE .PP jar .RS 4 Sets construction variables for the jar utility\&. .sp Sets: \fB$JAR\fR, \fB$JARCOM\fR, \fB$JARFLAGS\fR, \fB$JARSUFFIX\fR\&. .sp Uses: \fB$JARCOMSTR\fR\&. .RE .PP javac .RS 4 Sets construction variables for the javac compiler\&. .sp Sets: \fB$JAVABOOTCLASSPATH\fR, \fB$JAVAC\fR, \fB$JAVACCOM\fR, \fB$JAVACFLAGS\fR, \fB$JAVACLASSPATH\fR, \fB$JAVACLASSSUFFIX\fR, \fB$JAVASOURCEPATH\fR, \fB$JAVASUFFIX\fR\&. .sp Uses: \fB$JAVACCOMSTR\fR\&. .RE .PP javah .RS 4 Sets construction variables for the javah tool\&. .sp Sets: \fB$JAVACLASSSUFFIX\fR, \fB$JAVAH\fR, \fB$JAVAHCOM\fR, \fB$JAVAHFLAGS\fR\&. .sp Uses: \fB$JAVACLASSPATH\fR, \fB$JAVAHCOMSTR\fR\&. .RE .PP latex .RS 4 Sets construction variables for the latex utility\&. .sp Sets: \fB$LATEX\fR, \fB$LATEXCOM\fR, \fB$LATEXFLAGS\fR\&. .sp Uses: \fB$LATEXCOMSTR\fR\&. .RE .PP ldc .RS 4 Sets construction variables for the D language compiler LDC2\&. .sp Sets: \fB$DC\fR, \fB$DCOM\fR, \fB$DDEBUG\fR, \fB$DDEBUGPREFIX\fR, \fB$DDEBUGSUFFIX\fR, \fB$DFILESUFFIX\fR, \fB$DFLAGPREFIX\fR, \fB$DFLAGS\fR, \fB$DFLAGSUFFIX\fR, \fB$DINCPREFIX\fR, \fB$DINCSUFFIX\fR, \fB$DLIB\fR, \fB$DLIBCOM\fR, \fB$DLIBDIRPREFIX\fR, \fB$DLIBDIRSUFFIX\fR, \fB$DLIBFLAGPREFIX\fR, \fB$DLIBFLAGSUFFIX\fR, \fB$DLIBLINKPREFIX\fR, \fB$DLIBLINKSUFFIX\fR, \fB$DLINK\fR, \fB$DLINKCOM\fR, \fB$DLINKFLAGPREFIX\fR, \fB$DLINKFLAGS\fR, \fB$DLINKFLAGSUFFIX\fR, \fB$DPATH\fR, \fB$DRPATHPREFIX\fR, \fB$DRPATHSUFFIX\fR, \fB$DShLibSonameGenerator\fR, \fB$DVERPREFIX\fR, \fB$DVERSIONS\fR, \fB$DVERSUFFIX\fR, \fB$SHDC\fR, \fB$SHDCOM\fR, \fB$SHDLIBVERSION\fR, \fB$SHDLIBVERSIONFLAGS\fR, \fB$SHDLINK\fR, \fB$SHDLINKCOM\fR, \fB$SHDLINKFLAGS\fR\&. .RE .PP lex .RS 4 Sets construction variables for the lex lexical analyser\&. .sp Sets: \fB$LEX\fR, \fB$LEXCOM\fR, \fB$LEXFLAGS\fR\&. .sp Uses: \fB$LEXCOMSTR\fR\&. .RE .PP link .RS 4 Sets construction variables for generic POSIX linkers\&. .sp Sets: \fB$LDMODULE\fR, \fB$LDMODULECOM\fR, \fB$LDMODULEFLAGS\fR, \fB$LDMODULENOVERSIONSYMLINKS\fR, \fB$LDMODULEPREFIX\fR, \fB$LDMODULESUFFIX\fR, \fB$LDMODULEVERSION\fR, \fB$LDMODULEVERSIONFLAGS\fR, \fB$LIBDIRPREFIX\fR, \fB$LIBDIRSUFFIX\fR, \fB$LIBLINKPREFIX\fR, \fB$LIBLINKSUFFIX\fR, \fB$LINK\fR, \fB$LINKCOM\fR, \fB$LINKFLAGS\fR, \fB$SHLIBSUFFIX\fR, \fB$SHLINK\fR, \fB$SHLINKCOM\fR, \fB$SHLINKFLAGS\fR, \fB$__LDMODULEVERSIONFLAGS\fR, \fB$__SHLIBVERSIONFLAGS\fR\&. .sp Uses: \fB$LDMODULECOMSTR\fR, \fB$LINKCOMSTR\fR, \fB$SHLINKCOMSTR\fR\&. .RE .PP linkloc .RS 4 Sets construction variables for the LinkLoc linker for the Phar Lap ETS embedded operating system\&. .sp Sets: \fB$LIBDIRPREFIX\fR, \fB$LIBDIRSUFFIX\fR, \fB$LIBLINKPREFIX\fR, \fB$LIBLINKSUFFIX\fR, \fB$LINK\fR, \fB$LINKCOM\fR, \fB$LINKFLAGS\fR, \fB$SHLINK\fR, \fB$SHLINKCOM\fR, \fB$SHLINKFLAGS\fR\&. .sp Uses: \fB$LINKCOMSTR\fR, \fB$SHLINKCOMSTR\fR\&. .RE .PP m4 .RS 4 Sets construction variables for the m4 macro processor\&. .sp Sets: \fB$M4\fR, \fB$M4COM\fR, \fB$M4FLAGS\fR\&. .sp Uses: \fB$M4COMSTR\fR\&. .RE .PP masm .RS 4 Sets construction variables for the Microsoft assembler\&. .sp Sets: \fB$AS\fR, \fB$ASCOM\fR, \fB$ASFLAGS\fR, \fB$ASPPCOM\fR, \fB$ASPPFLAGS\fR\&. .sp Uses: \fB$ASCOMSTR\fR, \fB$ASPPCOMSTR\fR, \fB$CPPFLAGS\fR, \fB$_CPPDEFFLAGS\fR, \fB$_CPPINCFLAGS\fR\&. .RE .PP midl .RS 4 Sets construction variables for the Microsoft IDL compiler\&. .sp Sets: \fB$MIDL\fR, \fB$MIDLCOM\fR, \fB$MIDLFLAGS\fR\&. .sp Uses: \fB$MIDLCOMSTR\fR\&. .RE .PP mingw .RS 4 Sets construction variables for MinGW (Minimal Gnu on Windows)\&. .sp Sets: \fB$AS\fR, \fB$CC\fR, \fB$CXX\fR, \fB$LDMODULECOM\fR, \fB$LIBPREFIX\fR, \fB$LIBSUFFIX\fR, \fB$OBJSUFFIX\fR, \fB$RC\fR, \fB$RCCOM\fR, \fB$RCFLAGS\fR, \fB$RCINCFLAGS\fR, \fB$RCINCPREFIX\fR, \fB$RCINCSUFFIX\fR, \fB$SHCCFLAGS\fR, \fB$SHCXXFLAGS\fR, \fB$SHLINKCOM\fR, \fB$SHLINKFLAGS\fR, \fB$SHOBJSUFFIX\fR, \fB$WINDOWSDEFPREFIX\fR, \fB$WINDOWSDEFSUFFIX\fR\&. .sp Uses: \fB$RCCOMSTR\fR, \fB$SHLINKCOMSTR\fR\&. .RE .PP msgfmt .RS 4 This scons tool is a part of scons gettext toolset\&. It provides scons interface to \fBmsgfmt(1)\fR command, which generates binary message catalog (MO) from a textual translation description (PO)\&. .sp Sets: \fB$MOSUFFIX\fR, \fB$MSGFMT\fR, \fB$MSGFMTCOM\fR, \fB$MSGFMTCOMSTR\fR, \fB$MSGFMTFLAGS\fR, \fB$POSUFFIX\fR\&. .sp Uses: \fB$LINGUAS_FILE\fR\&. .RE .PP msginit .RS 4 This scons tool is a part of scons gettext toolset\&. It provides scons interface to \fBmsginit(1)\fR program, which creates new PO file, initializing the meta information with values from user\*(Aqs environment (or options)\&. .sp Sets: \fB$MSGINIT\fR, \fB$MSGINITCOM\fR, \fB$MSGINITCOMSTR\fR, \fB$MSGINITFLAGS\fR, \fB$POAUTOINIT\fR, \fB$POCREATE_ALIAS\fR, \fB$POSUFFIX\fR, \fB$POTSUFFIX\fR, \fB$_MSGINITLOCALE\fR\&. .sp Uses: \fB$LINGUAS_FILE\fR, \fB$POAUTOINIT\fR, \fB$POTDOMAIN\fR\&. .RE .PP msgmerge .RS 4 This scons tool is a part of scons gettext toolset\&. It provides scons interface to \fBmsgmerge(1)\fR command, which merges two Uniform style \&.po files together\&. .sp Sets: \fB$MSGMERGE\fR, \fB$MSGMERGECOM\fR, \fB$MSGMERGECOMSTR\fR, \fB$MSGMERGEFLAGS\fR, \fB$POSUFFIX\fR, \fB$POTSUFFIX\fR, \fB$POUPDATE_ALIAS\fR\&. .sp Uses: \fB$LINGUAS_FILE\fR, \fB$POAUTOINIT\fR, \fB$POTDOMAIN\fR\&. .RE .PP mslib .RS 4 Sets construction variables for the Microsoft mslib library archiver\&. .sp Sets: \fB$AR\fR, \fB$ARCOM\fR, \fB$ARFLAGS\fR, \fB$LIBPREFIX\fR, \fB$LIBSUFFIX\fR\&. .sp Uses: \fB$ARCOMSTR\fR\&. .RE .PP mslink .RS 4 Sets construction variables for the Microsoft linker\&. .sp Sets: \fB$LDMODULE\fR, \fB$LDMODULECOM\fR, \fB$LDMODULEFLAGS\fR, \fB$LDMODULEPREFIX\fR, \fB$LDMODULESUFFIX\fR, \fB$LIBDIRPREFIX\fR, \fB$LIBDIRSUFFIX\fR, \fB$LIBLINKPREFIX\fR, \fB$LIBLINKSUFFIX\fR, \fB$LINK\fR, \fB$LINKCOM\fR, \fB$LINKFLAGS\fR, \fB$REGSVR\fR, \fB$REGSVRCOM\fR, \fB$REGSVRFLAGS\fR, \fB$SHLINK\fR, \fB$SHLINKCOM\fR, \fB$SHLINKFLAGS\fR, \fB$WIN32DEFPREFIX\fR, \fB$WIN32DEFSUFFIX\fR, \fB$WIN32EXPPREFIX\fR, \fB$WIN32EXPSUFFIX\fR, \fB$WINDOWSDEFPREFIX\fR, \fB$WINDOWSDEFSUFFIX\fR, \fB$WINDOWSEXPPREFIX\fR, \fB$WINDOWSEXPSUFFIX\fR, \fB$WINDOWSPROGMANIFESTPREFIX\fR, \fB$WINDOWSPROGMANIFESTSUFFIX\fR, \fB$WINDOWSSHLIBMANIFESTPREFIX\fR, \fB$WINDOWSSHLIBMANIFESTSUFFIX\fR, \fB$WINDOWS_INSERT_DEF\fR\&. .sp Uses: \fB$LDMODULECOMSTR\fR, \fB$LINKCOMSTR\fR, \fB$REGSVRCOMSTR\fR, \fB$SHLINKCOMSTR\fR\&. .RE .PP mssdk .RS 4 Sets variables for Microsoft Platform SDK and/or Windows SDK\&. Note that unlike most other Tool modules, mssdk does not set construction variables, but sets the \fIenvironment variables\fR in the environment SCons uses to execute the Microsoft toolchain: %INCLUDE%, %LIB%, %LIBPATH% and %PATH%\&. .sp Uses: \fB$MSSDK_DIR\fR, \fB$MSSDK_VERSION\fR, \fB$MSVS_VERSION\fR\&. .RE .PP msvc .RS 4 Sets construction variables for the Microsoft Visual C/C++ compiler\&. .sp Sets: \fB$BUILDERS\fR, \fB$CC\fR, \fB$CCCOM\fR, \fB$CCFLAGS\fR, \fB$CCPCHFLAGS\fR, \fB$CCPDBFLAGS\fR, \fB$CFILESUFFIX\fR, \fB$CFLAGS\fR, \fB$CPPDEFPREFIX\fR, \fB$CPPDEFSUFFIX\fR, \fB$CXX\fR, \fB$CXXCOM\fR, \fB$CXXFILESUFFIX\fR, \fB$CXXFLAGS\fR, \fB$INCPREFIX\fR, \fB$INCSUFFIX\fR, \fB$OBJPREFIX\fR, \fB$OBJSUFFIX\fR, \fB$PCHCOM\fR, \fB$PCHPDBFLAGS\fR, \fB$RC\fR, \fB$RCCOM\fR, \fB$RCFLAGS\fR, \fB$SHCC\fR, \fB$SHCCCOM\fR, \fB$SHCCFLAGS\fR, \fB$SHCFLAGS\fR, \fB$SHCXX\fR, \fB$SHCXXCOM\fR, \fB$SHCXXFLAGS\fR, \fB$SHOBJPREFIX\fR, \fB$SHOBJSUFFIX\fR\&. .sp Uses: \fB$CCCOMSTR\fR, \fB$CXXCOMSTR\fR, \fB$PCH\fR, \fB$PCHSTOP\fR, \fB$PDB\fR, \fB$SHCCCOMSTR\fR, \fB$SHCXXCOMSTR\fR\&. .RE .PP msvs .RS 4 Sets construction variables for Microsoft Visual Studio\&. .sp Sets: \fB$MSVSBUILDCOM\fR, \fB$MSVSCLEANCOM\fR, \fB$MSVSENCODING\fR, \fB$MSVSPROJECTCOM\fR, \fB$MSVSREBUILDCOM\fR, \fB$MSVSSCONS\fR, \fB$MSVSSCONSCOM\fR, \fB$MSVSSCONSCRIPT\fR, \fB$MSVSSCONSFLAGS\fR, \fB$MSVSSOLUTIONCOM\fR\&. .RE .PP mwcc .RS 4 Sets construction variables for the Metrowerks CodeWarrior compiler\&. .sp Sets: \fB$CC\fR, \fB$CCCOM\fR, \fB$CFILESUFFIX\fR, \fB$CPPDEFPREFIX\fR, \fB$CPPDEFSUFFIX\fR, \fB$CXX\fR, \fB$CXXCOM\fR, \fB$CXXFILESUFFIX\fR, \fB$INCPREFIX\fR, \fB$INCSUFFIX\fR, \fB$MWCW_VERSION\fR, \fB$MWCW_VERSIONS\fR, \fB$SHCC\fR, \fB$SHCCCOM\fR, \fB$SHCCFLAGS\fR, \fB$SHCFLAGS\fR, \fB$SHCXX\fR, \fB$SHCXXCOM\fR, \fB$SHCXXFLAGS\fR\&. .sp Uses: \fB$CCCOMSTR\fR, \fB$CXXCOMSTR\fR, \fB$SHCCCOMSTR\fR, \fB$SHCXXCOMSTR\fR\&. .RE .PP mwld .RS 4 Sets construction variables for the Metrowerks CodeWarrior linker\&. .sp Sets: \fB$AR\fR, \fB$ARCOM\fR, \fB$LIBDIRPREFIX\fR, \fB$LIBDIRSUFFIX\fR, \fB$LIBLINKPREFIX\fR, \fB$LIBLINKSUFFIX\fR, \fB$LINK\fR, \fB$LINKCOM\fR, \fB$SHLINK\fR, \fB$SHLINKCOM\fR, \fB$SHLINKFLAGS\fR\&. .RE .PP nasm .RS 4 Sets construction variables for the nasm Netwide Assembler\&. .sp Sets: \fB$AS\fR, \fB$ASCOM\fR, \fB$ASFLAGS\fR, \fB$ASPPCOM\fR, \fB$ASPPFLAGS\fR\&. .sp Uses: \fB$ASCOMSTR\fR, \fB$ASPPCOMSTR\fR\&. .RE .PP packaging .RS 4 A framework for building binary and source packages\&. .RE .PP Packaging .RS 4 Sets construction variables for the \fBPackage\fR Builder\&. .RE .PP pdf .RS 4 Sets construction variables for the Portable Document Format builder\&. .sp Sets: \fB$PDFPREFIX\fR, \fB$PDFSUFFIX\fR\&. .RE .PP pdflatex .RS 4 Sets construction variables for the pdflatex utility\&. .sp Sets: \fB$LATEXRETRIES\fR, \fB$PDFLATEX\fR, \fB$PDFLATEXCOM\fR, \fB$PDFLATEXFLAGS\fR\&. .sp Uses: \fB$PDFLATEXCOMSTR\fR\&. .RE .PP pdftex .RS 4 Sets construction variables for the pdftex utility\&. .sp Sets: \fB$LATEXRETRIES\fR, \fB$PDFLATEX\fR, \fB$PDFLATEXCOM\fR, \fB$PDFLATEXFLAGS\fR, \fB$PDFTEX\fR, \fB$PDFTEXCOM\fR, \fB$PDFTEXFLAGS\fR\&. .sp Uses: \fB$PDFLATEXCOMSTR\fR, \fB$PDFTEXCOMSTR\fR\&. .RE .PP qt .RS 4 Sets construction variables for building Qt applications\&. .sp Sets: \fB$QTDIR\fR, \fB$QT_AUTOSCAN\fR, \fB$QT_BINPATH\fR, \fB$QT_CPPPATH\fR, \fB$QT_LIB\fR, \fB$QT_LIBPATH\fR, \fB$QT_MOC\fR, \fB$QT_MOCCXXPREFIX\fR, \fB$QT_MOCCXXSUFFIX\fR, \fB$QT_MOCFROMCXXCOM\fR, \fB$QT_MOCFROMCXXFLAGS\fR, \fB$QT_MOCFROMHCOM\fR, \fB$QT_MOCFROMHFLAGS\fR, \fB$QT_MOCHPREFIX\fR, \fB$QT_MOCHSUFFIX\fR, \fB$QT_UIC\fR, \fB$QT_UICCOM\fR, \fB$QT_UICDECLFLAGS\fR, \fB$QT_UICDECLPREFIX\fR, \fB$QT_UICDECLSUFFIX\fR, \fB$QT_UICIMPLFLAGS\fR, \fB$QT_UICIMPLPREFIX\fR, \fB$QT_UICIMPLSUFFIX\fR, \fB$QT_UISUFFIX\fR\&. .RE .PP rmic .RS 4 Sets construction variables for the rmic utility\&. .sp Sets: \fB$JAVACLASSSUFFIX\fR, \fB$RMIC\fR, \fB$RMICCOM\fR, \fB$RMICFLAGS\fR\&. .sp Uses: \fB$RMICCOMSTR\fR\&. .RE .PP rpcgen .RS 4 Sets construction variables for building with RPCGEN\&. .sp Sets: \fB$RPCGEN\fR, \fB$RPCGENCLIENTFLAGS\fR, \fB$RPCGENFLAGS\fR, \fB$RPCGENHEADERFLAGS\fR, \fB$RPCGENSERVICEFLAGS\fR, \fB$RPCGENXDRFLAGS\fR\&. .RE .PP sgiar .RS 4 Sets construction variables for the SGI library archiver\&. .sp Sets: \fB$AR\fR, \fB$ARCOMSTR\fR, \fB$ARFLAGS\fR, \fB$LIBPREFIX\fR, \fB$LIBSUFFIX\fR, \fB$SHLINK\fR, \fB$SHLINKFLAGS\fR\&. .sp Uses: \fB$ARCOMSTR\fR, \fB$SHLINKCOMSTR\fR\&. .RE .PP sgic++ .RS 4 Sets construction variables for the SGI C++ compiler\&. .sp Sets: \fB$CXX\fR, \fB$CXXFLAGS\fR, \fB$SHCXX\fR, \fB$SHOBJSUFFIX\fR\&. .RE .PP sgicc .RS 4 Sets construction variables for the SGI C compiler\&. .sp Sets: \fB$CXX\fR, \fB$SHOBJSUFFIX\fR\&. .RE .PP sgilink .RS 4 Sets construction variables for the SGI linker\&. .sp Sets: \fB$LINK\fR, \fB$RPATHPREFIX\fR, \fB$RPATHSUFFIX\fR, \fB$SHLINKFLAGS\fR\&. .RE .PP sunar .RS 4 Sets construction variables for the Sun library archiver\&. .sp Sets: \fB$AR\fR, \fB$ARCOM\fR, \fB$ARFLAGS\fR, \fB$LIBPREFIX\fR, \fB$LIBSUFFIX\fR\&. .sp Uses: \fB$ARCOMSTR\fR\&. .RE .PP sunc++ .RS 4 Sets construction variables for the Sun C++ compiler\&. .sp Sets: \fB$CXX\fR, \fB$CXXVERSION\fR, \fB$SHCXX\fR, \fB$SHCXXFLAGS\fR, \fB$SHOBJPREFIX\fR, \fB$SHOBJSUFFIX\fR\&. .RE .PP suncc .RS 4 Sets construction variables for the Sun C compiler\&. .sp Sets: \fB$CXX\fR, \fB$SHCCFLAGS\fR, \fB$SHOBJPREFIX\fR, \fB$SHOBJSUFFIX\fR\&. .RE .PP sunf77 .RS 4 Set construction variables for the Sun f77 Fortran compiler\&. .sp Sets: \fB$F77\fR, \fB$FORTRAN\fR, \fB$SHF77\fR, \fB$SHF77FLAGS\fR, \fB$SHFORTRAN\fR, \fB$SHFORTRANFLAGS\fR\&. .RE .PP sunf90 .RS 4 Set construction variables for the Sun f90 Fortran compiler\&. .sp Sets: \fB$F90\fR, \fB$FORTRAN\fR, \fB$SHF90\fR, \fB$SHF90FLAGS\fR, \fB$SHFORTRAN\fR, \fB$SHFORTRANFLAGS\fR\&. .RE .PP sunf95 .RS 4 Set construction variables for the Sun f95 Fortran compiler\&. .sp Sets: \fB$F95\fR, \fB$FORTRAN\fR, \fB$SHF95\fR, \fB$SHF95FLAGS\fR, \fB$SHFORTRAN\fR, \fB$SHFORTRANFLAGS\fR\&. .RE .PP sunlink .RS 4 Sets construction variables for the Sun linker\&. .sp Sets: \fB$RPATHPREFIX\fR, \fB$RPATHSUFFIX\fR, \fB$SHLINKFLAGS\fR\&. .RE .PP swig .RS 4 Sets construction variables for the SWIG interface generator\&. .sp Sets: \fB$SWIG\fR, \fB$SWIGCFILESUFFIX\fR, \fB$SWIGCOM\fR, \fB$SWIGCXXFILESUFFIX\fR, \fB$SWIGDIRECTORSUFFIX\fR, \fB$SWIGFLAGS\fR, \fB$SWIGINCPREFIX\fR, \fB$SWIGINCSUFFIX\fR, \fB$SWIGPATH\fR, \fB$SWIGVERSION\fR, \fB$_SWIGINCFLAGS\fR\&. .sp Uses: \fB$SWIGCOMSTR\fR\&. .RE .PP tar .RS 4 Sets construction variables for the tar archiver\&. .sp Sets: \fB$TAR\fR, \fB$TARCOM\fR, \fB$TARFLAGS\fR, \fB$TARSUFFIX\fR\&. .sp Uses: \fB$TARCOMSTR\fR\&. .RE .PP tex .RS 4 Sets construction variables for the TeX formatter and typesetter\&. .sp Sets: \fB$BIBTEX\fR, \fB$BIBTEXCOM\fR, \fB$BIBTEXFLAGS\fR, \fB$LATEX\fR, \fB$LATEXCOM\fR, \fB$LATEXFLAGS\fR, \fB$MAKEINDEX\fR, \fB$MAKEINDEXCOM\fR, \fB$MAKEINDEXFLAGS\fR, \fB$TEX\fR, \fB$TEXCOM\fR, \fB$TEXFLAGS\fR\&. .sp Uses: \fB$BIBTEXCOMSTR\fR, \fB$LATEXCOMSTR\fR, \fB$MAKEINDEXCOMSTR\fR, \fB$TEXCOMSTR\fR\&. .RE .PP textfile .RS 4 Set construction variables for the \fBTextfile\fR and \fBSubstfile\fR builders\&. .sp Sets: \fB$LINESEPARATOR\fR, \fB$SUBSTFILEPREFIX\fR, \fB$SUBSTFILESUFFIX\fR, \fB$TEXTFILEPREFIX\fR, \fB$TEXTFILESUFFIX\fR\&. .sp Uses: \fB$SUBST_DICT\fR\&. .RE .PP tlib .RS 4 Sets construction variables for the Borlan tib library archiver\&. .sp Sets: \fB$AR\fR, \fB$ARCOM\fR, \fB$ARFLAGS\fR, \fB$LIBPREFIX\fR, \fB$LIBSUFFIX\fR\&. .sp Uses: \fB$ARCOMSTR\fR\&. .RE .PP xgettext .RS 4 This scons tool is a part of scons gettext toolset\&. It provides scons interface to \fBxgettext(1)\fR program, which extracts internationalized messages from source code\&. The tool provides \fBPOTUpdate\fR builder to make PO \fITemplate\fR files\&. .sp Sets: \fB$POTSUFFIX\fR, \fB$POTUPDATE_ALIAS\fR, \fB$XGETTEXTCOM\fR, \fB$XGETTEXTCOMSTR\fR, \fB$XGETTEXTFLAGS\fR, \fB$XGETTEXTFROM\fR, \fB$XGETTEXTFROMPREFIX\fR, \fB$XGETTEXTFROMSUFFIX\fR, \fB$XGETTEXTPATH\fR, \fB$XGETTEXTPATHPREFIX\fR, \fB$XGETTEXTPATHSUFFIX\fR, \fB$_XGETTEXTDOMAIN\fR, \fB$_XGETTEXTFROMFLAGS\fR, \fB$_XGETTEXTPATHFLAGS\fR\&. .sp Uses: \fB$POTDOMAIN\fR\&. .RE .PP yacc .RS 4 Sets construction variables for the yacc parse generator\&. .sp Sets: \fB$YACC\fR, \fB$YACCCOM\fR, \fB$YACCFLAGS\fR, \fB$YACCHFILESUFFIX\fR, \fB$YACCHXXFILESUFFIX\fR, \fB$YACCVCGFILESUFFIX\fR\&. .sp Uses: \fB$YACCCOMSTR\fR\&. .RE .PP zip .RS 4 Sets construction variables for the zip archiver\&. .sp Sets: \fB$ZIP\fR, \fB$ZIPCOM\fR, \fB$ZIPCOMPRESSION\fR, \fB$ZIPFLAGS\fR, \fB$ZIPSUFFIX\fR\&. .sp Uses: \fB$ZIPCOMSTR\fR\&. .RE .PP Additionally, there is a "tool" named \fBdefault\fR which configures the environment with a default set of tools for the current platform\&. .PP On posix and cygwin platforms the GNU tools (e\&.g\&. gcc) are preferred by SCons, on Windows the Microsoft tools (e\&.g\&. msvc) followed by MinGW are preferred by SCons, and in OS/2 the IBM tools (e\&.g\&. icc) are preferred by SCons\&. .SS "Builder Methods" .PP Build rules are specified by calling a construction environment\*(Aqs builder methods\&. The arguments to the builder methods are \fBtarget\fR (a list of targets to be built, usually file names) and \fBsource\fR (a list of sources to be built, usually file names)\&. .PP Because long lists of file names can lead to a lot of quoting, \fBscons\fR supplies a \fBSplit()\fR global function and a same\-named environment method that split a single string into a list, separated on strings of white\-space characters\&. (These are similar to the split() member function of Python strings but work even if the input isn\*(Aqt a string\&.) .PP Like all Python arguments, the target and source arguments to a builder method can be specified either with or without the "target" and "source" keywords\&. When the keywords are omitted, the target is first, followed by the source\&. The following are equivalent examples of calling the Program builder method: .sp .if n \{\ .RS 4 .\} .nf env\&.Program(\*(Aqbar\*(Aq, [\*(Aqbar\&.c\*(Aq, \*(Aqfoo\&.c\*(Aq]) env\&.Program(\*(Aqbar\*(Aq, Split(\*(Aqbar\&.c foo\&.c\*(Aq)) env\&.Program(\*(Aqbar\*(Aq, env\&.Split(\*(Aqbar\&.c foo\&.c\*(Aq)) env\&.Program(source = [\*(Aqbar\&.c\*(Aq, \*(Aqfoo\&.c\*(Aq], target = \*(Aqbar\*(Aq) env\&.Program(target = \*(Aqbar\*(Aq, Split(\*(Aqbar\&.c foo\&.c\*(Aq)) env\&.Program(target = \*(Aqbar\*(Aq, env\&.Split(\*(Aqbar\&.c foo\&.c\*(Aq)) env\&.Program(\*(Aqbar\*(Aq, source = \*(Aqbar\&.c foo\&.c\*(Aq\&.split()) .fi .if n \{\ .RE .\} .PP Target and source file names that are not absolute path names (that is, do not begin with \fB/\fR on POSIX systems or \fB\efR on Windows systems, with or without an optional drive letter) are interpreted relative to the directory containing the SConscript\fR file being read\&. An initial \fB#\fR (hash mark) on a path name means that the rest of the file name is interpreted relative to the directory containing the top\-level \fBSConstruct\fR file, even if the \fB#\fR is followed by a directory separator character (slash or backslash)\&. .PP Examples: .sp .if n \{\ .RS 4 .\} .nf # The comments describing the targets that will be built # assume these calls are in a SConscript file in the # a subdirectory named "subdir"\&. # Builds the program "subdir/foo" from "subdir/foo\&.c": env\&.Program(\*(Aqfoo\*(Aq, \*(Aqfoo\&.c\*(Aq) # Builds the program "/tmp/bar" from "subdir/bar\&.c": env\&.Program(\*(Aq/tmp/bar\*(Aq, \*(Aqbar\&.c\*(Aq) # An initial \*(Aq#\*(Aq or \*(Aq#/\*(Aq are equivalent; the following # calls build the programs "foo" and "bar" (in the # top\-level SConstruct directory) from "subdir/foo\&.c" and # "subdir/bar\&.c", respectively: env\&.Program(\*(Aq#foo\*(Aq, \*(Aqfoo\&.c\*(Aq) env\&.Program(\*(Aq#/bar\*(Aq, \*(Aqbar\&.c\*(Aq) # Builds the program "other/foo" (relative to the top\-level # SConstruct directory) from "subdir/foo\&.c": env\&.Program(\*(Aq#other/foo\*(Aq, \*(Aqfoo\&.c\*(Aq) .fi .if n \{\ .RE .\} .PP When the target shares the same base name as the source and only the suffix varies, and if the builder method has a suffix defined for the target file type, then the target argument may be omitted completely, and \fBscons\fR will deduce the target file name from the source file name\&. The following examples all build the executable program \fBbar\fR (on POSIX systems) or \fBbar\&.exe\fR (on Windows systems) from the bar\&.c source file: .sp .if n \{\ .RS 4 .\} .nf env\&.Program(target = \*(Aqbar\*(Aq, source = \*(Aqbar\&.c\*(Aq) env\&.Program(\*(Aqbar\*(Aq, source = \*(Aqbar\&.c\*(Aq) env\&.Program(source = \*(Aqbar\&.c\*(Aq) env\&.Program(\*(Aqbar\&.c\*(Aq) .fi .if n \{\ .RE .\} .PP As a convenience, a \fBsrcdir\fR keyword argument may be specified when calling a Builder\&. When specified, all source file strings that are not absolute paths will be interpreted relative to the specified \fBsrcdir\fR\&. The following example will build the \fBbuild/prog\fR (or \fBbuild/prog\&.exe\fR on Windows) program from the files \fBsrc/f1\&.c\fR and \fBsrc/f2\&.c\fR: .sp .if n \{\ .RS 4 .\} .nf env\&.Program(\*(Aqbuild/prog\*(Aq, [\*(Aqf1\&.c\*(Aq, \*(Aqf2\&.c\*(Aq], srcdir=\*(Aqsrc\*(Aq) .fi .if n \{\ .RE .\} .PP It is possible to override or add construction variables when calling a builder method by passing additional keyword arguments\&. These overridden or added variables will only be in effect when building the target, so they will not affect other parts of the build\&. For example, if you want to add additional libraries for just one program: .sp .if n \{\ .RS 4 .\} .nf env\&.Program(\*(Aqhello\*(Aq, \*(Aqhello\&.c\*(Aq, LIBS=[\*(Aqgl\*(Aq, \*(Aqglut\*(Aq]) .fi .if n \{\ .RE .\} .PP or generate a shared library with a non\-standard suffix: .sp .if n \{\ .RS 4 .\} .nf env\&.SharedLibrary(\*(Aqword\*(Aq, \*(Aqword\&.cpp\*(Aq, SHLIBSUFFIX=\*(Aq\&.ocx\*(Aq, LIBSUFFIXES=[\*(Aq\&.ocx\*(Aq]) .fi .if n \{\ .RE .\} .PP (Note that both the $SHLIBSUFFIX and $LIBSUFFIXES variables must be set if you want SCons to search automatically for dependencies on the non\-standard library names; see the descriptions of these variables, below, for more information\&.) .PP It is also possible to use the \fIparse_flags\fR keyword argument in an override: .sp .if n \{\ .RS 4 .\} .nf env = Program(\*(Aqhello\*(Aq, \*(Aqhello\&.c\*(Aq, parse_flags = \*(Aq\-Iinclude \-DEBUG \-lm\*(Aq) .fi .if n \{\ .RE .\} .PP This example adds \*(Aqinclude\*(Aq to \fBCPPPATH\fR, \*(AqEBUG\*(Aq to \fBCPPDEFINES\fR, and \*(Aqm\*(Aq to \fBLIBS\fR\&. .PP Although the builder methods defined by \fBscons\fR are, in fact, methods of a construction environment object, they may also be called without an explicit environment: .sp .if n \{\ .RS 4 .\} .nf Program(\*(Aqhello\*(Aq, \*(Aqhello\&.c\*(Aq) SharedLibrary(\*(Aqword\*(Aq, \*(Aqword\&.cpp\*(Aq) .fi .if n \{\ .RE .\} .PP In this case, the methods are called internally using a default construction environment that consists of the tools and values that \fBscons\fR has determined are appropriate for the local system\&. .PP Builder methods that can be called without an explicit environment may be called from custom Python modules that you import into an SConscript file by adding the following to the Python module: .sp .if n \{\ .RS 4 .\} .nf from SCons\&.Script import * .fi .if n \{\ .RE .\} .PP All builder methods return a list\-like object containing Nodes that represent the target or targets that will be built\&. A \fINode\fR is an internal SCons object which represents build targets or sources\&. .PP The returned Node\-list object can be passed to other builder methods as source(s) or passed to any SCons function or method where a filename would normally be accepted\&. For example, if it were necessary to add a specific \fB\-D\fR flag when compiling one specific object file: .sp .if n \{\ .RS 4 .\} .nf bar_obj_list = env\&.StaticObject(\*(Aqbar\&.c\*(Aq, CPPDEFINES=\*(Aq\-DBAR\*(Aq) env\&.Program(source = [\*(Aqfoo\&.c\*(Aq, bar_obj_list, \*(Aqmain\&.c\*(Aq]) .fi .if n \{\ .RE .\} .PP Using a Node in this way makes for a more portable build by avoiding having to specify a platform\-specific object suffix when calling the Program() builder method\&. .PP Note that Builder calls will automatically "flatten" the source and target file lists, so it\*(Aqs all right to have the bar_obj list return by the StaticObject() call in the middle of the source file list\&. If you need to manipulate a list of lists returned by Builders directly using Python, you can either build the list by hand: .sp .if n \{\ .RS 4 .\} .nf foo = Object(\*(Aqfoo\&.c\*(Aq) bar = Object(\*(Aqbar\&.c\*(Aq) objects = [\*(Aqbegin\&.o\*(Aq] + foo + [\*(Aqmiddle\&.o\*(Aq] + bar + [\*(Aqend\&.o\*(Aq] for object in objects: print(str(object)) .fi .if n \{\ .RE .\} .PP Or you can use the \fBFlatten\fR() function supplied by scons to create a list containing just the Nodes, which may be more convenient: .sp .if n \{\ .RS 4 .\} .nf foo = Object(\*(Aqfoo\&.c\*(Aq) bar = Object(\*(Aqbar\&.c\*(Aq) objects = Flatten([\*(Aqbegin\&.o\*(Aq, foo, \*(Aqmiddle\&.o\*(Aq, bar, \*(Aqend\&.o\*(Aq]) for object in objects: print(str(object)) .fi .if n \{\ .RE .\} .PP Note also that because Builder calls return a list\-like object, not an actual Python list, you should \fInot\fR use the Python \fB+=\fR operator to append Builder results to a Python list\&. Because the list and the object are different types, Python will not update the original list in place, but will instead create a new Node\-list object containing the concatenation of the list elements and the Builder results\&. This will cause problems for any other Python variables in your SCons configuration that still hold on to a reference to the original list\&. Instead, use the Python \fB\&.extend()\fR method to make sure the list is updated in\-place\&. Example: .sp .if n \{\ .RS 4 .\} .nf object_files = [] # Do NOT use += as follows: # # object_files += Object(\*(Aqbar\&.c\*(Aq) # # It will not update the object_files list in place\&. # # Instead, use the \&.extend() method: object_files\&.extend(Object(\*(Aqbar\&.c\*(Aq)) .fi .if n \{\ .RE .\} .PP The path name for a Node\*(Aqs file may be used by passing the Node to the Python\-builtin \fBstr()\fR function: .sp .if n \{\ .RS 4 .\} .nf bar_obj_list = env\&.StaticObject(\*(Aqbar\&.c\*(Aq, CPPDEFINES=\*(Aq\-DBAR\*(Aq) print("The path to bar_obj is:", str(bar_obj_list[0])) .fi .if n \{\ .RE .\} .PP Note again that because the Builder call returns a list, we have to access the first element in the list \fB(bar_obj_list[0])\fR to get at the Node that actually represents the object file\&. .PP Builder calls support a \fBchdir\fR keyword argument that specifies that the Builder\*(Aqs action(s) should be executed after changing directory\&. If the \fBchdir\fR argument is a string or a directory Node, scons will change to the specified directory\&. If the \fBchdir\fR is not a string or Node and is non\-zero, then scons will change to the target file\*(Aqs directory\&. .sp .if n \{\ .RS 4 .\} .nf # scons will change to the "sub" subdirectory # before executing the "cp" command\&. env\&.Command(\*(Aqsub/dir/foo\&.out\*(Aq, \*(Aqsub/dir/foo\&.in\*(Aq, "cp dir/foo\&.in dir/foo\&.out", chdir=\*(Aqsub\*(Aq) # Because chdir is not a string, scons will change to the # target\*(Aqs directory ("sub/dir") before executing the # "cp" command\&. env\&.Command(\*(Aqsub/dir/foo\&.out\*(Aq, \*(Aqsub/dir/foo\&.in\*(Aq, "cp foo\&.in foo\&.out", chdir=1) .fi .if n \{\ .RE .\} .PP Note that scons will \fInot\fR automatically modify its expansion of construction variables like \fB$TARGET\fR and \fB$SOURCE\fR when using the chdir keyword argument\-\-that is, the expanded file names will still be relative to the top\-level SConstruct directory, and consequently incorrect relative to the chdir directory\&. If you use the chdir keyword argument, you will typically need to supply a different command line using expansions like \fB${TARGET\&.file}\fR and \fB${SOURCE\&.file}\fR to use just the filename portion of the targets and source\&. .PP \fBscons\fR provides the following builder methods: .PP \fBCFile()\fR, \fBenv\&.CFile()\fR .RS 4 Builds a C source file given a lex (\&.l) or yacc (\&.y) input file\&. The suffix specified by the \fB$CFILESUFFIX\fR construction variable (\&.c by default) is automatically added to the target if it is not already present\&. Example: .sp .if n \{\ .RS 4 .\} .nf # builds foo\&.c env\&.CFile(target = \*(Aqfoo\&.c\*(Aq, source = \*(Aqfoo\&.l\*(Aq) # builds bar\&.c env\&.CFile(target = \*(Aqbar\*(Aq, source = \*(Aqbar\&.y\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBCommand()\fR, \fBenv\&.Command()\fR .RS 4 The \fBCommand\fR "Builder" is actually implemented as a function that looks like a Builder, but actually takes an additional argument of the action from which the Builder should be made\&. See the \fBCommand\fR function description for the calling syntax and details\&. .RE .PP \fBCXXFile()\fR, \fBenv\&.CXXFile()\fR .RS 4 Builds a C++ source file given a lex (\&.ll) or yacc (\&.yy) input file\&. The suffix specified by the \fB$CXXFILESUFFIX\fR construction variable (\&.cc by default) is automatically added to the target if it is not already present\&. Example: .sp .if n \{\ .RS 4 .\} .nf # builds foo\&.cc env\&.CXXFile(target = \*(Aqfoo\&.cc\*(Aq, source = \*(Aqfoo\&.ll\*(Aq) # builds bar\&.cc env\&.CXXFile(target = \*(Aqbar\*(Aq, source = \*(Aqbar\&.yy\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBDocbookEpub()\fR, \fBenv\&.DocbookEpub()\fR .RS 4 A pseudo\-Builder, providing a Docbook toolchain for EPUB output\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookEpub(\*(Aqmanual\&.epub\*(Aq, \*(Aqmanual\&.xml\*(Aq) .fi .if n \{\ .RE .\} .sp or simply .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookEpub(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBDocbookHtml()\fR, \fBenv\&.DocbookHtml()\fR .RS 4 A pseudo\-Builder, providing a Docbook toolchain for HTML output\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtml(\*(Aqmanual\&.html\*(Aq, \*(Aqmanual\&.xml\*(Aq) .fi .if n \{\ .RE .\} .sp or simply .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtml(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBDocbookHtmlChunked()\fR, \fBenv\&.DocbookHtmlChunked()\fR .RS 4 A pseudo\-Builder, providing a Docbook toolchain for chunked HTML output\&. It supports the base\&.dir parameter\&. The chunkfast\&.xsl file (requires "EXSLT") is used as the default stylesheet\&. Basic syntax: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtmlChunked(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .sp where manual\&.xml is the input file\&. .sp If you use the root\&.filename parameter in your own stylesheets you have to specify the new target name\&. This ensures that the dependencies get correct, especially for the cleanup via \(lqscons \-c\(rq: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtmlChunked(\*(Aqmymanual\&.html\*(Aq, \*(Aqmanual\*(Aq, xsl=\*(Aqhtmlchunk\&.xsl\*(Aq) .fi .if n \{\ .RE .\} .sp Some basic support for the base\&.dir is provided\&. You can add the base_dir keyword to your Builder call, and the given prefix gets prepended to all the created filenames: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtmlChunked(\*(Aqmanual\*(Aq, xsl=\*(Aqhtmlchunk\&.xsl\*(Aq, base_dir=\*(Aqoutput/\*(Aq) .fi .if n \{\ .RE .\} .sp Make sure that you don\*(Aqt forget the trailing slash for the base folder, else your files get renamed only! .RE .PP \fBDocbookHtmlhelp()\fR, \fBenv\&.DocbookHtmlhelp()\fR .RS 4 A pseudo\-Builder, providing a Docbook toolchain for HTMLHELP output\&. Its basic syntax is: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtmlhelp(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .sp where manual\&.xml is the input file\&. .sp If you use the root\&.filename parameter in your own stylesheets you have to specify the new target name\&. This ensures that the dependencies get correct, especially for the cleanup via \(lqscons \-c\(rq: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtmlhelp(\*(Aqmymanual\&.html\*(Aq, \*(Aqmanual\*(Aq, xsl=\*(Aqhtmlhelp\&.xsl\*(Aq) .fi .if n \{\ .RE .\} .sp Some basic support for the base\&.dir parameter is provided\&. You can add the base_dir keyword to your Builder call, and the given prefix gets prepended to all the created filenames: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookHtmlhelp(\*(Aqmanual\*(Aq, xsl=\*(Aqhtmlhelp\&.xsl\*(Aq, base_dir=\*(Aqoutput/\*(Aq) .fi .if n \{\ .RE .\} .sp Make sure that you don\*(Aqt forget the trailing slash for the base folder, else your files get renamed only! .RE .PP \fBDocbookMan()\fR, \fBenv\&.DocbookMan()\fR .RS 4 A pseudo\-Builder, providing a Docbook toolchain for Man page output\&. Its basic syntax is: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookMan(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .sp where manual\&.xml is the input file\&. Note, that you can specify a target name, but the actual output names are automatically set from the refname entries in your XML source\&. .RE .PP \fBDocbookPdf()\fR, \fBenv\&.DocbookPdf()\fR .RS 4 A pseudo\-Builder, providing a Docbook toolchain for PDF output\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookPdf(\*(Aqmanual\&.pdf\*(Aq, \*(Aqmanual\&.xml\*(Aq) .fi .if n \{\ .RE .\} .sp or simply .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookPdf(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBDocbookSlidesHtml()\fR, \fBenv\&.DocbookSlidesHtml()\fR .RS 4 A pseudo\-Builder, providing a Docbook toolchain for HTML slides output\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookSlidesHtml(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .sp If you use the titlefoil\&.html parameter in your own stylesheets you have to give the new target name\&. This ensures that the dependencies get correct, especially for the cleanup via \(lqscons \-c\(rq: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookSlidesHtml(\*(Aqmymanual\&.html\*(Aq,\*(Aqmanual\*(Aq, xsl=\*(Aqslideshtml\&.xsl\*(Aq) .fi .if n \{\ .RE .\} .sp Some basic support for the base\&.dir parameter is provided\&. You can add the base_dir keyword to your Builder call, and the given prefix gets prepended to all the created filenames: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookSlidesHtml(\*(Aqmanual\*(Aq, xsl=\*(Aqslideshtml\&.xsl\*(Aq, base_dir=\*(Aqoutput/\*(Aq) .fi .if n \{\ .RE .\} .sp Make sure that you don\*(Aqt forget the trailing slash for the base folder, else your files get renamed only! .RE .PP \fBDocbookSlidesPdf()\fR, \fBenv\&.DocbookSlidesPdf()\fR .RS 4 A pseudo\-Builder, providing a Docbook toolchain for PDF slides output\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookSlidesPdf(\*(Aqmanual\&.pdf\*(Aq, \*(Aqmanual\&.xml\*(Aq) .fi .if n \{\ .RE .\} .sp or simply .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookSlidesPdf(\*(Aqmanual\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBDocbookXInclude()\fR, \fBenv\&.DocbookXInclude()\fR .RS 4 A pseudo\-Builder, for resolving XIncludes in a separate processing step\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookXInclude(\*(Aqmanual_xincluded\&.xml\*(Aq, \*(Aqmanual\&.xml\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBDocbookXslt()\fR, \fBenv\&.DocbookXslt()\fR .RS 4 A pseudo\-Builder, applying a given XSL transformation to the input file\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdocbook\*(Aq]) env\&.DocbookXslt(\*(Aqmanual_transformed\&.xml\*(Aq, \*(Aqmanual\&.xml\*(Aq, xsl=\*(Aqtransform\&.xslt\*(Aq) .fi .if n \{\ .RE .\} .sp Note, that this builder requires the xsl parameter to be set\&. .RE .PP \fBDVI()\fR, \fBenv\&.DVI()\fR .RS 4 Builds a \&.dvi file from a \&.tex, \&.ltx or \&.latex input file\&. If the source file suffix is \&.tex, scons will examine the contents of the file; if the string \edocumentclass or \edocumentstyle is found, the file is assumed to be a LaTeX file and the target is built by invoking the \fB$LATEXCOM\fR command line; otherwise, the \fB$TEXCOM\fR command line is used\&. If the file is a LaTeX file, the \fBDVI\fR builder method will also examine the contents of the \&.aux file and invoke the \fB$BIBTEX\fR command line if the string bibdata is found, start \fB$MAKEINDEX\fR to generate an index if a \&.ind file is found and will examine the contents \&.log file and re\-run the \fB$LATEXCOM\fR command if the log file says it is necessary\&. .sp The suffix \&.dvi (hard\-coded within TeX itself) is automatically added to the target if it is not already present\&. Examples: .sp .if n \{\ .RS 4 .\} .nf # builds from aaa\&.tex env\&.DVI(target = \*(Aqaaa\&.dvi\*(Aq, source = \*(Aqaaa\&.tex\*(Aq) # builds bbb\&.dvi env\&.DVI(target = \*(Aqbbb\*(Aq, source = \*(Aqbbb\&.ltx\*(Aq) # builds from ccc\&.latex env\&.DVI(target = \*(Aqccc\&.dvi\*(Aq, source = \*(Aqccc\&.latex\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBGs()\fR, \fBenv\&.Gs()\fR .RS 4 A Builder for explicitly calling the gs executable\&. Depending on the underlying OS, the different names gs, gsos2 and gswin32c are tried\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqgs\*(Aq]) env\&.Gs(\*(Aqcover\&.jpg\*(Aq,\*(Aqscons\-scons\&.pdf\*(Aq, GSFLAGS=\*(Aq\-dNOPAUSE \-dBATCH \-sDEVICE=jpeg \-dFirstPage=1 \-dLastPage=1 \-q\*(Aq) ) .fi .if n \{\ .RE .\} .RE .PP \fBInstall()\fR, \fBenv\&.Install()\fR .RS 4 Installs one or more source files or directories in the specified target, which must be a directory\&. The names of the specified source files or directories remain the same within the destination directory\&. The sources may be given as a string or as a node returned by a builder\&. .sp .if n \{\ .RS 4 .\} .nf env\&.Install(\*(Aq/usr/local/bin\*(Aq, source = [\*(Aqfoo\*(Aq, \*(Aqbar\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP \fBInstallAs()\fR, \fBenv\&.InstallAs()\fR .RS 4 Installs one or more source files or directories to specific names, allowing changing a file or directory name as part of the installation\&. It is an error if the target and source arguments list different numbers of files or directories\&. .sp .if n \{\ .RS 4 .\} .nf env\&.InstallAs(target = \*(Aq/usr/local/bin/foo\*(Aq, source = \*(Aqfoo_debug\*(Aq) env\&.InstallAs(target = [\*(Aq\&.\&./lib/libfoo\&.a\*(Aq, \*(Aq\&.\&./lib/libbar\&.a\*(Aq], source = [\*(AqlibFOO\&.a\*(Aq, \*(AqlibBAR\&.a\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP \fBInstallVersionedLib()\fR, \fBenv\&.InstallVersionedLib()\fR .RS 4 Installs a versioned shared library\&. The symlinks appropriate to the architecture will be generated based on symlinks of the source library\&. .sp .if n \{\ .RS 4 .\} .nf env\&.InstallVersionedLib(target = \*(Aq/usr/local/bin/foo\*(Aq, source = \*(Aqlibxyz\&.1\&.5\&.2\&.so\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBJar()\fR, \fBenv\&.Jar()\fR .RS 4 Builds a Java archive (\&.jar) file from the specified list of sources\&. Any directories in the source list will be searched for \&.class files)\&. Any \&.java files in the source list will be compiled to \&.class files by calling the \fBJava\fR Builder\&. .sp If the \fB$JARCHDIR\fR value is set, the jar command will change to the specified directory using the \fB\-C\fR option\&. If \fB$JARCHDIR\fR is not set explicitly, SCons will use the top of any subdirectory tree in which Java \&.class were built by the \fBJava\fR Builder\&. .sp If the contents any of the source files begin with the string Manifest\-Version, the file is assumed to be a manifest and is passed to the jar command with the \fBm\fR option set\&. .sp .if n \{\ .RS 4 .\} .nf env\&.Jar(target = \*(Aqfoo\&.jar\*(Aq, source = \*(Aqclasses\*(Aq) env\&.Jar(target = \*(Aqbar\&.jar\*(Aq, source = [\*(Aqbar1\&.java\*(Aq, \*(Aqbar2\&.java\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP \fBJava()\fR, \fBenv\&.Java()\fR .RS 4 Builds one or more Java class files\&. The sources may be any combination of explicit \&.java files, or directory trees which will be scanned for \&.java files\&. .sp SCons will parse each source \&.java file to find the classes (including inner classes) defined within that file, and from that figure out the target \&.class files that will be created\&. The class files will be placed underneath the specified target directory\&. .sp SCons will also search each Java file for the Java package name, which it assumes can be found on a line beginning with the string package in the first column; the resulting \&.class files will be placed in a directory reflecting the specified package name\&. For example, the file Foo\&.java defining a single public Foo class and containing a package name of sub\&.dir will generate a corresponding sub/dir/Foo\&.class class file\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf env\&.Java(target = \*(Aqclasses\*(Aq, source = \*(Aqsrc\*(Aq) env\&.Java(target = \*(Aqclasses\*(Aq, source = [\*(Aqsrc1\*(Aq, \*(Aqsrc2\*(Aq]) env\&.Java(target = \*(Aqclasses\*(Aq, source = [\*(AqFile1\&.java\*(Aq, \*(AqFile2\&.java\*(Aq]) .fi .if n \{\ .RE .\} .sp Java source files can use the native encoding for the underlying OS\&. Since SCons compiles in simple ASCII mode by default, the compiler will generate warnings about unmappable characters, which may lead to errors as the file is processed further\&. In this case, the user must specify the LANG environment variable to tell the compiler what encoding is used\&. For portibility, it\*(Aqs best if the encoding is hard\-coded so that the compile will work if it is done on a system with a different encoding\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment() env[\*(AqENV\*(Aq][\*(AqLANG\*(Aq] = \*(Aqen_GB\&.UTF\-8\*(Aq .fi .if n \{\ .RE .\} .RE .PP \fBJavaH()\fR, \fBenv\&.JavaH()\fR .RS 4 Builds C header and source files for implementing Java native methods\&. The target can be either a directory in which the header files will be written, or a header file name which will contain all of the definitions\&. The source can be the names of \&.class files, the names of \&.java files to be compiled into \&.class files by calling the \fBJava\fR builder method, or the objects returned from the \fBJava\fR builder method\&. .sp If the construction variable \fB$JAVACLASSDIR\fR is set, either in the environment or in the call to the \fBJavaH\fR builder method itself, then the value of the variable will be stripped from the beginning of any \&.class file names\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf # builds java_native\&.h classes = env\&.Java(target = \*(Aqclassdir\*(Aq, source = \*(Aqsrc\*(Aq) env\&.JavaH(target = \*(Aqjava_native\&.h\*(Aq, source = classes) # builds include/package_foo\&.h and include/package_bar\&.h env\&.JavaH(target = \*(Aqinclude\*(Aq, source = [\*(Aqpackage/foo\&.class\*(Aq, \*(Aqpackage/bar\&.class\*(Aq]) # builds export/foo\&.h and export/bar\&.h env\&.JavaH(target = \*(Aqexport\*(Aq, source = [\*(Aqclasses/foo\&.class\*(Aq, \*(Aqclasses/bar\&.class\*(Aq], JAVACLASSDIR = \*(Aqclasses\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBLibrary()\fR, \fBenv\&.Library()\fR .RS 4 A synonym for the \fBStaticLibrary\fR builder method\&. .RE .PP \fBLoadableModule()\fR, \fBenv\&.LoadableModule()\fR .RS 4 On most systems, this is the same as \fBSharedLibrary\fR\&. On Mac OS X (Darwin) platforms, this creates a loadable module bundle\&. .RE .PP \fBM4()\fR, \fBenv\&.M4()\fR .RS 4 Builds an output file from an M4 input file\&. This uses a default \fB$M4FLAGS\fR value of \fB\-E\fR, which considers all warnings to be fatal and stops on the first warning when using the GNU version of m4\&. Example: .sp .if n \{\ .RS 4 .\} .nf env\&.M4(target = \*(Aqfoo\&.c\*(Aq, source = \*(Aqfoo\&.c\&.m4\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBMoc()\fR, \fBenv\&.Moc()\fR .RS 4 Builds an output file from a moc input file\&. Moc input files are either header files or cxx files\&. This builder is only available after using the tool \*(Aqqt\*(Aq\&. See the \fB$QTDIR\fR variable for more information\&. Example: .sp .if n \{\ .RS 4 .\} .nf env\&.Moc(\*(Aqfoo\&.h\*(Aq) # generates moc_foo\&.cc env\&.Moc(\*(Aqfoo\&.cpp\*(Aq) # generates foo\&.moc .fi .if n \{\ .RE .\} .RE .PP \fBMOFiles()\fR, \fBenv\&.MOFiles()\fR .RS 4 This builder belongs to msgfmt tool\&. The builder compiles PO files to MO files\&. .sp \fIExample 1\fR\&. Create pl\&.mo and en\&.mo by compiling pl\&.po and en\&.po: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.MOFiles([\*(Aqpl\*(Aq, \*(Aqen\*(Aq]) .fi .if n \{\ .RE .\} .sp \fIExample 2\fR\&. Compile files for languages defined in LINGUAS file: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.MOFiles(LINGUAS_FILE = 1) .fi .if n \{\ .RE .\} .sp \fIExample 3\fR\&. Create pl\&.mo and en\&.mo by compiling pl\&.po and en\&.po plus files for languages defined in LINGUAS file: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.MOFiles([\*(Aqpl\*(Aq, \*(Aqen\*(Aq], LINGUAS_FILE = 1) .fi .if n \{\ .RE .\} .sp \fIExample 4\fR\&. Compile files for languages defined in LINGUAS file (another version): .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env[\*(AqLINGUAS_FILE\*(Aq] = 1 env\&.MOFiles() .fi .if n \{\ .RE .\} .RE .PP \fBMSVSProject()\fR, \fBenv\&.MSVSProject()\fR .RS 4 Builds a Microsoft Visual Studio project file, and by default builds a solution file as well\&. .sp This builds a Visual Studio project file, based on the version of Visual Studio that is configured (either the latest installed version, or the version specified by \fB$MSVS_VERSION\fR in the Environment constructor)\&. For Visual Studio 6, it will generate a \&.dsp file\&. For Visual Studio 7 (\&.NET) and later versions, it will generate a \&.vcproj file\&. .sp By default, this also generates a solution file for the specified project, a \&.dsw file for Visual Studio 6 or a \&.sln file for Visual Studio 7 (\&.NET)\&. This behavior may be disabled by specifying auto_build_solution=0 when you call \fBMSVSProject\fR, in which case you presumably want to build the solution file(s) by calling the \fBMSVSSolution\fR Builder (see below)\&. .sp The \fBMSVSProject\fR builder takes several lists of filenames to be placed into the project file\&. These are currently limited to srcs, incs, localincs, resources, and misc\&. These are pretty self\-explanatory, but it should be noted that these lists are added to the \fB$SOURCES\fR construction variable as strings, NOT as SCons File Nodes\&. This is because they represent file names to be added to the project file, not the source files used to build the project file\&. .sp The above filename lists are all optional, although at least one must be specified for the resulting project file to be non\-empty\&. .sp In addition to the above lists of values, the following values may be specified: .PP target .RS 4 The name of the target \&.dsp or \&.vcproj file\&. The correct suffix for the version of Visual Studio must be used, but the \fB$MSVSPROJECTSUFFIX\fR construction variable will be defined to the correct value (see example below)\&. .RE .PP variant .RS 4 The name of this particular variant\&. For Visual Studio 7 projects, this can also be a list of variant names\&. These are typically things like "Debug" or "Release", but really can be anything you want\&. For Visual Studio 7 projects, they may also specify a target platform separated from the variant name by a | (vertical pipe) character: Debug|Xbox\&. The default target platform is Win32\&. Multiple calls to \fBMSVSProject\fR with different variants are allowed; all variants will be added to the project file with their appropriate build targets and sources\&. .RE .PP cmdargs .RS 4 Additional command line arguments for the different variants\&. The number of cmdargs entries must match the number of variant entries, or be empty (not specified)\&. If you give only one, it will automatically be propagated to all variants\&. .RE .PP buildtarget .RS 4 An optional string, node, or list of strings or nodes (one per build variant), to tell the Visual Studio debugger what output target to use in what build variant\&. The number of buildtarget entries must match the number of variant entries\&. .RE .PP runfile .RS 4 The name of the file that Visual Studio 7 and later will run and debug\&. This appears as the value of the Output field in the resulting Visual Studio project file\&. If this is not specified, the default is the same as the specified buildtarget value\&. .RE .sp Note that because SCons always executes its build commands from the directory in which the SConstruct file is located, if you generate a project file in a different directory than the SConstruct directory, users will not be able to double\-click on the file name in compilation error messages displayed in the Visual Studio console output window\&. This can be remedied by adding the Visual C/C++ /FC compiler option to the \fB$CCFLAGS\fR variable so that the compiler will print the full path name of any files that cause compilation errors\&. .sp Example usage: .sp .if n \{\ .RS 4 .\} .nf barsrcs = [\*(Aqbar\&.cpp\*(Aq] barincs = [\*(Aqbar\&.h\*(Aq] barlocalincs = [\*(AqStdAfx\&.h\*(Aq] barresources = [\*(Aqbar\&.rc\*(Aq,\*(Aqresource\&.h\*(Aq] barmisc = [\*(Aqbar_readme\&.txt\*(Aq] dll = env\&.SharedLibrary(target = \*(Aqbar\&.dll\*(Aq, source = barsrcs) buildtarget = [s for s in dll if str(s)\&.endswith(\*(Aqdll\*(Aq)] env\&.MSVSProject(target = \*(AqBar\*(Aq + env[\*(AqMSVSPROJECTSUFFIX\*(Aq], srcs = barsrcs, incs = barincs, localincs = barlocalincs, resources = barresources, misc = barmisc, buildtarget = buildtarget, variant = \*(AqRelease\*(Aq) .fi .if n \{\ .RE .\} .sp Starting with version 2\&.4 of SCons it\*(Aqs also possible to specify the optional argument \fIDebugSettings\fR, which creates files for debugging under Visual Studio: .PP DebugSettings .RS 4 A dictionary of debug settings that get written to the \&.vcproj\&.user or the \&.vcxproj\&.user file, depending on the version installed\&. As it is done for cmdargs (see above), you can specify a \fIDebugSettings\fR dictionary per variant\&. If you give only one, it will be propagated to all variants\&. .RE .sp Currently, only Visual Studio v9\&.0 and Visual Studio version v11 are implemented, for other versions no file is generated\&. To generate the user file, you just need to add a \fIDebugSettings\fR dictionary to the environment with the right parameters for your MSVS version\&. If the dictionary is empty, or does not contain any good value, no file will be generated\&. .sp Following is a more contrived example, involving the setup of a project for variants and DebugSettings: .sp .if n \{\ .RS 4 .\} .nf # Assuming you store your defaults in a file vars = Variables(\*(Aqvariables\&.py\*(Aq) msvcver = vars\&.args\&.get(\*(Aqvc\*(Aq, \*(Aq9\*(Aq) # Check command args to force one Microsoft Visual Studio version if msvcver == \*(Aq9\*(Aq or msvcver == \*(Aq11\*(Aq: env = Environment(MSVC_VERSION=msvcver+\*(Aq\&.0\*(Aq, MSVC_BATCH=False) else: env = Environment() AddOption(\*(Aq\-\-userfile\*(Aq, action=\*(Aqstore_true\*(Aq, dest=\*(Aquserfile\*(Aq, default=False, help="Create Visual Studio Project user file") # # 1\&. Configure your Debug Setting dictionary with options you want in the list # of allowed options, for instance if you want to create a user file to launch # a specific application for testing your dll with Microsoft Visual Studio 2008 (v9): # V9DebugSettings = { \*(AqCommand\*(Aq:\*(Aqc:\e\emyapp\e\eusing\e\ethisdll\&.exe\*(Aq, \*(AqWorkingDirectory\*(Aq: \*(Aqc:\e\emyapp\e\eusing\e\e\*(Aq, \*(AqCommandArguments\*(Aq: \*(Aq\-p password\*(Aq, # \*(AqAttach\*(Aq:\*(Aqfalse\*(Aq, # \*(AqDebuggerType\*(Aq:\*(Aq3\*(Aq, # \*(AqRemote\*(Aq:\*(Aq1\*(Aq, # \*(AqRemoteMachine\*(Aq: None, # \*(AqRemoteCommand\*(Aq: None, # \*(AqHttpUrl\*(Aq: None, # \*(AqPDBPath\*(Aq: None, # \*(AqSQLDebugging\*(Aq: None, # \*(AqEnvironment\*(Aq: \*(Aq\*(Aq, # \*(AqEnvironmentMerge\*(Aq:\*(Aqtrue\*(Aq, # \*(AqDebuggerFlavor\*(Aq: None, # \*(AqMPIRunCommand\*(Aq: None, # \*(AqMPIRunArguments\*(Aq: None, # \*(AqMPIRunWorkingDirectory\*(Aq: None, # \*(AqApplicationCommand\*(Aq: None, # \*(AqApplicationArguments\*(Aq: None, # \*(AqShimCommand\*(Aq: None, # \*(AqMPIAcceptMode\*(Aq: None, # \*(AqMPIAcceptFilter\*(Aq: None, } # # 2\&. Because there are a lot of different options depending on the Microsoft # Visual Studio version, if you use more than one version you have to # define a dictionary per version, for instance if you want to create a user # file to launch a specific application for testing your dll with Microsoft # Visual Studio 2012 (v11): # V10DebugSettings = { \*(AqLocalDebuggerCommand\*(Aq: \*(Aqc:\e\emyapp\e\eusing\e\ethisdll\&.exe\*(Aq, \*(AqLocalDebuggerWorkingDirectory\*(Aq: \*(Aqc:\e\emyapp\e\eusing\e\e\*(Aq, \*(AqLocalDebuggerCommandArguments\*(Aq: \*(Aq\-p password\*(Aq, # \*(AqLocalDebuggerEnvironment\*(Aq: None, # \*(AqDebuggerFlavor\*(Aq: \*(AqWindowsLocalDebugger\*(Aq, # \*(AqLocalDebuggerAttach\*(Aq: None, # \*(AqLocalDebuggerDebuggerType\*(Aq: None, # \*(AqLocalDebuggerMergeEnvironment\*(Aq: None, # \*(AqLocalDebuggerSQLDebugging\*(Aq: None, # \*(AqRemoteDebuggerCommand\*(Aq: None, # \*(AqRemoteDebuggerCommandArguments\*(Aq: None, # \*(AqRemoteDebuggerWorkingDirectory\*(Aq: None, # \*(AqRemoteDebuggerServerName\*(Aq: None, # \*(AqRemoteDebuggerConnection\*(Aq: None, # \*(AqRemoteDebuggerDebuggerType\*(Aq: None, # \*(AqRemoteDebuggerAttach\*(Aq: None, # \*(AqRemoteDebuggerSQLDebugging\*(Aq: None, # \*(AqDeploymentDirectory\*(Aq: None, # \*(AqAdditionalFiles\*(Aq: None, # \*(AqRemoteDebuggerDeployDebugCppRuntime\*(Aq: None, # \*(AqWebBrowserDebuggerHttpUrl\*(Aq: None, # \*(AqWebBrowserDebuggerDebuggerType\*(Aq: None, # \*(AqWebServiceDebuggerHttpUrl\*(Aq: None, # \*(AqWebServiceDebuggerDebuggerType\*(Aq: None, # \*(AqWebServiceDebuggerSQLDebugging\*(Aq: None, } # # 3\&. Select the dictionary you want depending on the version of visual Studio # Files you want to generate\&. # if not env\&.GetOption(\*(Aquserfile\*(Aq): dbgSettings = None elif env\&.get(\*(AqMSVC_VERSION\*(Aq, None) == \*(Aq9\&.0\*(Aq: dbgSettings = V9DebugSettings elif env\&.get(\*(AqMSVC_VERSION\*(Aq, None) == \*(Aq11\&.0\*(Aq: dbgSettings = V10DebugSettings else: dbgSettings = None # # 4\&. Add the dictionary to the DebugSettings keyword\&. # barsrcs = [\*(Aqbar\&.cpp\*(Aq, \*(Aqdllmain\&.cpp\*(Aq, \*(Aqstdafx\&.cpp\*(Aq] barincs = [\*(Aqtargetver\&.h\*(Aq] barlocalincs = [\*(AqStdAfx\&.h\*(Aq] barresources = [\*(Aqbar\&.rc\*(Aq,\*(Aqresource\&.h\*(Aq] barmisc = [\*(AqReadMe\&.txt\*(Aq] dll = env\&.SharedLibrary(target = \*(Aqbar\&.dll\*(Aq, source = barsrcs) env\&.MSVSProject(target = \*(AqBar\*(Aq + env[\*(AqMSVSPROJECTSUFFIX\*(Aq], srcs = barsrcs, incs = barincs, localincs = barlocalincs, resources = barresources, misc = barmisc, buildtarget = [dll[0]] * 2, variant = (\*(AqDebug|Win32\*(Aq, \*(AqRelease|Win32\*(Aq), cmdargs = \*(Aqvc=%s\*(Aq % msvcver, DebugSettings = (dbgSettings, {})) .fi .if n \{\ .RE .\} .RE .PP \fBMSVSSolution()\fR, \fBenv\&.MSVSSolution()\fR .RS 4 Builds a Microsoft Visual Studio solution file\&. .sp This builds a Visual Studio solution file, based on the version of Visual Studio that is configured (either the latest installed version, or the version specified by \fB$MSVS_VERSION\fR in the construction environment)\&. For Visual Studio 6, it will generate a \&.dsw file\&. For Visual Studio 7 (\&.NET), it will generate a \&.sln file\&. .sp The following values must be specified: .PP target .RS 4 The name of the target \&.dsw or \&.sln file\&. The correct suffix for the version of Visual Studio must be used, but the value \fB$MSVSSOLUTIONSUFFIX\fR will be defined to the correct value (see example below)\&. .RE .PP variant .RS 4 The name of this particular variant, or a list of variant names (the latter is only supported for MSVS 7 solutions)\&. These are typically things like "Debug" or "Release", but really can be anything you want\&. For MSVS 7 they may also specify target platform, like this "Debug|Xbox"\&. Default platform is Win32\&. .RE .PP projects .RS 4 A list of project file names, or Project nodes returned by calls to the \fBMSVSProject\fR Builder, to be placed into the solution file\&. It should be noted that these file names are NOT added to the $SOURCES environment variable in form of files, but rather as strings\&. This is because they represent file names to be added to the solution file, not the source files used to build the solution file\&. .RE .sp Example Usage: .sp .if n \{\ .RS 4 .\} .nf env\&.MSVSSolution(target = \*(AqBar\*(Aq + env[\*(AqMSVSSOLUTIONSUFFIX\*(Aq], projects = [\*(Aqbar\*(Aq + env[\*(AqMSVSPROJECTSUFFIX\*(Aq]], variant = \*(AqRelease\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBObject()\fR, \fBenv\&.Object()\fR .RS 4 A synonym for the \fBStaticObject\fR builder method\&. .RE .PP \fBPackage()\fR, \fBenv\&.Package()\fR .RS 4 Builds a Binary Package of the given source files\&. .sp .if n \{\ .RS 4 .\} .nf env\&.Package(source = FindInstalledFiles()) .fi .if n \{\ .RE .\} .sp Builds software distribution packages\&. Packages consist of files to install and packaging information\&. The former may be specified with the \fIsource\fR parameter and may be left out, in which case the \fBFindInstalledFiles\fR function will collect all files that have an \fBInstall\fR or \fBInstallAs\fR Builder attached\&. If the \fItarget\fR is not specified it will be deduced from additional information given to this Builder\&. .sp The packaging information is specified with the help of construction variables documented below\&. This information is called a tag to stress that some of them can also be attached to files with the \fBTag\fR function\&. The mandatory ones will complain if they were not specified\&. They vary depending on chosen target packager\&. .sp The target packager may be selected with the "PACKAGETYPE" command line option or with the \fB$PACKAGETYPE\fR construction variable\&. Currently the following packagers available: .sp * msi \- Microsoft Installer * rpm \- Redhat Package Manger * ipkg \- Itsy Package Management System * tarbz2 \- compressed tar * targz \- compressed tar * zip \- zip file * src_tarbz2 \- compressed tar source * src_targz \- compressed tar source * src_zip \- zip file source .sp An updated list is always available under the "package_type" option when running "scons \-\-help" on a project that has packaging activated\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools=[\*(Aqdefault\*(Aq, \*(Aqpackaging\*(Aq]) env\&.Install(\*(Aq/bin/\*(Aq, \*(Aqmy_program\*(Aq) env\&.Package( NAME = \*(Aqfoo\*(Aq, VERSION = \*(Aq1\&.2\&.3\*(Aq, PACKAGEVERSION = 0, PACKAGETYPE = \*(Aqrpm\*(Aq, LICENSE = \*(Aqgpl\*(Aq, SUMMARY = \*(Aqbalalalalal\*(Aq, DESCRIPTION = \*(Aqthis should be really really long\*(Aq, X_RPM_GROUP = \*(AqApplication/fu\*(Aq, SOURCE_URL = \*(Aqhttp://foo\&.org/foo\-1\&.2\&.3\&.tar\&.gz\*(Aq ) .fi .if n \{\ .RE .\} .RE .PP \fBPCH()\fR, \fBenv\&.PCH()\fR .RS 4 Builds a Microsoft Visual C++ precompiled header\&. Calling this builder method returns a list of two targets: the PCH as the first element, and the object file as the second element\&. Normally the object file is ignored\&. This builder method is only provided when Microsoft Visual C++ is being used as the compiler\&. The PCH builder method is generally used in conjunction with the PCH construction variable to force object files to use the precompiled header: .sp .if n \{\ .RS 4 .\} .nf env[\*(AqPCH\*(Aq] = env\&.PCH(\*(AqStdAfx\&.cpp\*(Aq)[0] .fi .if n \{\ .RE .\} .RE .PP \fBPDF()\fR, \fBenv\&.PDF()\fR .RS 4 Builds a \&.pdf file from a \&.dvi input file (or, by extension, a \&.tex, \&.ltx, or \&.latex input file)\&. The suffix specified by the \fB$PDFSUFFIX\fR construction variable (\&.pdf by default) is added automatically to the target if it is not already present\&. Example: .sp .if n \{\ .RS 4 .\} .nf # builds from aaa\&.tex env\&.PDF(target = \*(Aqaaa\&.pdf\*(Aq, source = \*(Aqaaa\&.tex\*(Aq) # builds bbb\&.pdf from bbb\&.dvi env\&.PDF(target = \*(Aqbbb\*(Aq, source = \*(Aqbbb\&.dvi\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBPOInit()\fR, \fBenv\&.POInit()\fR .RS 4 This builder belongs to msginit tool\&. The builder initializes missing PO file(s) if \fB$POAUTOINIT\fR is set\&. If \fB$POAUTOINIT\fR is not set (default), \fBPOInit\fR prints instruction for user (that is supposed to be a translator), telling how the PO file should be initialized\&. In normal projects \fIyou should not use \fR\fI\fBPOInit\fR\fR\fI and use \fR\fI\fBPOUpdate\fR\fR\fI instead\fR\&. \fBPOUpdate\fR chooses intelligently between \fBmsgmerge(1)\fR and \fBmsginit(1)\fR\&. \fBPOInit\fR always uses \fBmsginit(1)\fR and should be regarded as builder for special purposes or for temporary use (e\&.g\&. for quick, one time initialization of a bunch of PO files) or for tests\&. .sp Target nodes defined through \fBPOInit\fR are not built by default (they\*(Aqre Ignored from \*(Aq\&.\*(Aq node) but are added to special Alias (\*(Aqpo\-create\*(Aq by default)\&. The alias name may be changed through the \fB$POCREATE_ALIAS\fR construction variable\&. All PO files defined through \fBPOInit\fR may be easily initialized by \fBscons po\-create\fR\&. .sp \fIExample 1\fR\&. Initialize en\&.po and pl\&.po from messages\&.pot: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POInit([\*(Aqen\*(Aq, \*(Aqpl\*(Aq]) # messages\&.pot \-\-> [en\&.po, pl\&.po] .fi .if n \{\ .RE .\} .sp \fIExample 2\fR\&. Initialize en\&.po and pl\&.po from foo\&.pot: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POInit([\*(Aqen\*(Aq, \*(Aqpl\*(Aq], [\*(Aqfoo\*(Aq]) # foo\&.pot \-\-> [en\&.po, pl\&.po] .fi .if n \{\ .RE .\} .sp \fIExample 3\fR\&. Initialize en\&.po and pl\&.po from foo\&.pot but using \fB$POTDOMAIN\fR construction variable: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POInit([\*(Aqen\*(Aq, \*(Aqpl\*(Aq], POTDOMAIN=\*(Aqfoo\*(Aq) # foo\&.pot \-\-> [en\&.po, pl\&.po] .fi .if n \{\ .RE .\} .sp \fIExample 4\fR\&. Initialize PO files for languages defined in LINGUAS file\&. The files will be initialized from template messages\&.pot: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POInit(LINGUAS_FILE = 1) # needs \*(AqLINGUAS\*(Aq file .fi .if n \{\ .RE .\} .sp \fIExample 5\fR\&. Initialize en\&.po and pl\&.pl PO files plus files for languages defined in LINGUAS file\&. The files will be initialized from template messages\&.pot: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POInit([\*(Aqen\*(Aq, \*(Aqpl\*(Aq], LINGUAS_FILE = 1) .fi .if n \{\ .RE .\} .sp \fIExample 6\fR\&. You may preconfigure your environment first, and then initialize PO files: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env[\*(AqPOAUTOINIT\*(Aq] = 1 env[\*(AqLINGUAS_FILE\*(Aq] = 1 env[\*(AqPOTDOMAIN\*(Aq] = \*(Aqfoo\*(Aq env\&.POInit() .fi .if n \{\ .RE .\} .sp which has same efect as: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POInit(POAUTOINIT = 1, LINGUAS_FILE = 1, POTDOMAIN = \*(Aqfoo\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBPostScript()\fR, \fBenv\&.PostScript()\fR .RS 4 Builds a \&.ps file from a \&.dvi input file (or, by extension, a \&.tex, \&.ltx, or \&.latex input file)\&. The suffix specified by the \fB$PSSUFFIX\fR construction variable (\&.ps by default) is added automatically to the target if it is not already present\&. Example: .sp .if n \{\ .RS 4 .\} .nf # builds from aaa\&.tex env\&.PostScript(target = \*(Aqaaa\&.ps\*(Aq, source = \*(Aqaaa\&.tex\*(Aq) # builds bbb\&.ps from bbb\&.dvi env\&.PostScript(target = \*(Aqbbb\*(Aq, source = \*(Aqbbb\&.dvi\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBPOTUpdate()\fR, \fBenv\&.POTUpdate()\fR .RS 4 The builder belongs to xgettext tool\&. The builder updates target POT file if exists or creates one if it doesn\*(Aqt\&. The node is not built by default (i\&.e\&. it is Ignored from \*(Aq\&.\*(Aq), but only on demand (i\&.e\&. when given POT file is required or when special alias is invoked)\&. This builder adds its targe node (messages\&.pot, say) to a special alias (pot\-update by default, see \fB$POTUPDATE_ALIAS\fR) so you can update/create them easily with \fBscons pot\-update\fR\&. The file is not written until there is no real change in internationalized messages (or in comments that enter POT file)\&. .sp .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBNote\fR .ps -1 .br You may see \fBxgettext(1)\fR being invoked by the xgettext tool even if there is no real change in internationalized messages (so the POT file is not being updated)\&. This happens every time a source file has changed\&. In such case we invoke \fBxgettext(1)\fR and compare its output with the content of POT file to decide whether the file should be updated or not\&. .sp .5v .RE .sp \fIExample 1\&.\fR Let\*(Aqs create po/ directory and place following SConstruct script there: .sp .if n \{\ .RS 4 .\} .nf # SConstruct in \*(Aqpo/\*(Aq subdir env = Environment( tools = [\*(Aqdefault\*(Aq, \*(Aqxgettext\*(Aq] ) env\&.POTUpdate([\*(Aqfoo\*(Aq], [\*(Aq\&.\&./a\&.cpp\*(Aq, \*(Aq\&.\&./b\&.cpp\*(Aq]) env\&.POTUpdate([\*(Aqbar\*(Aq], [\*(Aq\&.\&./c\&.cpp\*(Aq, \*(Aq\&.\&./d\&.cpp\*(Aq]) .fi .if n \{\ .RE .\} .sp Then invoke scons few times: .sp .if n \{\ .RS 4 .\} .nf user@host:$ scons # Does not create foo\&.pot nor bar\&.pot user@host:$ scons foo\&.pot # Updates or creates foo\&.pot user@host:$ scons pot\-update # Updates or creates foo\&.pot and bar\&.pot user@host:$ scons \-c # Does not clean foo\&.pot nor bar\&.pot\&. .fi .if n \{\ .RE .\} .sp the results shall be as the comments above say\&. .sp \fIExample 2\&.\fR The \fBPOTUpdate\fR builder may be used with no target specified, in which case default target messages\&.pot will be used\&. The default target may also be overridden by setting \fB$POTDOMAIN\fR construction variable or providing it as an override to \fBPOTUpdate\fR builder: .sp .if n \{\ .RS 4 .\} .nf # SConstruct script env = Environment( tools = [\*(Aqdefault\*(Aq, \*(Aqxgettext\*(Aq] ) env[\*(AqPOTDOMAIN\*(Aq] = "foo" env\&.POTUpdate(source = ["a\&.cpp", "b\&.cpp"]) # Creates foo\&.pot \&.\&.\&. env\&.POTUpdate(POTDOMAIN = "bar", source = ["c\&.cpp", "d\&.cpp"]) # and bar\&.pot .fi .if n \{\ .RE .\} .sp \fIExample 3\&.\fR The sources may be specified within separate file, for example POTFILES\&.in: .sp .if n \{\ .RS 4 .\} .nf # POTFILES\&.in in \*(Aqpo/\*(Aq subdirectory \&.\&./a\&.cpp \&.\&./b\&.cpp # end of file .fi .if n \{\ .RE .\} .sp The name of the file (POTFILES\&.in) containing the list of sources is provided via \fB$XGETTEXTFROM\fR: .sp .if n \{\ .RS 4 .\} .nf # SConstruct file in \*(Aqpo/\*(Aq subdirectory env = Environment( tools = [\*(Aqdefault\*(Aq, \*(Aqxgettext\*(Aq] ) env\&.POTUpdate(XGETTEXTFROM = \*(AqPOTFILES\&.in\*(Aq) .fi .if n \{\ .RE .\} .sp \fIExample 4\&.\fR You may use \fB$XGETTEXTPATH\fR to define source search path\&. Assume, for example, that you have files a\&.cpp, b\&.cpp, po/SConstruct, po/POTFILES\&.in\&. Then your POT\-related files could look as below: .sp .if n \{\ .RS 4 .\} .nf # POTFILES\&.in in \*(Aqpo/\*(Aq subdirectory a\&.cpp b\&.cpp # end of file .fi .if n \{\ .RE .\} .sp .if n \{\ .RS 4 .\} .nf # SConstruct file in \*(Aqpo/\*(Aq subdirectory env = Environment( tools = [\*(Aqdefault\*(Aq, \*(Aqxgettext\*(Aq] ) env\&.POTUpdate(XGETTEXTFROM = \*(AqPOTFILES\&.in\*(Aq, XGETTEXTPATH=\*(Aq\&.\&./\*(Aq) .fi .if n \{\ .RE .\} .sp \fIExample 5\&.\fR Multiple search directories may be defined within a list, i\&.e\&. XGETTEXTPATH = [\*(Aqdir1\*(Aq, \*(Aqdir2\*(Aq, \&.\&.\&.]\&. The order in the list determines the search order of source files\&. The path to the first file found is used\&. .sp Let\*(Aqs create 0/1/po/SConstruct script: .sp .if n \{\ .RS 4 .\} .nf # SConstruct file in \*(Aq0/1/po/\*(Aq subdirectory env = Environment( tools = [\*(Aqdefault\*(Aq, \*(Aqxgettext\*(Aq] ) env\&.POTUpdate(XGETTEXTFROM = \*(AqPOTFILES\&.in\*(Aq, XGETTEXTPATH=[\*(Aq\&.\&./\*(Aq, \*(Aq\&.\&./\&.\&./\*(Aq]) .fi .if n \{\ .RE .\} .sp and 0/1/po/POTFILES\&.in: .sp .if n \{\ .RS 4 .\} .nf # POTFILES\&.in in \*(Aq0/1/po/\*(Aq subdirectory a\&.cpp # end of file .fi .if n \{\ .RE .\} .sp Write two *\&.cpp files, the first one is 0/a\&.cpp: .sp .if n \{\ .RS 4 .\} .nf /* 0/a\&.cpp */ gettext("Hello from \&.\&./\&.\&./a\&.cpp") .fi .if n \{\ .RE .\} .sp and the second is 0/1/a\&.cpp: .sp .if n \{\ .RS 4 .\} .nf /* 0/1/a\&.cpp */ gettext("Hello from \&.\&./a\&.cpp") .fi .if n \{\ .RE .\} .sp then run scons\&. You\*(Aqll obtain 0/1/po/messages\&.pot with the message "Hello from \&.\&./a\&.cpp"\&. When you reverse order in \fI$XGETTEXTFOM\fR, i\&.e\&. when you write SConscript as .sp .if n \{\ .RS 4 .\} .nf # SConstruct file in \*(Aq0/1/po/\*(Aq subdirectory env = Environment( tools = [\*(Aqdefault\*(Aq, \*(Aqxgettext\*(Aq] ) env\&.POTUpdate(XGETTEXTFROM = \*(AqPOTFILES\&.in\*(Aq, XGETTEXTPATH=[\*(Aq\&.\&./\&.\&./\*(Aq, \*(Aq\&.\&./\*(Aq]) .fi .if n \{\ .RE .\} .sp then the messages\&.pot will contain msgid "Hello from \&.\&./\&.\&./a\&.cpp" line and not msgid "Hello from \&.\&./a\&.cpp"\&. .RE .PP \fBPOUpdate()\fR, \fBenv\&.POUpdate()\fR .RS 4 The builder belongs to msgmerge tool\&. The builder updates PO files with \fBmsgmerge(1)\fR, or initializes missing PO files as described in documentation of msginit tool and \fBPOInit\fR builder (see also \fB$POAUTOINIT\fR)\&. Note, that \fBPOUpdate\fR \fIdoes not add its targets to \fR\fIpo\-create\fR\fI alias\fR as \fBPOInit\fR does\&. .sp Target nodes defined through \fBPOUpdate\fR are not built by default (they\*(Aqre Ignored from \*(Aq\&.\*(Aq node)\&. Instead, they are added automatically to special Alias (\*(Aqpo\-update\*(Aq by default)\&. The alias name may be changed through the \fB$POUPDATE_ALIAS\fR construction variable\&. You can easily update PO files in your project by \fBscons po\-update\fR\&. .sp \fIExample 1\&.\fR Update en\&.po and pl\&.po from messages\&.pot template (see also \fB$POTDOMAIN\fR), assuming that the later one exists or there is rule to build it (see \fBPOTUpdate\fR): .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POUpdate([\*(Aqen\*(Aq,\*(Aqpl\*(Aq]) # messages\&.pot \-\-> [en\&.po, pl\&.po] .fi .if n \{\ .RE .\} .sp \fIExample 2\&.\fR Update en\&.po and pl\&.po from foo\&.pot template: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POUpdate([\*(Aqen\*(Aq, \*(Aqpl\*(Aq], [\*(Aqfoo\*(Aq]) # foo\&.pot \-\-> [en\&.po, pl\&.pl] .fi .if n \{\ .RE .\} .sp \fIExample 3\&.\fR Update en\&.po and pl\&.po from foo\&.pot (another version): .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POUpdate([\*(Aqen\*(Aq, \*(Aqpl\*(Aq], POTDOMAIN=\*(Aqfoo\*(Aq) # foo\&.pot \-\- > [en\&.po, pl\&.pl] .fi .if n \{\ .RE .\} .sp \fIExample 4\&.\fR Update files for languages defined in LINGUAS file\&. The files are updated from messages\&.pot template: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POUpdate(LINGUAS_FILE = 1) # needs \*(AqLINGUAS\*(Aq file .fi .if n \{\ .RE .\} .sp \fIExample 5\&.\fR Same as above, but update from foo\&.pot template: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POUpdate(LINGUAS_FILE = 1, source = [\*(Aqfoo\*(Aq]) .fi .if n \{\ .RE .\} .sp \fIExample 6\&.\fR Update en\&.po and pl\&.po plus files for languages defined in LINGUAS file\&. The files are updated from messages\&.pot template: .sp .if n \{\ .RS 4 .\} .nf # produce \*(Aqen\&.po\*(Aq, \*(Aqpl\&.po\*(Aq + files defined in \*(AqLINGUAS\*(Aq: env\&.POUpdate([\*(Aqen\*(Aq, \*(Aqpl\*(Aq ], LINGUAS_FILE = 1) .fi .if n \{\ .RE .\} .sp \fIExample 7\&.\fR Use \fB$POAUTOINIT\fR to automatically initialize PO file if it doesn\*(Aqt exist: .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env\&.POUpdate(LINGUAS_FILE = 1, POAUTOINIT = 1) .fi .if n \{\ .RE .\} .sp \fIExample 8\&.\fR Update PO files for languages defined in LINGUAS file\&. The files are updated from foo\&.pot template\&. All necessary settings are pre\-configured via environment\&. .sp .if n \{\ .RS 4 .\} .nf # \&.\&.\&. env[\*(AqPOAUTOINIT\*(Aq] = 1 env[\*(AqLINGUAS_FILE\*(Aq] = 1 env[\*(AqPOTDOMAIN\*(Aq] = \*(Aqfoo\*(Aq env\&.POUpdate() .fi .if n \{\ .RE .\} .RE .PP \fBProgram()\fR, \fBenv\&.Program()\fR .RS 4 Builds an executable given one or more object files or C, C++, D, or Fortran source files\&. If any C, C++, D or Fortran source files are specified, then they will be automatically compiled to object files using the \fBObject\fR builder method; see that builder method\*(Aqs description for a list of legal source file suffixes and how they are interpreted\&. The target executable file prefix (specified by the \fB$PROGPREFIX\fR construction variable; nothing by default) and suffix (specified by the \fB$PROGSUFFIX\fR construction variable; by default, \&.exe on Windows systems, nothing on POSIX systems) are automatically added to the target if not already present\&. Example: .sp .if n \{\ .RS 4 .\} .nf env\&.Program(target = \*(Aqfoo\*(Aq, source = [\*(Aqfoo\&.o\*(Aq, \*(Aqbar\&.c\*(Aq, \*(Aqbaz\&.f\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP \fBProgramAllAtOnce()\fR, \fBenv\&.ProgramAllAtOnce()\fR .RS 4 Builds an executable from D sources without first creating individual objects for each file\&. .sp D sources can be compiled file\-by\-file as C and C++ source are, and D is integrated into the scons Object and Program builders for this model of build\&. D codes can though do whole source meta\-programming (some of the testing frameworks do this)\&. For this it is imperative that all sources are compiled and linked in a single call of the D compiler\&. This builder serves that purpose\&. .sp .if n \{\ .RS 4 .\} .nf env\&.ProgramAllAtOnce(\*(Aqexecutable\*(Aq, [\*(Aqmod_a\&.d, mod_b\&.d\*(Aq, \*(Aqmod_c\&.d\*(Aq]) .fi .if n \{\ .RE .\} .sp This command will compile the modules mod_a, mod_b, and mod_c in a single compilation process without first creating object files for the modules\&. Some of the D compilers will create executable\&.o others will not\&. .sp Builds an executable from D sources without first creating individual objects for each file\&. .sp D sources can be compiled file\-by\-file as C and C++ source are, and D is integrated into the scons Object and Program builders for this model of build\&. D codes can though do whole source meta\-programming (some of the testing frameworks do this)\&. For this it is imperative that all sources are compiled and linked in a single call of the D compiler\&. This builder serves that purpose\&. .sp .if n \{\ .RS 4 .\} .nf env\&.ProgramAllAtOnce(\*(Aqexecutable\*(Aq, [\*(Aqmod_a\&.d, mod_b\&.d\*(Aq, \*(Aqmod_c\&.d\*(Aq]) .fi .if n \{\ .RE .\} .sp This command will compile the modules mod_a, mod_b, and mod_c in a single compilation process without first creating object files for the modules\&. Some of the D compilers will create executable\&.o others will not\&. .sp Builds an executable from D sources without first creating individual objects for each file\&. .sp D sources can be compiled file\-by\-file as C and C++ source are, and D is integrated into the scons Object and Program builders for this model of build\&. D codes can though do whole source meta\-programming (some of the testing frameworks do this)\&. For this it is imperative that all sources are compiled and linked in a single call of the D compiler\&. This builder serves that purpose\&. .sp .if n \{\ .RS 4 .\} .nf env\&.ProgramAllAtOnce(\*(Aqexecutable\*(Aq, [\*(Aqmod_a\&.d, mod_b\&.d\*(Aq, \*(Aqmod_c\&.d\*(Aq]) .fi .if n \{\ .RE .\} .sp This command will compile the modules mod_a, mod_b, and mod_c in a single compilation process without first creating object files for the modules\&. Some of the D compilers will create executable\&.o others will not\&. .RE .PP \fBRES()\fR, \fBenv\&.RES()\fR .RS 4 Builds a Microsoft Visual C++ resource file\&. This builder method is only provided when Microsoft Visual C++ or MinGW is being used as the compiler\&. The \&.res (or \&.o for MinGW) suffix is added to the target name if no other suffix is given\&. The source file is scanned for implicit dependencies as though it were a C file\&. Example: .sp .if n \{\ .RS 4 .\} .nf env\&.RES(\*(Aqresource\&.rc\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBRMIC()\fR, \fBenv\&.RMIC()\fR .RS 4 Builds stub and skeleton class files for remote objects from Java \&.class files\&. The target is a directory relative to which the stub and skeleton class files will be written\&. The source can be the names of \&.class files, or the objects return from the \fBJava\fR builder method\&. .sp If the construction variable \fB$JAVACLASSDIR\fR is set, either in the environment or in the call to the \fBRMIC\fR builder method itself, then the value of the variable will be stripped from the beginning of any \&.class file names\&. .sp .if n \{\ .RS 4 .\} .nf classes = env\&.Java(target = \*(Aqclassdir\*(Aq, source = \*(Aqsrc\*(Aq) env\&.RMIC(target = \*(Aqoutdir1\*(Aq, source = classes) env\&.RMIC(target = \*(Aqoutdir2\*(Aq, source = [\*(Aqpackage/foo\&.class\*(Aq, \*(Aqpackage/bar\&.class\*(Aq]) env\&.RMIC(target = \*(Aqoutdir3\*(Aq, source = [\*(Aqclasses/foo\&.class\*(Aq, \*(Aqclasses/bar\&.class\*(Aq], JAVACLASSDIR = \*(Aqclasses\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBRPCGenClient()\fR, \fBenv\&.RPCGenClient()\fR .RS 4 Generates an RPC client stub (_clnt\&.c) file from a specified RPC (\&.x) source file\&. Because rpcgen only builds output files in the local directory, the command will be executed in the source file\*(Aqs directory by default\&. .sp .if n \{\ .RS 4 .\} .nf # Builds src/rpcif_clnt\&.c env\&.RPCGenClient(\*(Aqsrc/rpcif\&.x\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBRPCGenHeader()\fR, \fBenv\&.RPCGenHeader()\fR .RS 4 Generates an RPC header (\&.h) file from a specified RPC (\&.x) source file\&. Because rpcgen only builds output files in the local directory, the command will be executed in the source file\*(Aqs directory by default\&. .sp .if n \{\ .RS 4 .\} .nf # Builds src/rpcif\&.h env\&.RPCGenHeader(\*(Aqsrc/rpcif\&.x\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBRPCGenService()\fR, \fBenv\&.RPCGenService()\fR .RS 4 Generates an RPC server\-skeleton (_svc\&.c) file from a specified RPC (\&.x) source file\&. Because rpcgen only builds output files in the local directory, the command will be executed in the source file\*(Aqs directory by default\&. .sp .if n \{\ .RS 4 .\} .nf # Builds src/rpcif_svc\&.c env\&.RPCGenClient(\*(Aqsrc/rpcif\&.x\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBRPCGenXDR()\fR, \fBenv\&.RPCGenXDR()\fR .RS 4 Generates an RPC XDR routine (_xdr\&.c) file from a specified RPC (\&.x) source file\&. Because rpcgen only builds output files in the local directory, the command will be executed in the source file\*(Aqs directory by default\&. .sp .if n \{\ .RS 4 .\} .nf # Builds src/rpcif_xdr\&.c env\&.RPCGenClient(\*(Aqsrc/rpcif\&.x\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBSharedLibrary()\fR, \fBenv\&.SharedLibrary()\fR .RS 4 Builds a shared library (\&.so on a POSIX system, \&.dll on Windows) given one or more object files or C, C++, D or Fortran source files\&. If any source files are given, then they will be automatically compiled to object files\&. The static library prefix and suffix (if any) are automatically added to the target\&. The target library file prefix (specified by the \fB$SHLIBPREFIX\fR construction variable; by default, lib on POSIX systems, nothing on Windows systems) and suffix (specified by the \fB$SHLIBSUFFIX\fR construction variable; by default, \&.dll on Windows systems, \&.so on POSIX systems) are automatically added to the target if not already present\&. Example: .sp .if n \{\ .RS 4 .\} .nf env\&.SharedLibrary(target = \*(Aqbar\*(Aq, source = [\*(Aqbar\&.c\*(Aq, \*(Aqfoo\&.o\*(Aq]) .fi .if n \{\ .RE .\} .sp On Windows systems, the \fBSharedLibrary\fR builder method will always build an import (\&.lib) library in addition to the shared (\&.dll) library, adding a \&.lib library with the same basename if there is not already a \&.lib file explicitly listed in the targets\&. .sp On Cygwin systems, the \fBSharedLibrary\fR builder method will always build an import (\&.dll\&.a) library in addition to the shared (\&.dll) library, adding a \&.dll\&.a library with the same basename if there is not already a \&.dll\&.a file explicitly listed in the targets\&. .sp Any object files listed in the source must have been built for a shared library (that is, using the \fBSharedObject\fR builder method)\&. scons will raise an error if there is any mismatch\&. .sp On some platforms, there is a distinction between a shared library (loaded automatically by the system to resolve external references) and a loadable module (explicitly loaded by user action)\&. For maximum portability, use the \fBLoadableModule\fR builder for the latter\&. .sp When the \fB$SHLIBVERSION\fR construction variable is defined a versioned shared library is created\&. This modifies the \fB$SHLINKFLAGS\fR as required, adds the version number to the library name, and creates the symlinks that are needed\&. .sp .if n \{\ .RS 4 .\} .nf env\&.SharedLibrary(target = \*(Aqbar\*(Aq, source = [\*(Aqbar\&.c\*(Aq, \*(Aqfoo\&.o\*(Aq], SHLIBVERSION=\*(Aq1\&.5\&.2\*(Aq) .fi .if n \{\ .RE .\} .sp On a POSIX system, versions with a single token create exactly one symlink: libbar\&.so\&.6 would have symlinks libbar\&.so only\&. On a POSIX system, versions with two or more tokens create exactly two symlinks: libbar\&.so\&.2\&.3\&.1 would have symlinks libbar\&.so and libbar\&.so\&.2; on a Darwin (OSX) system the library would be libbar\&.2\&.3\&.1\&.dylib and the link would be libbar\&.dylib\&. .sp On Windows systems, specifying register=1 will cause the \&.dll to be registered after it is built using REGSVR32\&. The command that is run ("regsvr32" by default) is determined by \fB$REGSVR\fR construction variable, and the flags passed are determined by \fB$REGSVRFLAGS\fR\&. By default, \fB$REGSVRFLAGS\fR includes the \fB/s\fR option, to prevent dialogs from popping up and requiring user attention when it is run\&. If you change \fB$REGSVRFLAGS\fR, be sure to include the \fB/s\fR option\&. For example, .sp .if n \{\ .RS 4 .\} .nf env\&.SharedLibrary(target = \*(Aqbar\*(Aq, source = [\*(Aqbar\&.cxx\*(Aq, \*(Aqfoo\&.obj\*(Aq], register=1) .fi .if n \{\ .RE .\} .sp will register bar\&.dll as a COM object when it is done linking it\&. .RE .PP \fBSharedObject()\fR, \fBenv\&.SharedObject()\fR .RS 4 Builds an object file for inclusion in a shared library\&. Source files must have one of the same set of extensions specified above for the \fBStaticObject\fR builder method\&. On some platforms building a shared object requires additional compiler option (e\&.g\&. \fB\-fPIC\fR for gcc) in addition to those needed to build a normal (static) object, but on some platforms there is no difference between a shared object and a normal (static) one\&. When there is a difference, SCons will only allow shared objects to be linked into a shared library, and will use a different suffix for shared objects\&. On platforms where there is no difference, SCons will allow both normal (static) and shared objects to be linked into a shared library, and will use the same suffix for shared and normal (static) objects\&. The target object file prefix (specified by the \fB$SHOBJPREFIX\fR construction variable; by default, the same as \fB$OBJPREFIX\fR) and suffix (specified by the \fB$SHOBJSUFFIX\fR construction variable) are automatically added to the target if not already present\&. Examples: .sp .if n \{\ .RS 4 .\} .nf env\&.SharedObject(target = \*(Aqddd\*(Aq, source = \*(Aqddd\&.c\*(Aq) env\&.SharedObject(target = \*(Aqeee\&.o\*(Aq, source = \*(Aqeee\&.cpp\*(Aq) env\&.SharedObject(target = \*(Aqfff\&.obj\*(Aq, source = \*(Aqfff\&.for\*(Aq) .fi .if n \{\ .RE .\} .sp Note that the source files will be scanned according to the suffix mappings in the SourceFileScanner object\&. See the section "Scanner Objects," below, for more information\&. .RE .PP \fBStaticLibrary()\fR, \fBenv\&.StaticLibrary()\fR .RS 4 Builds a static library given one or more object files or C, C++, D or Fortran source files\&. If any source files are given, then they will be automatically compiled to object files\&. The static library prefix and suffix (if any) are automatically added to the target\&. The target library file prefix (specified by the \fB$LIBPREFIX\fR construction variable; by default, lib on POSIX systems, nothing on Windows systems) and suffix (specified by the \fB$LIBSUFFIX\fR construction variable; by default, \&.lib on Windows systems, \&.a on POSIX systems) are automatically added to the target if not already present\&. Example: .sp .if n \{\ .RS 4 .\} .nf env\&.StaticLibrary(target = \*(Aqbar\*(Aq, source = [\*(Aqbar\&.c\*(Aq, \*(Aqfoo\&.o\*(Aq]) .fi .if n \{\ .RE .\} .sp Any object files listed in the source must have been built for a static library (that is, using the \fBStaticObject\fR builder method)\&. scons will raise an error if there is any mismatch\&. .RE .PP \fBStaticObject()\fR, \fBenv\&.StaticObject()\fR .RS 4 Builds a static object file from one or more C, C++, D, or Fortran source files\&. Source files must have one of the following extensions: .sp .if n \{\ .RS 4 .\} .nf \&.asm assembly language file \&.ASM assembly language file \&.c C file \&.C Windows: C file POSIX: C++ file \&.cc C++ file \&.cpp C++ file \&.cxx C++ file \&.cxx C++ file \&.c++ C++ file \&.C++ C++ file \&.d D file \&.f Fortran file \&.F Windows: Fortran file POSIX: Fortran file + C pre\-processor \&.for Fortran file \&.FOR Fortran file \&.fpp Fortran file + C pre\-processor \&.FPP Fortran file + C pre\-processor \&.m Object C file \&.mm Object C++ file \&.s assembly language file \&.S Windows: assembly language file ARM: CodeSourcery Sourcery Lite \&.sx assembly language file + C pre\-processor POSIX: assembly language file + C pre\-processor \&.spp assembly language file + C pre\-processor \&.SPP assembly language file + C pre\-processor .fi .if n \{\ .RE .\} .sp The target object file prefix (specified by the \fB$OBJPREFIX\fR construction variable; nothing by default) and suffix (specified by the \fB$OBJSUFFIX\fR construction variable; \&.obj on Windows systems, \&.o on POSIX systems) are automatically added to the target if not already present\&. Examples: .sp .if n \{\ .RS 4 .\} .nf env\&.StaticObject(target = \*(Aqaaa\*(Aq, source = \*(Aqaaa\&.c\*(Aq) env\&.StaticObject(target = \*(Aqbbb\&.o\*(Aq, source = \*(Aqbbb\&.c++\*(Aq) env\&.StaticObject(target = \*(Aqccc\&.obj\*(Aq, source = \*(Aqccc\&.f\*(Aq) .fi .if n \{\ .RE .\} .sp Note that the source files will be scanned according to the suffix mappings in SourceFileScanner object\&. See the section "Scanner Objects," below, for more information\&. .RE .PP \fBSubstfile()\fR, \fBenv\&.Substfile()\fR .RS 4 The \fBSubstfile\fR builder creates a single text file from another file or set of files by concatenating them with \fB$LINESEPARATOR\fR and replacing text using the \fB$SUBST_DICT\fR construction variable\&. Nested lists of source files are flattened\&. See also \fBTextfile\fR\&. .sp If a single source file is present with an \&.in suffix, the suffix is stripped and the remainder is used as the default target name\&. .sp The prefix and suffix specified by the \fB$SUBSTFILEPREFIX\fR and \fB$SUBSTFILESUFFIX\fR construction variables (the null string by default in both cases) are automatically added to the target if they are not already present\&. .sp If a construction variable named \fB$SUBST_DICT\fR is present, it may be either a Python dictionary or a sequence of (key,value) tuples\&. If it is a dictionary it is converted into a list of tuples in an arbitrary order, so if one key is a prefix of another key or if one substitution could be further expanded by another subsitition, it is unpredictable whether the expansion will occur\&. .sp Any occurrences of a key in the source are replaced by the corresponding value, which may be a Python callable function or a string\&. If the value is a callable, it is called with no arguments to get a string\&. Strings are \fIsubst\fR\-expanded and the result replaces the key\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools = [\*(Aqdefault\*(Aq, \*(Aqtextfile\*(Aq]) env[\*(Aqprefix\*(Aq] = \*(Aq/usr/bin\*(Aq script_dict = {\*(Aq@prefix@\*(Aq: \*(Aq/bin\*(Aq, \*(Aq@exec_prefix@\*(Aq: \*(Aq$prefix\*(Aq} env\&.Substfile(\*(Aqscript\&.in\*(Aq, SUBST_DICT = script_dict) conf_dict = {\*(Aq%VERSION%\*(Aq: \*(Aq1\&.2\&.3\*(Aq, \*(Aq%BASE%\*(Aq: \*(AqMyProg\*(Aq} env\&.Substfile(\*(Aqconfig\&.h\&.in\*(Aq, conf_dict, SUBST_DICT = conf_dict) # UNPREDICTABLE \- one key is a prefix of another bad_foo = {\*(Aq$foo\*(Aq: \*(Aq$foo\*(Aq, \*(Aq$foobar\*(Aq: \*(Aq$foobar\*(Aq} env\&.Substfile(\*(Aqfoo\&.in\*(Aq, SUBST_DICT = bad_foo) # PREDICTABLE \- keys are applied longest first good_foo = [(\*(Aq$foobar\*(Aq, \*(Aq$foobar\*(Aq), (\*(Aq$foo\*(Aq, \*(Aq$foo\*(Aq)] env\&.Substfile(\*(Aqfoo\&.in\*(Aq, SUBST_DICT = good_foo) # UNPREDICTABLE \- one substitution could be futher expanded bad_bar = {\*(Aq@bar@\*(Aq: \*(Aq@soap@\*(Aq, \*(Aq@soap@\*(Aq: \*(Aqlye\*(Aq} env\&.Substfile(\*(Aqbar\&.in\*(Aq, SUBST_DICT = bad_bar) # PREDICTABLE \- substitutions are expanded in order good_bar = ((\*(Aq@bar@\*(Aq, \*(Aq@soap@\*(Aq), (\*(Aq@soap@\*(Aq, \*(Aqlye\*(Aq)) env\&.Substfile(\*(Aqbar\&.in\*(Aq, SUBST_DICT = good_bar) # the SUBST_DICT may be in common (and not an override) substutions = {} subst = Environment(tools = [\*(Aqtextfile\*(Aq], SUBST_DICT = substitutions) substitutions[\*(Aq@foo@\*(Aq] = \*(Aqfoo\*(Aq subst[\*(AqSUBST_DICT\*(Aq][\*(Aq@bar@\*(Aq] = \*(Aqbar\*(Aq subst\&.Substfile(\*(Aqpgm1\&.c\*(Aq, [Value(\*(Aq#include "@foo@\&.h"\*(Aq), Value(\*(Aq#include "@bar@\&.h"\*(Aq), "common\&.in", "pgm1\&.in" ]) subst\&.Substfile(\*(Aqpgm2\&.c\*(Aq, [Value(\*(Aq#include "@foo@\&.h"\*(Aq), Value(\*(Aq#include "@bar@\&.h"\*(Aq), "common\&.in", "pgm2\&.in" ]) .fi .if n \{\ .RE .\} .RE .PP \fBTar()\fR, \fBenv\&.Tar()\fR .RS 4 Builds a tar archive of the specified files and/or directories\&. Unlike most builder methods, the \fBTar\fR builder method may be called multiple times for a given target; each additional call adds to the list of entries that will be built into the archive\&. Any source directories will be scanned for changes to any on\-disk files, regardless of whether or not scons knows about them from other Builder or function calls\&. .sp .if n \{\ .RS 4 .\} .nf env\&.Tar(\*(Aqsrc\&.tar\*(Aq, \*(Aqsrc\*(Aq) # Create the stuff\&.tar file\&. env\&.Tar(\*(Aqstuff\*(Aq, [\*(Aqsubdir1\*(Aq, \*(Aqsubdir2\*(Aq]) # Also add "another" to the stuff\&.tar file\&. env\&.Tar(\*(Aqstuff\*(Aq, \*(Aqanother\*(Aq) # Set TARFLAGS to create a gzip\-filtered archive\&. env = Environment(TARFLAGS = \*(Aq\-c \-z\*(Aq) env\&.Tar(\*(Aqfoo\&.tar\&.gz\*(Aq, \*(Aqfoo\*(Aq) # Also set the suffix to \&.tgz\&. env = Environment(TARFLAGS = \*(Aq\-c \-z\*(Aq, TARSUFFIX = \*(Aq\&.tgz\*(Aq) env\&.Tar(\*(Aqfoo\*(Aq) .fi .if n \{\ .RE .\} .RE .PP \fBTextfile()\fR, \fBenv\&.Textfile()\fR .RS 4 The \fBTextfile\fR builder generates a single text file\&. The source strings constitute the lines; nested lists of sources are flattened\&. \fB$LINESEPARATOR\fR is used to separate the strings\&. .sp If present, the \fB$SUBST_DICT\fR construction variable is used to modify the strings before they are written; see the \fBSubstfile\fR description for details\&. .sp The prefix and suffix specified by the \fB$TEXTFILEPREFIX\fR and \fB$TEXTFILESUFFIX\fR construction variables (the null string and \&.txt by default, respectively) are automatically added to the target if they are not already present\&. Examples: .sp .if n \{\ .RS 4 .\} .nf # builds/writes foo\&.txt env\&.Textfile(target = \*(Aqfoo\&.txt\*(Aq, source = [\*(AqGoethe\*(Aq, 42, \*(AqSchiller\*(Aq]) # builds/writes bar\&.txt env\&.Textfile(target = \*(Aqbar\*(Aq, source = [\*(Aqlalala\*(Aq, \*(Aqtanteratei\*(Aq], LINESEPARATOR=\*(Aq|*\*(Aq) # nested lists are flattened automatically env\&.Textfile(target = \*(Aqblob\*(Aq, source = [\*(Aqlalala\*(Aq, [\*(AqGoethe\*(Aq, 42 \*(AqSchiller\*(Aq], \*(Aqtanteratei\*(Aq]) # files may be used as input by wraping them in File() env\&.Textfile(target = \*(Aqconcat\*(Aq, # concatenate files with a marker between source = [File(\*(Aqconcat1\*(Aq), File(\*(Aqconcat2\*(Aq)], LINESEPARATOR = \*(Aq====================\en\*(Aq) Results are: foo\&.txt \&.\&.\&.\&.8<\-\-\-\- Goethe 42 Schiller \&.\&.\&.\&.8<\-\-\-\- (no linefeed at the end) bar\&.txt: \&.\&.\&.\&.8<\-\-\-\- lalala|*tanteratei \&.\&.\&.\&.8<\-\-\-\- (no linefeed at the end) blob\&.txt \&.\&.\&.\&.8<\-\-\-\- lalala Goethe 42 Schiller tanteratei \&.\&.\&.\&.8<\-\-\-\- (no linefeed at the end) .fi .if n \{\ .RE .\} .RE .PP \fBTranslate()\fR, \fBenv\&.Translate()\fR .RS 4 This pseudo\-builder belongs to gettext toolset\&. The builder extracts internationalized messages from source files, updates POT template (if necessary) and then updates PO translations (if necessary)\&. If \fB$POAUTOINIT\fR is set, missing PO files will be automatically created (i\&.e\&. without translator person intervention)\&. The variables \fB$LINGUAS_FILE\fR and \fB$POTDOMAIN\fR are taken into acount too\&. All other construction variables used by \fBPOTUpdate\fR, and \fBPOUpdate\fR work here too\&. .sp \fIExample 1\fR\&. The simplest way is to specify input files and output languages inline in a SCons script when invoking \fBTranslate\fR .sp .if n \{\ .RS 4 .\} .nf # SConscript in \*(Aqpo/\*(Aq directory env = Environment( tools = ["default", "gettext"] ) env[\*(AqPOAUTOINIT\*(Aq] = 1 env\&.Translate([\*(Aqen\*(Aq,\*(Aqpl\*(Aq], [\*(Aq\&.\&./a\&.cpp\*(Aq,\*(Aq\&.\&./b\&.cpp\*(Aq]) .fi .if n \{\ .RE .\} .sp \fIExample 2\fR\&. If you wish, you may also stick to conventional style known from autotools, i\&.e\&. using POTFILES\&.in and LINGUAS files .sp .if n \{\ .RS 4 .\} .nf # LINGUAS en pl #end .fi .if n \{\ .RE .\} .sp .if n \{\ .RS 4 .\} .nf # POTFILES\&.in a\&.cpp b\&.cpp # end .fi .if n \{\ .RE .\} .sp .if n \{\ .RS 4 .\} .nf # SConscript env = Environment( tools = ["default", "gettext"] ) env[\*(AqPOAUTOINIT\*(Aq] = 1 env[\*(AqXGETTEXTPATH\*(Aq] = [\*(Aq\&.\&./\*(Aq] env\&.Translate(LINGUAS_FILE = 1, XGETTEXTFROM = \*(AqPOTFILES\&.in\*(Aq) .fi .if n \{\ .RE .\} .sp The last approach is perhaps the recommended one\&. It allows easily split internationalization/localization onto separate SCons scripts, where a script in source tree is responsible for translations (from sources to PO files) and script(s) under variant directories are responsible for compilation of PO to MO files to and for installation of MO files\&. The "gluing factor" synchronizing these two scripts is then the content of LINGUAS file\&. Note, that the updated POT and PO files are usually going to be committed back to the repository, so they must be updated within the source directory (and not in variant directories)\&. Additionaly, the file listing of po/ directory contains LINGUAS file, so the source tree looks familiar to translators, and they may work with the project in their usual way\&. .sp \fIExample 3\fR\&. Let\*(Aqs prepare a development tree as below .sp .if n \{\ .RS 4 .\} .nf project/ + SConstruct + build/ + src/ + po/ + SConscript + SConscript\&.i18n + POTFILES\&.in + LINGUAS .fi .if n \{\ .RE .\} .sp with build being variant directory\&. Write the top\-level SConstruct script as follows .sp .if n \{\ .RS 4 .\} .nf # SConstruct env = Environment( tools = ["default", "gettext"] ) VariantDir(\*(Aqbuild\*(Aq, \*(Aqsrc\*(Aq, duplicate = 0) env[\*(AqPOAUTOINIT\*(Aq] = 1 SConscript(\*(Aqsrc/po/SConscript\&.i18n\*(Aq, exports = \*(Aqenv\*(Aq) SConscript(\*(Aqbuild/po/SConscript\*(Aq, exports = \*(Aqenv\*(Aq) .fi .if n \{\ .RE .\} .sp the src/po/SConscript\&.i18n as .sp .if n \{\ .RS 4 .\} .nf # src/po/SConscript\&.i18n Import(\*(Aqenv\*(Aq) env\&.Translate(LINGUAS_FILE=1, XGETTEXTFROM=\*(AqPOTFILES\&.in\*(Aq, XGETTEXTPATH=[\*(Aq\&.\&./\*(Aq]) .fi .if n \{\ .RE .\} .sp and the src/po/SConscript .sp .if n \{\ .RS 4 .\} .nf # src/po/SConscript Import(\*(Aqenv\*(Aq) env\&.MOFiles(LINGUAS_FILE = 1) .fi .if n \{\ .RE .\} .sp Such setup produces POT and PO files under source tree in src/po/ and binary MO files under variant tree in build/po/\&. This way the POT and PO files are separated from other output files, which must not be committed back to source repositories (e\&.g\&. MO files)\&. .sp .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBNote\fR .ps -1 .br In above example, the PO files are not updated, nor created automatically when you issue \fBscons \*(Aq\&.\*(Aq\fR command\&. The files must be updated (created) by hand via \fBscons po\-update\fR and then MO files can be compiled by running \fBscons \*(Aq\&.\*(Aq\fR\&. .sp .5v .RE .RE .PP \fBTypeLibrary()\fR, \fBenv\&.TypeLibrary()\fR .RS 4 Builds a Windows type library (\&.tlb) file from an input IDL file (\&.idl)\&. In addition, it will build the associated interface stub and proxy source files, naming them according to the base name of the \&.idl file\&. For example, .sp .if n \{\ .RS 4 .\} .nf env\&.TypeLibrary(source="foo\&.idl") .fi .if n \{\ .RE .\} .sp Will create foo\&.tlb, foo\&.h, foo_i\&.c, foo_p\&.c and foo_data\&.c files\&. .RE .PP \fBUic()\fR, \fBenv\&.Uic()\fR .RS 4 Builds a header file, an implementation file and a moc file from an ui file\&. and returns the corresponding nodes in the above order\&. This builder is only available after using the tool \*(Aqqt\*(Aq\&. Note: you can specify \&.ui files directly as source files to the \fBProgram\fR, \fBLibrary\fR and \fBSharedLibrary\fR builders without using this builder\&. Using this builder lets you override the standard naming conventions (be careful: prefixes are always prepended to names of built files; if you don\*(Aqt want prefixes, you may set them to ``)\&. See the \fB$QTDIR\fR variable for more information\&. Example: .sp .if n \{\ .RS 4 .\} .nf env\&.Uic(\*(Aqfoo\&.ui\*(Aq) # \-> [\*(Aqfoo\&.h\*(Aq, \*(Aquic_foo\&.cc\*(Aq, \*(Aqmoc_foo\&.cc\*(Aq] env\&.Uic(target = Split(\*(Aqinclude/foo\&.h gen/uicfoo\&.cc gen/mocfoo\&.cc\*(Aq), source = \*(Aqfoo\&.ui\*(Aq) # \-> [\*(Aqinclude/foo\&.h\*(Aq, \*(Aqgen/uicfoo\&.cc\*(Aq, \*(Aqgen/mocfoo\&.cc\*(Aq] .fi .if n \{\ .RE .\} .RE .PP \fBZip()\fR, \fBenv\&.Zip()\fR .RS 4 Builds a zip archive of the specified files and/or directories\&. Unlike most builder methods, the \fBZip\fR builder method may be called multiple times for a given target; each additional call adds to the list of entries that will be built into the archive\&. Any source directories will be scanned for changes to any on\-disk files, regardless of whether or not scons knows about them from other Builder or function calls\&. .sp .if n \{\ .RS 4 .\} .nf env\&.Zip(\*(Aqsrc\&.zip\*(Aq, \*(Aqsrc\*(Aq) # Create the stuff\&.zip file\&. env\&.Zip(\*(Aqstuff\*(Aq, [\*(Aqsubdir1\*(Aq, \*(Aqsubdir2\*(Aq]) # Also add "another" to the stuff\&.tar file\&. env\&.Zip(\*(Aqstuff\*(Aq, \*(Aqanother\*(Aq) .fi .if n \{\ .RE .\} .RE .PP All targets of builder methods automatically depend on their sources\&. An explicit dependency can be specified using the \fBDepends\fR method of a construction environment (see below)\&. .PP In addition, \fBscons\fR automatically scans source files for various programming languages, so the dependencies do not need to be specified explicitly\&. By default, SCons can C source files, C++ source files, Fortran source files with \fB\&.F\fR (POSIX systems only), \fB\&.fpp,\fR or \fB\&.FPP\fR file extensions, and assembly language files with \fB\&.S\fR (POSIX systems only), \fB\&.spp,\fR or \fB\&.SPP\fR files extensions for C preprocessor dependencies\&. SCons also has default support for scanning D source files, You can also write your own Scanners to add support for additional source file types\&. These can be added to the default Scanner object used by the \fBObject\fR(), \fBStaticObject\fR(), and \fBSharedObject\fR() Builders by adding them to the \fBSourceFileScanner\fR object\&. See the section "Scanner Objects" below, for more information about defining your own Scanner objects and using the \fBSourceFileScanner\fR object\&. .SS "Methods and Functions to Do Things" .PP In addition to Builder methods, \fBscons\fR provides a number of other construction environment methods and global functions to manipulate the build configuration\&. .PP Usually, a construction environment method and global function with the same name both exist so that you don\*(Aqt have to remember whether to a specific bit of functionality must be called with or without a construction environment\&. In the following list, if you call something as a global function it looks like: .sp .if n \{\ .RS 4 .\} .nf Function(\fIarguments\fR) .fi .if n \{\ .RE .\} .PP and if you call something through a construction environment it looks like: .sp .if n \{\ .RS 4 .\} .nf env\&.Function(\fIarguments\fR) .fi .if n \{\ .RE .\} .PP If you can call the functionality in both ways, then both forms are listed\&. .PP Global functions may be called from custom Python modules that you import into an SConscript file by adding the following to the Python module: .sp .if n \{\ .RS 4 .\} .nf from SCons\&.Script import * .fi .if n \{\ .RE .\} .PP Except where otherwise noted, the same\-named construction environment method and global function provide the exact same functionality\&. The only difference is that, where appropriate, calling the functionality through a construction environment will substitute construction variables into any supplied strings\&. For example: .sp .if n \{\ .RS 4 .\} .nf env = Environment(FOO = \*(Aqfoo\*(Aq) Default(\*(Aq$FOO\*(Aq) env\&.Default(\*(Aq$FOO\*(Aq) .fi .if n \{\ .RE .\} .PP In the above example, the first call to the global \fBDefault()\fR function will actually add a target named \fB$FOO\fR to the list of default targets, while the second call to the \fBenv\&.Default()\fR construction environment method will expand the value and add a target named \fBfoo\fR to the list of default targets\&. For more on construction variable expansion, see the next section on construction variables\&. .PP Construction environment methods and global functions supported by \fBscons\fR include: .PP Action(action, [cmd/str/fun, [var, \&.\&.\&.]] [option=value, \&.\&.\&.]), env\&.Action(action, [cmd/str/fun, [var, \&.\&.\&.]] [option=value, \&.\&.\&.]) .RS 4 Creates an Action object for the specified \fIaction\fR\&. See the section "Action Objects," below, for a complete explanation of the arguments and behavior\&. .sp Note that the \fBenv\&.Action\fR() form of the invocation will expand construction variables in any argument strings, including the \fIaction\fR argument, at the time it is called using the construction variables in the \fIenv\fR construction environment through which \fBenv\&.Action\fR() was called\&. The \fBAction\fR() form delays all variable expansion until the Action object is actually used\&. .RE .PP AddMethod(object, function, [name]), env\&.AddMethod(function, [name]) .RS 4 When called with the \fBAddMethod\fR() form, adds the specified \fIfunction\fR to the specified \fIobject\fR as the specified method \fIname\fR\&. When called with the \fBenv\&.AddMethod\fR() form, adds the specified \fIfunction\fR to the construction environment \fIenv\fR as the specified method \fIname\fR\&. In both cases, if \fIname\fR is omitted or None, the name of the specified \fIfunction\fR itself is used for the method name\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf # Note that the first argument to the function to # be attached as a method must be the object through # which the method will be called; the Python # convention is to call it \*(Aqself\*(Aq\&. def my_method(self, arg): print("my_method() got", arg) # Use the global AddMethod() function to add a method # to the Environment class\&. This AddMethod(Environment, my_method) env = Environment() env\&.my_method(\*(Aqarg\*(Aq) # Add the function as a method, using the function # name for the method call\&. env = Environment() env\&.AddMethod(my_method, \*(Aqother_method_name\*(Aq) env\&.other_method_name(\*(Aqanother arg\*(Aq) .fi .if n \{\ .RE .\} .RE .PP AddOption(arguments) .RS 4 This function adds a new command\-line option to be recognized\&. The specified \fIarguments\fR are the same as supported by the standard Python \fBoptparse\&.add_option\fR() method (with a few additional capabilities noted below); see the documentation for optparse for a thorough discussion of its option\-processing capabities\&. .sp In addition to the arguments and values supported by the \fBoptparse\&.add_option\fR() method, the SCons \fBAddOption\fR function allows you to set the nargs keyword value to \*(Aq?\*(Aq (a string with just the question mark) to indicate that the specified long option(s) take(s) an \fIoptional\fR argument\&. When nargs = \*(Aq?\*(Aq is passed to the \fBAddOption\fR function, the const keyword argument may be used to supply the "default" value that should be used when the option is specified on the command line without an explicit argument\&. .sp If no default= keyword argument is supplied when calling \fBAddOption\fR, the option will have a default value of None\&. .sp Once a new command\-line option has been added with \fBAddOption\fR, the option value may be accessed using \fBGetOption\fR or \fBenv\&.GetOption\fR()\&. The value may also be set, using \fBSetOption\fR or \fBenv\&.SetOption\fR(), if conditions in a SConscript require overriding any default value\&. Note, however, that a value specified on the command line will \fIalways\fR override a value set by any SConscript file\&. .sp Any specified help= strings for the new option(s) will be displayed by the \fB\-H\fR or \fB\-h\fR options (the latter only if no other help text is specified in the SConscript files)\&. The help text for the local options specified by \fBAddOption\fR will appear below the SCons options themselves, under a separate Local Options heading\&. The options will appear in the help text in the order in which the \fBAddOption\fR calls occur\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf AddOption(\*(Aq\-\-prefix\*(Aq, dest=\*(Aqprefix\*(Aq, nargs=1, type=\*(Aqstring\*(Aq, action=\*(Aqstore\*(Aq, metavar=\*(AqDIR\*(Aq, help=\*(Aqinstallation prefix\*(Aq) env = Environment(PREFIX = GetOption(\*(Aqprefix\*(Aq)) .fi .if n \{\ .RE .\} .RE .PP AddPostAction(target, action), env\&.AddPostAction(target, action) .RS 4 Arranges for the specified \fIaction\fR to be performed after the specified \fItarget\fR has been built\&. The specified action(s) may be an Action object, or anything that can be converted into an Action object (see below)\&. .sp When multiple targets are supplied, the action may be called multiple times, once after each action that generates one or more targets in the list\&. .RE .PP AddPreAction(target, action), env\&.AddPreAction(target, action) .RS 4 Arranges for the specified \fIaction\fR to be performed before the specified \fItarget\fR is built\&. The specified action(s) may be an Action object, or anything that can be converted into an Action object (see below)\&. .sp When multiple targets are specified, the action(s) may be called multiple times, once before each action that generates one or more targets in the list\&. .sp Note that if any of the targets are built in multiple steps, the action will be invoked just before the "final" action that specifically generates the specified target(s)\&. For example, when building an executable program from a specified source \&.c file via an intermediate object file: .sp .if n \{\ .RS 4 .\} .nf foo = Program(\*(Aqfoo\&.c\*(Aq) AddPreAction(foo, \*(Aqpre_action\*(Aq) .fi .if n \{\ .RE .\} .sp The specified pre_action would be executed before scons calls the link command that actually generates the executable program binary foo, not before compiling the foo\&.c file into an object file\&. .RE .PP Alias(alias, [targets, [action]]), env\&.Alias(alias, [targets, [action]]) .RS 4 Creates one or more phony targets that expand to one or more other targets\&. An optional \fIaction\fR (command) or list of actions can be specified that will be executed whenever the any of the alias targets are out\-of\-date\&. Returns the Node object representing the alias, which exists outside of any file system\&. This Node object, or the alias name, may be used as a dependency of any other target, including another alias\&. \fBAlias\fR can be called multiple times for the same alias to add additional targets to the alias, or additional actions to the list for this alias\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf Alias(\*(Aqinstall\*(Aq) Alias(\*(Aqinstall\*(Aq, \*(Aq/usr/bin\*(Aq) Alias([\*(Aqinstall\*(Aq, \*(Aqinstall\-lib\*(Aq], \*(Aq/usr/local/lib\*(Aq) env\&.Alias(\*(Aqinstall\*(Aq, [\*(Aq/usr/local/bin\*(Aq, \*(Aq/usr/local/lib\*(Aq]) env\&.Alias(\*(Aqinstall\*(Aq, [\*(Aq/usr/local/man\*(Aq]) env\&.Alias(\*(Aqupdate\*(Aq, [\*(Aqfile1\*(Aq, \*(Aqfile2\*(Aq], "update_database $SOURCES") .fi .if n \{\ .RE .\} .RE .PP AllowSubstExceptions([exception, \&.\&.\&.]) .RS 4 Specifies the exceptions that will be allowed when expanding construction variables\&. By default, any construction variable expansions that generate a NameError or IndexError exception will expand to a \*(Aq\*(Aq (a null string) and not cause scons to fail\&. All exceptions not in the specified list will generate an error message and terminate processing\&. .sp If \fBAllowSubstExceptions\fR is called multiple times, each call completely overwrites the previous list of allowed exceptions\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf # Requires that all construction variable names exist\&. # (You may wish to do this if you want to enforce strictly # that all construction variables must be defined before use\&.) AllowSubstExceptions() # Also allow a string containing a zero\-division expansion # like \*(Aq${1 / 0}\*(Aq to evalute to \*(Aq\*(Aq\&. AllowSubstExceptions(IndexError, NameError, ZeroDivisionError) .fi .if n \{\ .RE .\} .RE .PP AlwaysBuild(target, \&.\&.\&.), env\&.AlwaysBuild(target, \&.\&.\&.) .RS 4 Marks each given \fItarget\fR so that it is always assumed to be out of date, and will always be rebuilt if needed\&. Note, however, that \fBAlwaysBuild\fR does not add its target(s) to the default target list, so the targets will only be built if they are specified on the command line, or are a dependent of a target specified on the command line\-\-but they will \fIalways\fR be built if so specified\&. Multiple targets can be passed in to a single call to \fBAlwaysBuild\fR\&. .RE .PP env\&.Append(key=val, [\&.\&.\&.]) .RS 4 Appends the specified keyword arguments to the end of construction variables in the environment\&. If the Environment does not have the specified construction variable, it is simply added to the environment\&. If the values of the construction variable and the keyword argument are the same type, then the two values will be simply added together\&. Otherwise, the construction variable and the value of the keyword argument are both coerced to lists, and the lists are added together\&. (See also the Prepend method, below\&.) .sp Example: .sp .if n \{\ .RS 4 .\} .nf env\&.Append(CCFLAGS = \*(Aq \-g\*(Aq, FOO = [\*(Aqfoo\&.yyy\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP env\&.AppendENVPath(name, newpath, [envname, sep, delete_existing]) .RS 4 This appends new path elements to the given path in the specified external environment (ENV by default)\&. This will only add any particular path once (leaving the last one it encounters and ignoring the rest, to preserve path order), and to help assure this, will normalize all paths (using \fBos\&.path\&.normpath\fR and \fBos\&.path\&.normcase\fR)\&. This can also handle the case where the given old path variable is a list instead of a string, in which case a list will be returned instead of a string\&. .sp If \fIdelete_existing\fR is 0, then adding a path that already exists will not move it to the end; it will stay where it is in the list\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf print \*(Aqbefore:\*(Aq,env[\*(AqENV\*(Aq][\*(AqINCLUDE\*(Aq] include_path = \*(Aq/foo/bar:/foo\*(Aq env\&.AppendENVPath(\*(AqINCLUDE\*(Aq, include_path) print \*(Aqafter:\*(Aq,env[\*(AqENV\*(Aq][\*(AqINCLUDE\*(Aq] yields: before: /foo:/biz after: /biz:/foo/bar:/foo .fi .if n \{\ .RE .\} .RE .PP env\&.AppendUnique(key=val, [\&.\&.\&.], delete_existing=0) .RS 4 Appends the specified keyword arguments to the end of construction variables in the environment\&. If the Environment does not have the specified construction variable, it is simply added to the environment\&. If the construction variable being appended to is a list, then any value(s) that already exist in the construction variable will \fInot\fR be added again to the list\&. However, if delete_existing is 1, existing matching values are removed first, so existing values in the arg list move to the end of the list\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf env\&.AppendUnique(CCFLAGS = \*(Aq\-g\*(Aq, FOO = [\*(Aqfoo\&.yyy\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP BuildDir(build_dir, src_dir, [duplicate]), env\&.BuildDir(build_dir, src_dir, [duplicate]) .RS 4 Deprecated synonyms for \fBVariantDir\fR and \fBenv\&.VariantDir\fR()\&. The \fIbuild_dir\fR argument becomes the \fIvariant_dir\fR argument of \fBVariantDir\fR or \fBenv\&.VariantDir\fR()\&. .RE .PP Builder(action, [arguments]), env\&.Builder(action, [arguments]) .RS 4 Creates a Builder object for the specified \fIaction\fR\&. See the section "Builder Objects," below, for a complete explanation of the arguments and behavior\&. .sp Note that the \fBenv\&.Builder\fR() form of the invocation will expand construction variables in any arguments strings, including the \fIaction\fR argument, at the time it is called using the construction variables in the \fIenv\fR construction environment through which \fBenv\&.Builder\fR() was called\&. The \fBBuilder\fR form delays all variable expansion until after the Builder object is actually called\&. .RE .PP CacheDir(cache_dir), env\&.CacheDir(cache_dir) .RS 4 Specifies that scons will maintain a cache of derived files in \fIcache_dir\fR\&. The derived files in the cache will be shared among all the builds using the same \fBCacheDir\fR call\&. Specifying a \fIcache_dir\fR of None disables derived file caching\&. .sp Calling \fBenv\&.CacheDir\fR() will only affect targets built through the specified construction environment\&. Calling \fBCacheDir\fR sets a global default that will be used by all targets built through construction environments that do \fInot\fR have an \fBenv\&.CacheDir\fR() specified\&. .sp When a \fBCacheDir\fR() is being used and scons finds a derived file that needs to be rebuilt, it will first look in the cache to see if a derived file has already been built from identical input files and an identical build action (as incorporated into the MD5 build signature)\&. If so, scons will retrieve the file from the cache\&. If the derived file is not present in the cache, scons will rebuild it and then place a copy of the built file in the cache (identified by its MD5 build signature), so that it may be retrieved by other builds that need to build the same derived file from identical inputs\&. .sp Use of a specified \fBCacheDir\fR may be disabled for any invocation by using the \fB\-\-cache\-disable\fR option\&. .sp If the \fB\-\-cache\-force\fR option is used, scons will place a copy of \fIall\fR derived files in the cache, even if they already existed and were not built by this invocation\&. This is useful to populate a cache the first time \fBCacheDir\fR is added to a build, or after using the \fB\-\-cache\-disable\fR option\&. .sp When using \fBCacheDir\fR, scons will report, "Retrieved `file\*(Aq from cache," unless the \fB\-\-cache\-show\fR option is being used\&. When the \fB\-\-cache\-show\fR option is used, scons will print the action that \fIwould\fR have been used to build the file, without any indication that the file was actually retrieved from the cache\&. This is useful to generate build logs that are equivalent regardless of whether a given derived file has been built in\-place or retrieved from the cache\&. .sp The \fBNoCache\fR method can be used to disable caching of specific files\&. This can be useful if inputs and/or outputs of some tool are impossible to predict or prohibitively large\&. .RE .PP Clean(targets, files_or_dirs), env\&.Clean(targets, files_or_dirs) .RS 4 This specifies a list of files or directories which should be removed whenever the targets are specified with the \fB\-c\fR command line option\&. The specified targets may be a list or an individual target\&. Multiple calls to \fBClean\fR are legal, and create new targets or add files and directories to the clean list for the specified targets\&. .sp Multiple files or directories should be specified either as separate arguments to the \fBClean\fR method, or as a list\&. \fBClean\fR will also accept the return value of any of the construction environment Builder methods\&. Examples: .sp The related \fBNoClean\fR function overrides calling \fBClean\fR for the same target, and any targets passed to both functions will \fInot\fR be removed by the \fB\-c\fR option\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf Clean(\*(Aqfoo\*(Aq, [\*(Aqbar\*(Aq, \*(Aqbaz\*(Aq]) Clean(\*(Aqdist\*(Aq, env\&.Program(\*(Aqhello\*(Aq, \*(Aqhello\&.c\*(Aq)) Clean([\*(Aqfoo\*(Aq, \*(Aqbar\*(Aq], \*(Aqsomething_else_to_clean\*(Aq) .fi .if n \{\ .RE .\} .sp In this example, installing the project creates a subdirectory for the documentation\&. This statement causes the subdirectory to be removed if the project is deinstalled\&. .sp .if n \{\ .RS 4 .\} .nf Clean(docdir, os\&.path\&.join(docdir, projectname)) .fi .if n \{\ .RE .\} .RE .PP env\&.Clone([key=val, \&.\&.\&.]) .RS 4 Returns a separate copy of a construction environment\&. If there are any keyword arguments specified, they are added to the returned copy, overwriting any existing values for the keywords\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf env2 = env\&.Clone() env3 = env\&.Clone(CCFLAGS = \*(Aq\-g\*(Aq) .fi .if n \{\ .RE .\} .sp Additionally, a list of tools and a toolpath may be specified, as in the Environment constructor: .sp .if n \{\ .RS 4 .\} .nf def MyTool(env): env[\*(AqFOO\*(Aq] = \*(Aqbar\*(Aq env4 = env\&.Clone(tools = [\*(Aqmsvc\*(Aq, MyTool]) .fi .if n \{\ .RE .\} .sp The \fIparse_flags\fR keyword argument is also recognized: .sp .if n \{\ .RS 4 .\} .nf # create an environment for compiling programs that use wxWidgets wx_env = env\&.Clone(parse_flags = \*(Aq!wx\-config \-\-cflags \-\-cxxflags\*(Aq) .fi .if n \{\ .RE .\} .RE .PP Command(target, source, action, [key=val, \&.\&.\&.]), env\&.Command(target, source, action, [key=val, \&.\&.\&.]) .RS 4 Executes a specific action (or list of actions) to build a target file or files\&. This is more convenient than defining a separate Builder object for a single special\-case build\&. .sp As a special case, the \fIsource_scanner\fR keyword argument can be used to specify a Scanner object that will be used to scan the sources\&. (The global DirScanner object can be used if any of the sources will be directories that must be scanned on\-disk for changes to files that aren\*(Aqt already specified in other Builder of function calls\&.) .sp Any other keyword arguments specified override any same\-named existing construction variables\&. .sp An action can be an external command, specified as a string, or a callable Python object; see "Action Objects," below, for more complete information\&. Also note that a string specifying an external command may be preceded by an @ (at\-sign) to suppress printing the command in question, or by a \- (hyphen) to ignore the exit status of the external command\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf env\&.Command(\*(Aqfoo\&.out\*(Aq, \*(Aqfoo\&.in\*(Aq, "$FOO_BUILD < $SOURCES > $TARGET") env\&.Command(\*(Aqbar\&.out\*(Aq, \*(Aqbar\&.in\*(Aq, ["rm \-f $TARGET", "$BAR_BUILD < $SOURCES > $TARGET"], ENV = {\*(AqPATH\*(Aq : \*(Aq/usr/local/bin/\*(Aq}) def rename(env, target, source): import os os\&.rename(\*(Aq\&.tmp\*(Aq, str(target[0])) env\&.Command(\*(Aqbaz\&.out\*(Aq, \*(Aqbaz\&.in\*(Aq, ["$BAZ_BUILD < $SOURCES > \&.tmp", rename ]) .fi .if n \{\ .RE .\} .sp Note that the \fBCommand\fR function will usually assume, by default, that the specified targets and/or sources are Files, if no other part of the configuration identifies what type of entry it is\&. If necessary, you can explicitly specify that targets or source nodes should be treated as directoriese by using the \fBDir\fR or \fBenv\&.Dir\fR() functions\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf env\&.Command(\*(Aqddd\&.list\*(Aq, Dir(\*(Aqddd\*(Aq), \*(Aqls \-l $SOURCE > $TARGET\*(Aq) env[\*(AqDISTDIR\*(Aq] = \*(Aqdestination/directory\*(Aq env\&.Command(env\&.Dir(\*(Aq$DISTDIR\*(Aq)), None, make_distdir) .fi .if n \{\ .RE .\} .sp (Also note that SCons will usually automatically create any directory necessary to hold a target file, so you normally don\*(Aqt need to create directories by hand\&.) .RE .PP Configure(env, [custom_tests, conf_dir, log_file, config_h]), env\&.Configure([custom_tests, conf_dir, log_file, config_h]) .RS 4 Creates a Configure object for integrated functionality similar to GNU autoconf\&. See the section "Configure Contexts," below, for a complete explanation of the arguments and behavior\&. .RE .PP env\&.Copy([key=val, \&.\&.\&.]) .RS 4 A now\-deprecated synonym for \fBenv\&.Clone\fR()\&. .RE .PP Decider(function), env\&.Decider(function) .RS 4 Specifies that all up\-to\-date decisions for targets built through this construction environment will be handled by the specified \fIfunction\fR\&. The \fIfunction\fR can be one of the following strings that specify the type of decision function to be performed: .PP timestamp\-newer .RS 4 Specifies that a target shall be considered out of date and rebuilt if the dependency\*(Aqs timestamp is newer than the target file\*(Aqs timestamp\&. This is the behavior of the classic Make utility, and make can be used a synonym for timestamp\-newer\&. .RE .PP timestamp\-match .RS 4 Specifies that a target shall be considered out of date and rebuilt if the dependency\*(Aqs timestamp is different than the timestamp recorded the last time the target was built\&. This provides behavior very similar to the classic Make utility (in particular, files are not opened up so that their contents can be checksummed) except that the target will also be rebuilt if a dependency file has been restored to a version with an \fIearlier\fR timestamp, such as can happen when restoring files from backup archives\&. .RE .PP MD5 .RS 4 Specifies that a target shall be considered out of date and rebuilt if the dependency\*(Aqs content has changed since the last time the target was built, as determined be performing an MD5 checksum on the dependency\*(Aqs contents and comparing it to the checksum recorded the last time the target was built\&. content can be used as a synonym for MD5\&. .RE .PP MD5\-timestamp .RS 4 Specifies that a target shall be considered out of date and rebuilt if the dependency\*(Aqs content has changed since the last time the target was built, except that dependencies with a timestamp that matches the last time the target was rebuilt will be assumed to be up\-to\-date and \fInot\fR rebuilt\&. This provides behavior very similar to the MD5 behavior of always checksumming file contents, with an optimization of not checking the contents of files whose timestamps haven\*(Aqt changed\&. The drawback is that SCons will \fInot\fR detect if a file\*(Aqs content has changed but its timestamp is the same, as might happen in an automated script that runs a build, updates a file, and runs the build again, all within a single second\&. .RE .sp Examples: .sp .if n \{\ .RS 4 .\} .nf # Use exact timestamp matches by default\&. Decider(\*(Aqtimestamp\-match\*(Aq) # Use MD5 content signatures for any targets built # with the attached construction environment\&. env\&.Decider(\*(Aqcontent\*(Aq) .fi .if n \{\ .RE .\} .sp In addition to the above already\-available functions, the \fIfunction\fR argument may be an actual Python function that takes the following three arguments: .PP \fIdependency\fR .RS 4 The Node (file) which should cause the \fItarget\fR to be rebuilt if it has "changed" since the last tme \fItarget\fR was built\&. .RE .PP \fItarget\fR .RS 4 The Node (file) being built\&. In the normal case, this is what should get rebuilt if the \fIdependency\fR has "changed\&." .RE .PP \fIprev_ni\fR .RS 4 Stored information about the state of the \fIdependency\fR the last time the \fItarget\fR was built\&. This can be consulted to match various file characteristics such as the timestamp, size, or content signature\&. .RE .sp The \fIfunction\fR should return a True (non\-zero) value if the \fIdependency\fR has "changed" since the last time the \fItarget\fR was built (indicating that the target \fIshould\fR be rebuilt), and False (zero) otherwise (indicating that the target should \fInot\fR be rebuilt)\&. Note that the decision can be made using whatever criteria are appopriate\&. Ignoring some or all of the function arguments is perfectly normal\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf def my_decider(dependency, target, prev_ni): return not os\&.path\&.exists(str(target)) env\&.Decider(my_decider) .fi .if n \{\ .RE .\} .RE .PP Default(targets), env\&.Default(targets) .RS 4 This specifies a list of default targets, which will be built by scons if no explicit targets are given on the command line\&. Multiple calls to \fBDefault\fR are legal, and add to the list of default targets\&. .sp Multiple targets should be specified as separate arguments to the \fBDefault\fR method, or as a list\&. \fBDefault\fR will also accept the Node returned by any of a construction environment\*(Aqs builder methods\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf Default(\*(Aqfoo\*(Aq, \*(Aqbar\*(Aq, \*(Aqbaz\*(Aq) env\&.Default([\*(Aqa\*(Aq, \*(Aqb\*(Aq, \*(Aqc\*(Aq]) hello = env\&.Program(\*(Aqhello\*(Aq, \*(Aqhello\&.c\*(Aq) env\&.Default(hello) .fi .if n \{\ .RE .\} .sp An argument to \fBDefault\fR of None will clear all default targets\&. Later calls to \fBDefault\fR will add to the (now empty) default\-target list like normal\&. .sp The current list of targets added using the \fBDefault\fR function or method is available in the DEFAULT_TARGETS list; see below\&. .RE .PP DefaultEnvironment([args]) .RS 4 Creates and returns a default construction environment object\&. This construction environment is used internally by SCons in order to execute many of the global functions in this list, and to fetch source files transparently from source code management systems\&. .RE .PP Depends(target, dependency), env\&.Depends(target, dependency) .RS 4 Specifies an explicit dependency; the \fItarget\fR will be rebuilt whenever the \fIdependency\fR has changed\&. Both the specified \fItarget\fR and \fIdependency\fR can be a string (usually the path name of a file or directory) or Node objects, or a list of strings or Node objects (such as returned by a Builder call)\&. This should only be necessary for cases where the dependency is not caught by a Scanner for the file\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf env\&.Depends(\*(Aqfoo\*(Aq, \*(Aqother\-input\-file\-for\-foo\*(Aq) mylib = env\&.Library(\*(Aqmylib\&.c\*(Aq) installed_lib = env\&.Install(\*(Aqlib\*(Aq, mylib) bar = env\&.Program(\*(Aqbar\&.c\*(Aq) # Arrange for the library to be copied into the installation # directory before trying to build the "bar" program\&. # (Note that this is for example only\&. A "real" library # dependency would normally be configured through the $LIBS # and $LIBPATH variables, not using an env\&.Depends() call\&.) env\&.Depends(bar, installed_lib) .fi .if n \{\ .RE .\} .RE .PP env\&.Dictionary([vars]) .RS 4 Returns a dictionary object containing copies of all of the construction variables in the environment\&. If there are any variable names specified, only the specified construction variables are returned in the dictionary\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf dict = env\&.Dictionary() cc_dict = env\&.Dictionary(\*(AqCC\*(Aq, \*(AqCCFLAGS\*(Aq, \*(AqCCCOM\*(Aq) .fi .if n \{\ .RE .\} .RE .PP Dir(name, [directory]), env\&.Dir(name, [directory]) .RS 4 This returns a Directory Node, an object that represents the specified directory \fIname\fR\&. \fIname\fR can be a relative or absolute path\&. \fIdirectory\fR is an optional directory that will be used as the parent directory\&. If no \fIdirectory\fR is specified, the current script\*(Aqs directory is used as the parent\&. .sp If \fIname\fR is a list, SCons returns a list of Dir nodes\&. Construction variables are expanded in \fIname\fR\&. .sp Directory Nodes can be used anywhere you would supply a string as a directory name to a Builder method or function\&. Directory Nodes have attributes and methods that are useful in many situations; see "File and Directory Nodes," below\&. .RE .PP env\&.Dump([key]) .RS 4 Returns a pretty printable representation of the environment\&. \fIkey\fR, if not None, should be a string containing the name of the variable of interest\&. .sp This SConstruct: .sp .if n \{\ .RS 4 .\} .nf env=Environment() print env\&.Dump(\*(AqCCCOM\*(Aq) .fi .if n \{\ .RE .\} .sp will print: .sp .if n \{\ .RS 4 .\} .nf \*(Aq$CC \-c \-o $TARGET $CCFLAGS $CPPFLAGS $_CPPDEFFLAGS $_CPPINCFLAGS $SOURCES\*(Aq .fi .if n \{\ .RE .\} .sp While this SConstruct: .sp .if n \{\ .RS 4 .\} .nf env=Environment() print env\&.Dump() .fi .if n \{\ .RE .\} .sp will print: .sp .if n \{\ .RS 4 .\} .nf { \*(AqAR\*(Aq: \*(Aqar\*(Aq, \*(AqARCOM\*(Aq: \*(Aq$AR $ARFLAGS $TARGET $SOURCES\en$RANLIB $RANLIBFLAGS $TARGET\*(Aq, \*(AqARFLAGS\*(Aq: [\*(Aqr\*(Aq], \*(AqAS\*(Aq: \*(Aqas\*(Aq, \*(AqASCOM\*(Aq: \*(Aq$AS $ASFLAGS \-o $TARGET $SOURCES\*(Aq, \*(AqASFLAGS\*(Aq: [], \&.\&.\&. .fi .if n \{\ .RE .\} .RE .PP EnsurePythonVersion(major, minor), env\&.EnsurePythonVersion(major, minor) .RS 4 Ensure that the Python version is at least \fImajor\fR\&.\fIminor\fR\&. This function will print out an error message and exit SCons with a non\-zero exit code if the actual Python version is not late enough\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf EnsurePythonVersion(2,2) .fi .if n \{\ .RE .\} .RE .PP EnsureSConsVersion(major, minor, [revision]), env\&.EnsureSConsVersion(major, minor, [revision]) .RS 4 Ensure that the SCons version is at least \fImajor\&.minor\fR, or \fImajor\&.minor\&.revision\fR\&. if \fIrevision\fR is specified\&. This function will print out an error message and exit SCons with a non\-zero exit code if the actual SCons version is not late enough\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf EnsureSConsVersion(0,14) EnsureSConsVersion(0,96,90) .fi .if n \{\ .RE .\} .RE .PP Environment([key=value, \&.\&.\&.]), env\&.Environment([key=value, \&.\&.\&.]) .RS 4 Return a new construction environment initialized with the specified \fIkey\fR=\fIvalue\fR pairs\&. .RE .PP Execute(action, [strfunction, varlist]), env\&.Execute(action, [strfunction, varlist]) .RS 4 Executes an Action object\&. The specified \fIaction\fR may be an Action object (see the section "Action Objects," below, for a complete explanation of the arguments and behavior), or it may be a command\-line string, list of commands, or executable Python function, each of which will be converted into an Action object and then executed\&. The exit value of the command or return value of the Python function will be returned\&. .sp Note that scons will print an error message if the executed \fIaction\fR fails\-\-that is, exits with or returns a non\-zero value\&. scons will \fInot\fR, however, automatically terminate the build if the specified \fIaction\fR fails\&. If you want the build to stop in response to a failed \fBExecute\fR call, you must explicitly check for a non\-zero return value: .sp .if n \{\ .RS 4 .\} .nf Execute(Copy(\*(Aqfile\&.out\*(Aq, \*(Aqfile\&.in\*(Aq)) if Execute("mkdir sub/dir/ectory"): # The mkdir failed, don\*(Aqt try to build\&. Exit(1) .fi .if n \{\ .RE .\} .RE .PP Exit([value]), env\&.Exit([value]) .RS 4 This tells scons to exit immediately with the specified \fIvalue\fR\&. A default exit value of 0 (zero) is used if no value is specified\&. .RE .PP Export(vars), env\&.Export(vars) .RS 4 This tells scons to export a list of variables from the current SConscript file to all other SConscript files\&. The exported variables are kept in a global collection, so subsequent calls to \fBExport\fR will over\-write previous exports that have the same name\&. Multiple variable names can be passed to \fBExport\fR as separate arguments or as a list\&. Keyword arguments can be used to provide names and their values\&. A dictionary can be used to map variables to a different name when exported\&. Both local variables and global variables can be exported\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf env = Environment() # Make env available for all SConscript files to Import()\&. Export("env") package = \*(Aqmy_name\*(Aq # Make env and package available for all SConscript files:\&. Export("env", "package") # Make env and package available for all SConscript files: Export(["env", "package"]) # Make env available using the name debug: Export(debug = env) # Make env available using the name debug: Export({"debug":env}) .fi .if n \{\ .RE .\} .sp Note that the \fBSConscript\fR function supports an \fIexports\fR argument that makes it easier to to export a variable or set of variables to a single SConscript file\&. See the description of the \fBSConscript\fR function, below\&. .RE .PP File(name, [directory]), env\&.File(name, [directory]) .RS 4 This returns a File Node, an object that represents the specified file \fIname\fR\&. \fIname\fR can be a relative or absolute path\&. \fIdirectory\fR is an optional directory that will be used as the parent directory\&. .sp If \fIname\fR is a list, SCons returns a list of File nodes\&. Construction variables are expanded in \fIname\fR\&. .sp File Nodes can be used anywhere you would supply a string as a file name to a Builder method or function\&. File Nodes have attributes and methods that are useful in many situations; see "File and Directory Nodes," below\&. .RE .PP FindFile(file, dirs), env\&.FindFile(file, dirs) .RS 4 Search for \fIfile\fR in the path specified by \fIdirs\fR\&. \fIdirs\fR may be a list of directory names or a single directory name\&. In addition to searching for files that exist in the filesystem, this function also searches for derived files that have not yet been built\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf foo = env\&.FindFile(\*(Aqfoo\*(Aq, [\*(Aqdir1\*(Aq, \*(Aqdir2\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP FindInstalledFiles(), env\&.FindInstalledFiles() .RS 4 Returns the list of targets set up by the \fBInstall\fR or \fBInstallAs\fR builders\&. .sp This function serves as a convenient method to select the contents of a binary package\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf Install( \*(Aq/bin\*(Aq, [ \*(Aqexecutable_a\*(Aq, \*(Aqexecutable_b\*(Aq ] ) # will return the file node list # [ \*(Aq/bin/executable_a\*(Aq, \*(Aq/bin/executable_b\*(Aq ] FindInstalledFiles() Install( \*(Aq/lib\*(Aq, [ \*(Aqsome_library\*(Aq ] ) # will return the file node list # [ \*(Aq/bin/executable_a\*(Aq, \*(Aq/bin/executable_b\*(Aq, \*(Aq/lib/some_library\*(Aq ] FindInstalledFiles() .fi .if n \{\ .RE .\} .RE .PP FindPathDirs(variable) .RS 4 Returns a function (actually a callable Python object) intended to be used as the \fIpath_function\fR of a Scanner object\&. The returned object will look up the specified \fIvariable\fR in a construction environment and treat the construction variable\*(Aqs value as a list of directory paths that should be searched (like \fB$CPPPATH\fR, \fB$LIBPATH\fR, etc\&.)\&. .sp Note that use of \fBFindPathDirs\fR is generally preferable to writing your own \fIpath_function\fR for the following reasons: 1) The returned list will contain all appropriate directories found in source trees (when \fBVariantDir\fR is used) or in code repositories (when \fBRepository\fR or the \fB\-Y\fR option are used)\&. 2) scons will identify expansions of \fIvariable\fR that evaluate to the same list of directories as, in fact, the same list, and avoid re\-scanning the directories for files, when possible\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf def my_scan(node, env, path, arg): # Code to scan file contents goes here\&.\&.\&. return include_files scanner = Scanner(name = \*(Aqmyscanner\*(Aq, function = my_scan, path_function = FindPathDirs(\*(AqMYPATH\*(Aq)) .fi .if n \{\ .RE .\} .RE .PP FindSourceFiles(node=\*(Aq"\&."\*(Aq), env\&.FindSourceFiles(node=\*(Aq"\&."\*(Aq) .RS 4 Returns the list of nodes which serve as the source of the built files\&. It does so by inspecting the dependency tree starting at the optional argument \fInode\fR which defaults to the \*(Aq"\&."\*(Aq\-node\&. It will then return all leaves of \fInode\fR\&. These are all children which have no further children\&. .sp This function is a convenient method to select the contents of a Source Package\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf Program( \*(Aqsrc/main_a\&.c\*(Aq ) Program( \*(Aqsrc/main_b\&.c\*(Aq ) Program( \*(Aqmain_c\&.c\*(Aq ) # returns [\*(Aqmain_c\&.c\*(Aq, \*(Aqsrc/main_a\&.c\*(Aq, \*(AqSConstruct\*(Aq, \*(Aqsrc/main_b\&.c\*(Aq] FindSourceFiles() # returns [\*(Aqsrc/main_b\&.c\*(Aq, \*(Aqsrc/main_a\&.c\*(Aq ] FindSourceFiles( \*(Aqsrc\*(Aq ) .fi .if n \{\ .RE .\} .sp As you can see build support files (SConstruct in the above example) will also be returned by this function\&. .RE .PP Flatten(sequence), env\&.Flatten(sequence) .RS 4 Takes a sequence (that is, a Python list or tuple) that may contain nested sequences and returns a flattened list containing all of the individual elements in any sequence\&. This can be helpful for collecting the lists returned by calls to Builders; other Builders will automatically flatten lists specified as input, but direct Python manipulation of these lists does not\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf foo = Object(\*(Aqfoo\&.c\*(Aq) bar = Object(\*(Aqbar\&.c\*(Aq) # Because `foo\*(Aq and `bar\*(Aq are lists returned by the Object() Builder, # `objects\*(Aq will be a list containing nested lists: objects = [\*(Aqf1\&.o\*(Aq, foo, \*(Aqf2\&.o\*(Aq, bar, \*(Aqf3\&.o\*(Aq] # Passing such a list to another Builder is all right because # the Builder will flatten the list automatically: Program(source = objects) # If you need to manipulate the list directly using Python, you need to # call Flatten() yourself, or otherwise handle nested lists: for object in Flatten(objects): print str(object) .fi .if n \{\ .RE .\} .RE .PP GetBuildFailures() .RS 4 Returns a list of exceptions for the actions that failed while attempting to build targets\&. Each element in the returned list is a BuildError object with the following attributes that record various aspects of the build failure: .sp \&.node The node that was being built when the build failure occurred\&. .sp \&.status The numeric exit status returned by the command or Python function that failed when trying to build the specified Node\&. .sp \&.errstr The SCons error string describing the build failure\&. (This is often a generic message like "Error 2" to indicate that an executed command exited with a status of 2\&.) .sp \&.filename The name of the file or directory that actually caused the failure\&. This may be different from the \&.node attribute\&. For example, if an attempt to build a target named sub/dir/target fails because the sub/dir directory could not be created, then the \&.node attribute will be sub/dir/target but the \&.filename attribute will be sub/dir\&. .sp \&.executor The SCons Executor object for the target Node being built\&. This can be used to retrieve the construction environment used for the failed action\&. .sp \&.action The actual SCons Action object that failed\&. This will be one specific action out of the possible list of actions that would have been executed to build the target\&. .sp \&.command The actual expanded command that was executed and failed, after expansion of \fB$TARGET\fR, \fB$SOURCE\fR, and other construction variables\&. .sp Note that the \fBGetBuildFailures\fR function will always return an empty list until any build failure has occurred, which means that \fBGetBuildFailures\fR will always return an empty list while the SConscript files are being read\&. Its primary intended use is for functions that will be executed before SCons exits by passing them to the standard Python \fBatexit\&.register\fR() function\&. Example: .sp .if n \{\ .RS 4 .\} .nf import atexit def print_build_failures(): from SCons\&.Script import GetBuildFailures for bf in GetBuildFailures(): print("%s failed: %s" % (bf\&.node, bf\&.errstr)) atexit\&.register(print_build_failures) .fi .if n \{\ .RE .\} .RE .PP GetBuildPath(file, [\&.\&.\&.]), env\&.GetBuildPath(file, [\&.\&.\&.]) .RS 4 Returns the scons path name (or names) for the specified \fIfile\fR (or files)\&. The specified \fIfile\fR or files may be scons Nodes or strings representing path names\&. .RE .PP GetLaunchDir(), env\&.GetLaunchDir() .RS 4 Returns the absolute path name of the directory from which scons was initially invoked\&. This can be useful when using the \fB\-u\fR, \fB\-U\fR or \fB\-D\fR options, which internally change to the directory in which the SConstruct file is found\&. .RE .PP GetOption(name), env\&.GetOption(name) .RS 4 This function provides a way to query the value of SCons options set on scons command line (or set using the \fBSetOption\fR function)\&. The options supported are: .PP cache_debug .RS 4 which corresponds to \-\-cache\-debug; .RE .PP cache_disable .RS 4 which corresponds to \-\-cache\-disable; .RE .PP cache_force .RS 4 which corresponds to \-\-cache\-force; .RE .PP cache_show .RS 4 which corresponds to \-\-cache\-show; .RE .PP clean .RS 4 which corresponds to \-c, \-\-clean and \-\-remove; .RE .PP config .RS 4 which corresponds to \-\-config; .RE .PP directory .RS 4 which corresponds to \-C and \-\-directory; .RE .PP diskcheck .RS 4 which corresponds to \-\-diskcheck .RE .PP duplicate .RS 4 which corresponds to \-\-duplicate; .RE .PP file .RS 4 which corresponds to \-f, \-\-file, \-\-makefile and \-\-sconstruct; .RE .PP help .RS 4 which corresponds to \-h and \-\-help; .RE .PP ignore_errors .RS 4 which corresponds to \-\-ignore\-errors; .RE .PP implicit_cache .RS 4 which corresponds to \-\-implicit\-cache; .RE .PP implicit_deps_changed .RS 4 which corresponds to \-\-implicit\-deps\-changed; .RE .PP implicit_deps_unchanged .RS 4 which corresponds to \-\-implicit\-deps\-unchanged; .RE .PP interactive .RS 4 which corresponds to \-\-interact and \-\-interactive; .RE .PP keep_going .RS 4 which corresponds to \-k and \-\-keep\-going; .RE .PP max_drift .RS 4 which corresponds to \-\-max\-drift; .RE .PP no_exec .RS 4 which corresponds to \-n, \-\-no\-exec, \-\-just\-print, \-\-dry\-run and \-\-recon; .RE .PP no_site_dir .RS 4 which corresponds to \-\-no\-site\-dir; .RE .PP num_jobs .RS 4 which corresponds to \-j and \-\-jobs; .RE .PP profile_file .RS 4 which corresponds to \-\-profile; .RE .PP question .RS 4 which corresponds to \-q and \-\-question; .RE .PP random .RS 4 which corresponds to \-\-random; .RE .PP repository .RS 4 which corresponds to \-Y, \-\-repository and \-\-srcdir; .RE .PP silent .RS 4 which corresponds to \-s, \-\-silent and \-\-quiet; .RE .PP site_dir .RS 4 which corresponds to \-\-site\-dir; .RE .PP stack_size .RS 4 which corresponds to \-\-stack\-size; .RE .PP taskmastertrace_file .RS 4 which corresponds to \-\-taskmastertrace; and .RE .PP warn .RS 4 which corresponds to \-\-warn and \-\-warning\&. .RE .sp See the documentation for the corresponding command line object for information about each specific option\&. .RE .PP Glob(pattern, [ondisk, source, strings, exclude]), env\&.Glob(pattern, [ondisk, source, strings, exclude]) .RS 4 Returns Nodes (or strings) that match the specified \fIpattern\fR, relative to the directory of the current SConscript file\&. The \fBenv\&.Glob\fR() form performs string substition on \fIpattern\fR and returns whatever matches the resulting expanded pattern\&. .sp The specified \fIpattern\fR uses Unix shell style metacharacters for matching: .sp .if n \{\ .RS 4 .\} .nf * matches everything ? matches any single character [seq] matches any character in seq [!seq] matches any char not in seq .fi .if n \{\ .RE .\} .sp If the first character of a filename is a dot, it must be matched explicitly\&. Character matches do \fInot\fR span directory separators\&. .sp The \fBGlob\fR knows about repositories (see the \fBRepository\fR function) and source directories (see the \fBVariantDir\fR function) and returns a Node (or string, if so configured) in the local (SConscript) directory if matching Node is found anywhere in a corresponding repository or source directory\&. .sp The \fIondisk\fR argument may be set to False (or any other non\-true value) to disable the search for matches on disk, thereby only returning matches among already\-configured File or Dir Nodes\&. The default behavior is to return corresponding Nodes for any on\-disk matches found\&. .sp The \fIsource\fR argument may be set to True (or any equivalent value) to specify that, when the local directory is a \fBVariantDir\fR, the returned Nodes should be from the corresponding source directory, not the local directory\&. .sp The \fIstrings\fR argument may be set to True (or any equivalent value) to have the \fBGlob\fR function return strings, not Nodes, that represent the matched files or directories\&. The returned strings will be relative to the local (SConscript) directory\&. (Note that This may make it easier to perform arbitrary manipulation of file names, but if the returned strings are passed to a different SConscript file, any Node translation will be relative to the other SConscript directory, not the original SConscript directory\&.) .sp The \fIexclude\fR argument may be set to a pattern or a list of patterns (following the same Unix shell semantics) which must be filtered out of returned elements\&. Elements matching a least one pattern of this list will be excluded\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf Program(\*(Aqfoo\*(Aq, Glob(\*(Aq*\&.c\*(Aq)) Zip(\*(Aq/tmp/everything\*(Aq, Glob(\*(Aq\&.??*\*(Aq) + Glob(\*(Aq*\*(Aq)) sources = Glob(\*(Aq*\&.cpp\*(Aq, exclude=[\*(Aqos_*_specific_*\&.cpp\*(Aq]) + Glob(\*(Aqos_%s_specific_*\&.cpp\*(Aq%currentOS) .fi .if n \{\ .RE .\} .RE .PP Help(text, append=False), env\&.Help(text, append=False) .RS 4 This specifies help text to be printed if the \fB\-h\fR argument is given to scons\&. If \fBHelp\fR is called multiple times, the text is appended together in the order that \fBHelp\fR is called\&. With append set to False, any \fBHelp\fR text generated with \fBAddOption\fR is clobbered\&. If append is True, the AddOption help is prepended to the help string, thus preserving the \fB\-h\fR message\&. .RE .PP Ignore(target, dependency), env\&.Ignore(target, dependency) .RS 4 The specified dependency file(s) will be ignored when deciding if the target file(s) need to be rebuilt\&. .sp You can also use \fBIgnore\fR to remove a target from the default build\&. In order to do this you must specify the directory the target will be built in as the target, and the file you want to skip building as the dependency\&. .sp Note that this will only remove the dependencies listed from the files built by default\&. It will still be built if that dependency is needed by another object being built\&. See the third and forth examples below\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf env\&.Ignore(\*(Aqfoo\*(Aq, \*(Aqfoo\&.c\*(Aq) env\&.Ignore(\*(Aqbar\*(Aq, [\*(Aqbar1\&.h\*(Aq, \*(Aqbar2\&.h\*(Aq]) env\&.Ignore(\*(Aq\&.\*(Aq,\*(Aqfoobar\&.obj\*(Aq) env\&.Ignore(\*(Aqbar\*(Aq,\*(Aqbar/foobar\&.obj\*(Aq) .fi .if n \{\ .RE .\} .RE .PP Import(vars), env\&.Import(vars) .RS 4 This tells scons to import a list of variables into the current SConscript file\&. This will import variables that were exported with \fBExport\fR or in the \fIexports\fR argument to \fBSConscript\fR\&. Variables exported by \fBSConscript\fR have precedence\&. Multiple variable names can be passed to \fBImport\fR as separate arguments or as a list\&. The variable "*" can be used to import all variables\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf Import("env") Import("env", "variable") Import(["env", "variable"]) Import("*") .fi .if n \{\ .RE .\} .RE .PP Literal(string), env\&.Literal(string) .RS 4 The specified \fIstring\fR will be preserved as\-is and not have construction variables expanded\&. .RE .PP Local(targets), env\&.Local(targets) .RS 4 The specified \fItargets\fR will have copies made in the local tree, even if an already up\-to\-date copy exists in a repository\&. Returns a list of the target Node or Nodes\&. .RE .PP env\&.MergeFlags(arg, [unique]) .RS 4 Merges the specified \fIarg\fR values to the construction environment\*(Aqs construction variables\&. If the \fIarg\fR argument is not a dictionary, it is converted to one by calling \fBenv\&.ParseFlags\fR on the argument before the values are merged\&. Note that \fIarg\fR must be a single value, so multiple strings must be passed in as a list, not as separate arguments to \fBenv\&.MergeFlags\fR\&. .sp By default, duplicate values are eliminated; you can, however, specify unique=0 to allow duplicate values to be added\&. When eliminating duplicate values, any construction variables that end with the string PATH keep the left\-most unique value\&. All other construction variables keep the right\-most unique value\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf # Add an optimization flag to $CCFLAGS\&. env\&.MergeFlags(\*(Aq\-O3\*(Aq) # Combine the flags returned from running pkg\-config with an optimization # flag and merge the result into the construction variables\&. env\&.MergeFlags([\*(Aq!pkg\-config gtk+\-2\&.0 \-\-cflags\*(Aq, \*(Aq\-O3\*(Aq]) # Combine an optimization flag with the flags returned from running pkg\-config # twice and merge the result into the construction variables\&. env\&.MergeFlags([\*(Aq\-O3\*(Aq, \*(Aq!pkg\-config gtk+\-2\&.0 \-\-cflags \-\-libs\*(Aq, \*(Aq!pkg\-config libpng12 \-\-cflags \-\-libs\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP NoCache(target, \&.\&.\&.), env\&.NoCache(target, \&.\&.\&.) .RS 4 Specifies a list of files which should \fInot\fR be cached whenever the \fBCacheDir\fR method has been activated\&. The specified targets may be a list or an individual target\&. .sp Multiple files should be specified either as separate arguments to the \fBNoCache\fR method, or as a list\&. \fBNoCache\fR will also accept the return value of any of the construction environment Builder methods\&. .sp Calling \fBNoCache\fR on directories and other non\-File Node types has no effect because only File Nodes are cached\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf NoCache(\*(Aqfoo\&.elf\*(Aq) NoCache(env\&.Program(\*(Aqhello\*(Aq, \*(Aqhello\&.c\*(Aq)) .fi .if n \{\ .RE .\} .RE .PP NoClean(target, \&.\&.\&.), env\&.NoClean(target, \&.\&.\&.) .RS 4 Specifies a list of files or directories which should \fInot\fR be removed whenever the targets (or their dependencies) are specified with the \fB\-c\fR command line option\&. The specified targets may be a list or an individual target\&. Multiple calls to \fBNoClean\fR are legal, and prevent each specified target from being removed by calls to the \fB\-c\fR option\&. .sp Multiple files or directories should be specified either as separate arguments to the \fBNoClean\fR method, or as a list\&. \fBNoClean\fR will also accept the return value of any of the construction environment Builder methods\&. .sp Calling \fBNoClean\fR for a target overrides calling \fBClean\fR for the same target, and any targets passed to both functions will \fInot\fR be removed by the \fB\-c\fR option\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf NoClean(\*(Aqfoo\&.elf\*(Aq) NoClean(env\&.Program(\*(Aqhello\*(Aq, \*(Aqhello\&.c\*(Aq)) .fi .if n \{\ .RE .\} .RE .PP env\&.ParseConfig(command, [function, unique]) .RS 4 Calls the specified \fIfunction\fR to modify the environment as specified by the output of \fIcommand\fR\&. The default \fIfunction\fR is \fBenv\&.MergeFlags\fR, which expects the output of a typical *\-config command (for example, gtk\-config) and adds the options to the appropriate construction variables\&. By default, duplicate values are not added to any construction variables; you can specify unique=0 to allow duplicate values to be added\&. .sp Interpreted options and the construction variables they affect are as specified for the \fBenv\&.ParseFlags\fR method (which this method calls)\&. See that method\*(Aqs description, below, for a table of options and construction variables\&. .RE .PP ParseDepends(filename, [must_exist, only_one]), env\&.ParseDepends(filename, [must_exist, only_one]) .RS 4 Parses the contents of the specified \fIfilename\fR as a list of dependencies in the style of Make or mkdep, and explicitly establishes all of the listed dependencies\&. .sp By default, it is not an error if the specified \fIfilename\fR does not exist\&. The optional \fImust_exist\fR argument may be set to a non\-zero value to have scons throw an exception and generate an error if the file does not exist, or is otherwise inaccessible\&. .sp The optional \fIonly_one\fR argument may be set to a non\-zero value to have scons thrown an exception and generate an error if the file contains dependency information for more than one target\&. This can provide a small sanity check for files intended to be generated by, for example, the gcc \-M flag, which should typically only write dependency information for one output file into a corresponding \&.d file\&. .sp The \fIfilename\fR and all of the files listed therein will be interpreted relative to the directory of the SConscript file which calls the \fBParseDepends\fR function\&. .RE .PP env\&.ParseFlags(flags, \&.\&.\&.) .RS 4 Parses one or more strings containing typical command\-line flags for GCC tool chains and returns a dictionary with the flag values separated into the appropriate SCons construction variables\&. This is intended as a companion to the \fBenv\&.MergeFlags\fR method, but allows for the values in the returned dictionary to be modified, if necessary, before merging them into the construction environment\&. (Note that \fBenv\&.MergeFlags\fR will call this method if its argument is not a dictionary, so it is usually not necessary to call \fBenv\&.ParseFlags\fR directly unless you want to manipulate the values\&.) .sp If the first character in any string is an exclamation mark (!), the rest of the string is executed as a command, and the output from the command is parsed as GCC tool chain command\-line flags and added to the resulting dictionary\&. .sp Flag values are translated accordig to the prefix found, and added to the following construction variables: .sp .if n \{\ .RS 4 .\} .nf \-arch CCFLAGS, LINKFLAGS \-D CPPDEFINES \-framework FRAMEWORKS \-frameworkdir= FRAMEWORKPATH \-include CCFLAGS \-isysroot CCFLAGS, LINKFLAGS \-I CPPPATH \-l LIBS \-L LIBPATH \-mno\-cygwin CCFLAGS, LINKFLAGS \-mwindows LINKFLAGS \-pthread CCFLAGS, LINKFLAGS \-std= CFLAGS \-Wa, ASFLAGS, CCFLAGS \-Wl,\-rpath= RPATH \-Wl,\-R, RPATH \-Wl,\-R RPATH \-Wl, LINKFLAGS \-Wp, CPPFLAGS \- CCFLAGS + CCFLAGS, LINKFLAGS .fi .if n \{\ .RE .\} .sp Any other strings not associated with options are assumed to be the names of libraries and added to the \fB$LIBS\fR construction variable\&. .sp Examples (all of which produce the same result): .sp .if n \{\ .RS 4 .\} .nf dict = env\&.ParseFlags(\*(Aq\-O2 \-Dfoo \-Dbar=1\*(Aq) dict = env\&.ParseFlags(\*(Aq\-O2\*(Aq, \*(Aq\-Dfoo\*(Aq, \*(Aq\-Dbar=1\*(Aq) dict = env\&.ParseFlags([\*(Aq\-O2\*(Aq, \*(Aq\-Dfoo \-Dbar=1\*(Aq]) dict = env\&.ParseFlags(\*(Aq\-O2\*(Aq, \*(Aq!echo \-Dfoo \-Dbar=1\*(Aq) .fi .if n \{\ .RE .\} .RE .PP Platform(string) .RS 4 The \fBPlatform\fR form returns a callable object that can be used to initialize a construction environment using the platform keyword of the \fBEnvironment\fR function\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf env = Environment(platform = Platform(\*(Aqwin32\*(Aq)) .fi .if n \{\ .RE .\} .sp The \fBenv\&.Platform\fR form applies the callable object for the specified platform \fIstring\fR to the environment through which the method was called\&. .sp .if n \{\ .RS 4 .\} .nf env\&.Platform(\*(Aqposix\*(Aq) .fi .if n \{\ .RE .\} .sp Note that the win32 platform adds the SystemDrive and SystemRoot variables from the user\*(Aqs external environment to the construction environment\*(Aqs \fB$ENV\fR dictionary\&. This is so that any executed commands that use sockets to connect with other systems (such as fetching source files from external CVS repository specifications like :pserver:anonymous@cvs\&.sourceforge\&.net:/cvsroot/scons) will work on Windows systems\&. .RE .PP Precious(target, \&.\&.\&.), env\&.Precious(target, \&.\&.\&.) .RS 4 Marks each given \fItarget\fR as precious so it is not deleted before it is rebuilt\&. Normally scons deletes a target before building it\&. Multiple targets can be passed in to a single call to \fBPrecious\fR\&. .RE .PP env\&.Prepend(key=val, [\&.\&.\&.]) .RS 4 Appends the specified keyword arguments to the beginning of construction variables in the environment\&. If the Environment does not have the specified construction variable, it is simply added to the environment\&. If the values of the construction variable and the keyword argument are the same type, then the two values will be simply added together\&. Otherwise, the construction variable and the value of the keyword argument are both coerced to lists, and the lists are added together\&. (See also the Append method, above\&.) .sp Example: .sp .if n \{\ .RS 4 .\} .nf env\&.Prepend(CCFLAGS = \*(Aq\-g \*(Aq, FOO = [\*(Aqfoo\&.yyy\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP env\&.PrependENVPath(name, newpath, [envname, sep, delete_existing]) .RS 4 This appends new path elements to the given path in the specified external environment (\fB$ENV\fR by default)\&. This will only add any particular path once (leaving the first one it encounters and ignoring the rest, to preserve path order), and to help assure this, will normalize all paths (using os\&.path\&.normpath and os\&.path\&.normcase)\&. This can also handle the case where the given old path variable is a list instead of a string, in which case a list will be returned instead of a string\&. .sp If \fIdelete_existing\fR is 0, then adding a path that already exists will not move it to the beginning; it will stay where it is in the list\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf print \*(Aqbefore:\*(Aq,env[\*(AqENV\*(Aq][\*(AqINCLUDE\*(Aq] include_path = \*(Aq/foo/bar:/foo\*(Aq env\&.PrependENVPath(\*(AqINCLUDE\*(Aq, include_path) print \*(Aqafter:\*(Aq,env[\*(AqENV\*(Aq][\*(AqINCLUDE\*(Aq] .fi .if n \{\ .RE .\} .sp The above example will print: .sp .if n \{\ .RS 4 .\} .nf before: /biz:/foo after: /foo/bar:/foo:/biz .fi .if n \{\ .RE .\} .RE .PP env\&.PrependUnique(key=val, delete_existing=0, [\&.\&.\&.]) .RS 4 Appends the specified keyword arguments to the beginning of construction variables in the environment\&. If the Environment does not have the specified construction variable, it is simply added to the environment\&. If the construction variable being appended to is a list, then any value(s) that already exist in the construction variable will \fInot\fR be added again to the list\&. However, if delete_existing is 1, existing matching values are removed first, so existing values in the arg list move to the front of the list\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf env\&.PrependUnique(CCFLAGS = \*(Aq\-g\*(Aq, FOO = [\*(Aqfoo\&.yyy\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP Progress(callable, [interval]), Progress(string, [interval, file, overwrite]), Progress(list_of_strings, [interval, file, overwrite]) .RS 4 Allows SCons to show progress made during the build by displaying a string or calling a function while evaluating Nodes (e\&.g\&. files)\&. .sp If the first specified argument is a Python callable (a function or an object that has a \fB__call__\fR() method), the function will be called once every \fIinterval\fR times a Node is evaluated\&. The callable will be passed the evaluated Node as its only argument\&. (For future compatibility, it\*(Aqs a good idea to also add *args and **kw as arguments to your function or method\&. This will prevent the code from breaking if SCons ever changes the interface to call the function with additional arguments in the future\&.) .sp An example of a simple custom progress function that prints a string containing the Node name every 10 Nodes: .sp .if n \{\ .RS 4 .\} .nf def my_progress_function(node, *args, **kw): print(\*(AqEvaluating node %s!\*(Aq % node) Progress(my_progress_function, interval=10) .fi .if n \{\ .RE .\} .sp A more complicated example of a custom progress display object that prints a string containing a count every 100 evaluated Nodes\&. Note the use of \er (a carriage return) at the end so that the string will overwrite itself on a display: .sp .if n \{\ .RS 4 .\} .nf import sys class ProgressCounter(object): count = 0 def __call__(self, node, *args, **kw): self\&.count += 100 sys\&.stderr\&.write(\*(AqEvaluated %s nodes\er\*(Aq % self\&.count) Progress(ProgressCounter(), interval=100) .fi .if n \{\ .RE .\} .sp If the first argument \fBProgress\fR is a string, the string will be displayed every \fIinterval\fR evaluated Nodes\&. The default is to print the string on standard output; an alternate output stream may be specified with the file= argument\&. The following will print a series of dots on the error output, one dot for every 100 evaluated Nodes: .sp .if n \{\ .RS 4 .\} .nf import sys Progress(\*(Aq\&.\*(Aq, interval=100, file=sys\&.stderr) .fi .if n \{\ .RE .\} .sp If the string contains the verbatim substring \fB$TARGET\fR, it will be replaced with the Node\&. Note that, for performance reasons, this is \fInot\fR a regular SCons variable substition, so you can not use other variables or use curly braces\&. The following example will print the name of every evaluated Node, using a \er (carriage return) to cause each line to overwritten by the next line, and the overwrite= keyword argument to make sure the previously\-printed file name is overwritten with blank spaces: .sp .if n \{\ .RS 4 .\} .nf import sys Progress(\*(Aq$TARGET\er\*(Aq, overwrite=True) .fi .if n \{\ .RE .\} .sp If the first argument to \fBProgress\fR is a list of strings, then each string in the list will be displayed in rotating fashion every \fIinterval\fR evaluated Nodes\&. This can be used to implement a "spinner" on the user\*(Aqs screen as follows: .sp .if n \{\ .RS 4 .\} .nf Progress([\*(Aq\-\er\*(Aq, \*(Aq\e\e\er\*(Aq, \*(Aq|\er\*(Aq, \*(Aq/\er\*(Aq], interval=5) .fi .if n \{\ .RE .\} .RE .PP Pseudo(target, \&.\&.\&.), env\&.Pseudo(target, \&.\&.\&.) .RS 4 This indicates that each given \fItarget\fR should not be created by the build rule, and if the target is created, an error will be generated\&. This is similar to the gnu make \&.PHONY target\&. However, in the vast majority of cases, an \fBAlias\fR is more appropriate\&. Multiple targets can be passed in to a single call to \fBPseudo\fR\&. .RE .PP PyPackageDir(modulename), env\&.PyPackageDir(modulename) .RS 4 This returns a Directory Node similar to Dir\&. The python module / package is looked up and if located the directory is returned for the location\&. \fImodulename\fR Is a named python package / module to lookup the directory for it\*(Aqs location\&. .sp If \fImodulename\fR is a list, SCons returns a list of Dir nodes\&. Construction variables are expanded in \fImodulename\fR\&. .RE .PP env\&.Replace(key=val, [\&.\&.\&.]) .RS 4 Replaces construction variables in the Environment with the specified keyword arguments\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf env\&.Replace(CCFLAGS = \*(Aq\-g\*(Aq, FOO = \*(Aqfoo\&.xxx\*(Aq) .fi .if n \{\ .RE .\} .RE .PP Repository(directory), env\&.Repository(directory) .RS 4 Specifies that \fIdirectory\fR is a repository to be searched for files\&. Multiple calls to \fBRepository\fR are legal, and each one adds to the list of repositories that will be searched\&. .sp To scons, a repository is a copy of the source tree, from the top\-level directory on down, which may contain both source files and derived files that can be used to build targets in the local source tree\&. The canonical example would be an official source tree maintained by an integrator\&. If the repository contains derived files, then the derived files should have been built using scons, so that the repository contains the necessary signature information to allow scons to figure out when it is appropriate to use the repository copy of a derived file, instead of building one locally\&. .sp Note that if an up\-to\-date derived file already exists in a repository, scons will \fInot\fR make a copy in the local directory tree\&. In order to guarantee that a local copy will be made, use the \fBLocal\fR method\&. .RE .PP Requires(target, prerequisite), env\&.Requires(target, prerequisite) .RS 4 Specifies an order\-only relationship between the specified target file(s) and the specified prerequisite file(s)\&. The prerequisite file(s) will be (re)built, if necessary, \fIbefore\fR the target file(s), but the target file(s) do not actually depend on the prerequisites and will not be rebuilt simply because the prerequisite file(s) change\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf env\&.Requires(\*(Aqfoo\*(Aq, \*(Aqfile\-that\-must\-be\-built\-before\-foo\*(Aq) .fi .if n \{\ .RE .\} .RE .PP Return([vars\&.\&.\&., stop=]) .RS 4 By default, this stops processing the current SConscript file and returns to the calling SConscript file the values of the variables named in the \fIvars\fR string arguments\&. Multiple strings contaning variable names may be passed to \fBReturn\fR\&. Any strings that contain white space .sp The optional stop= keyword argument may be set to a false value to continue processing the rest of the SConscript file after the \fBReturn\fR call\&. This was the default behavior prior to SCons 0\&.98\&. However, the values returned are still the values of the variables in the named \fIvars\fR at the point \fBReturn\fR is called\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf # Returns without returning a value\&. Return() # Returns the value of the \*(Aqfoo\*(Aq Python variable\&. Return("foo") # Returns the values of the Python variables \*(Aqfoo\*(Aq and \*(Aqbar\*(Aq\&. Return("foo", "bar") # Returns the values of Python variables \*(Aqval1\*(Aq and \*(Aqval2\*(Aq\&. Return(\*(Aqval1 val2\*(Aq) .fi .if n \{\ .RE .\} .RE .PP Scanner(function, [argument, keys, path_function, node_class, node_factory, scan_check, recursive]), env\&.Scanner(function, [argument, keys, path_function, node_class, node_factory, scan_check, recursive]) .RS 4 Creates a Scanner object for the specified \fIfunction\fR\&. See the section "Scanner Objects," below, for a complete explanation of the arguments and behavior\&. .RE .PP SConscript(scripts, [exports, variant_dir, duplicate]), env\&.SConscript(scripts, [exports, variant_dir, duplicate]), SConscript(dirs=subdirs, [name=script, exports, variant_dir, duplicate]), env\&.SConscript(dirs=subdirs, [name=script, exports, variant_dir, duplicate]) .RS 4 This tells scons to execute one or more subsidiary SConscript (configuration) files\&. Any variables returned by a called script using \fBReturn\fR will be returned by the call to \fBSConscript\fR\&. There are two ways to call the \fBSConscript\fR function\&. .sp The first way you can call \fBSConscript\fR is to explicitly specify one or more \fIscripts\fR as the first argument\&. A single script may be specified as a string; multiple scripts must be specified as a list (either explicitly or as created by a function like \fBSplit\fR)\&. Examples: .sp .if n \{\ .RS 4 .\} .nf SConscript(\*(AqSConscript\*(Aq) # run SConscript in the current directory SConscript(\*(Aqsrc/SConscript\*(Aq) # run SConscript in the src directory SConscript([\*(Aqsrc/SConscript\*(Aq, \*(Aqdoc/SConscript\*(Aq]) config = SConscript(\*(AqMyConfig\&.py\*(Aq) .fi .if n \{\ .RE .\} .sp The second way you can call \fBSConscript\fR is to specify a list of (sub)directory names as a dirs=\fIsubdirs\fR keyword argument\&. In this case, scons will, by default, execute a subsidiary configuration file named SConscript in each of the specified directories\&. You may specify a name other than SConscript by supplying an optional name=\fIscript\fR keyword argument\&. The first three examples below have the same effect as the first three examples above: .sp .if n \{\ .RS 4 .\} .nf SConscript(dirs=\*(Aq\&.\*(Aq) # run SConscript in the current directory SConscript(dirs=\*(Aqsrc\*(Aq) # run SConscript in the src directory SConscript(dirs=[\*(Aqsrc\*(Aq, \*(Aqdoc\*(Aq]) SConscript(dirs=[\*(Aqsub1\*(Aq, \*(Aqsub2\*(Aq], name=\*(AqMySConscript\*(Aq) .fi .if n \{\ .RE .\} .sp The optional \fIexports\fR argument provides a list of variable names or a dictionary of named values to export to the \fIscript(s)\fR\&. These variables are locally exported only to the specified \fIscript(s)\fR, and do not affect the global pool of variables used by the \fBExport\fR function\&. The subsidiary \fIscript(s)\fR must use the \fBImport\fR function to import the variables\&. Examples: .sp .if n \{\ .RS 4 .\} .nf foo = SConscript(\*(Aqsub/SConscript\*(Aq, exports=\*(Aqenv\*(Aq) SConscript(\*(Aqdir/SConscript\*(Aq, exports=[\*(Aqenv\*(Aq, \*(Aqvariable\*(Aq]) SConscript(dirs=\*(Aqsubdir\*(Aq, exports=\*(Aqenv variable\*(Aq) SConscript(dirs=[\*(Aqone\*(Aq, \*(Aqtwo\*(Aq, \*(Aqthree\*(Aq], exports=\*(Aqshared_info\*(Aq) .fi .if n \{\ .RE .\} .sp If the optional \fIvariant_dir\fR argument is present, it causes an effect equivalent to the \fBVariantDir\fR method described below\&. (If \fIvariant_dir\fR is not present, the \fIduplicate\fR argument is ignored\&.) The \fIvariant_dir\fR argument is interpreted relative to the directory of the calling SConscript file\&. See the description of the \fBVariantDir\fR function below for additional details and restrictions\&. .sp If \fIvariant_dir\fR is present, the source directory is the directory in which the SConscript file resides and the SConscript file is evaluated as if it were in the \fIvariant_dir\fR directory: .sp .if n \{\ .RS 4 .\} .nf SConscript(\*(Aqsrc/SConscript\*(Aq, variant_dir = \*(Aqbuild\*(Aq) .fi .if n \{\ .RE .\} .sp is equivalent to .sp .if n \{\ .RS 4 .\} .nf VariantDir(\*(Aqbuild\*(Aq, \*(Aqsrc\*(Aq) SConscript(\*(Aqbuild/SConscript\*(Aq) .fi .if n \{\ .RE .\} .sp This later paradigm is often used when the sources are in the same directory as the SConstruct: .sp .if n \{\ .RS 4 .\} .nf SConscript(\*(AqSConscript\*(Aq, variant_dir = \*(Aqbuild\*(Aq) .fi .if n \{\ .RE .\} .sp is equivalent to .sp .if n \{\ .RS 4 .\} .nf VariantDir(\*(Aqbuild\*(Aq, \*(Aq\&.\*(Aq) SConscript(\*(Aqbuild/SConscript\*(Aq) .fi .if n \{\ .RE .\} .sp .sp Here are some composite examples: .sp .if n \{\ .RS 4 .\} .nf # collect the configuration information and use it to build src and doc shared_info = SConscript(\*(AqMyConfig\&.py\*(Aq) SConscript(\*(Aqsrc/SConscript\*(Aq, exports=\*(Aqshared_info\*(Aq) SConscript(\*(Aqdoc/SConscript\*(Aq, exports=\*(Aqshared_info\*(Aq) .fi .if n \{\ .RE .\} .sp .if n \{\ .RS 4 .\} .nf # build debugging and production versions\&. SConscript # can use Dir(\*(Aq\&.\*(Aq)\&.path to determine variant\&. SConscript(\*(AqSConscript\*(Aq, variant_dir=\*(Aqdebug\*(Aq, duplicate=0) SConscript(\*(AqSConscript\*(Aq, variant_dir=\*(Aqprod\*(Aq, duplicate=0) .fi .if n \{\ .RE .\} .sp .if n \{\ .RS 4 .\} .nf # build debugging and production versions\&. SConscript # is passed flags to use\&. opts = { \*(AqCPPDEFINES\*(Aq : [\*(AqDEBUG\*(Aq], \*(AqCCFLAGS\*(Aq : \*(Aq\-pgdb\*(Aq } SConscript(\*(AqSConscript\*(Aq, variant_dir=\*(Aqdebug\*(Aq, duplicate=0, exports=opts) opts = { \*(AqCPPDEFINES\*(Aq : [\*(AqNODEBUG\*(Aq], \*(AqCCFLAGS\*(Aq : \*(Aq\-O\*(Aq } SConscript(\*(AqSConscript\*(Aq, variant_dir=\*(Aqprod\*(Aq, duplicate=0, exports=opts) .fi .if n \{\ .RE .\} .sp .if n \{\ .RS 4 .\} .nf # build common documentation and compile for different architectures SConscript(\*(Aqdoc/SConscript\*(Aq, variant_dir=\*(Aqbuild/doc\*(Aq, duplicate=0) SConscript(\*(Aqsrc/SConscript\*(Aq, variant_dir=\*(Aqbuild/x86\*(Aq, duplicate=0) SConscript(\*(Aqsrc/SConscript\*(Aq, variant_dir=\*(Aqbuild/ppc\*(Aq, duplicate=0) .fi .if n \{\ .RE .\} .RE .PP SConscriptChdir(value), env\&.SConscriptChdir(value) .RS 4 By default, scons changes its working directory to the directory in which each subsidiary SConscript file lives\&. This behavior may be disabled by specifying either: .sp .if n \{\ .RS 4 .\} .nf SConscriptChdir(0) env\&.SConscriptChdir(0) .fi .if n \{\ .RE .\} .sp in which case scons will stay in the top\-level directory while reading all SConscript files\&. (This may be necessary when building from repositories, when all the directories in which SConscript files may be found don\*(Aqt necessarily exist locally\&.) You may enable and disable this ability by calling SConscriptChdir() multiple times\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf env = Environment() SConscriptChdir(0) SConscript(\*(Aqfoo/SConscript\*(Aq) # will not chdir to foo env\&.SConscriptChdir(1) SConscript(\*(Aqbar/SConscript\*(Aq) # will chdir to bar .fi .if n \{\ .RE .\} .RE .PP SConsignFile([file, dbm_module]), env\&.SConsignFile([file, dbm_module]) .RS 4 This tells scons to store all file signatures in the specified database \fIfile\fR\&. If the \fIfile\fR name is omitted, \&.sconsign is used by default\&. (The actual file name(s) stored on disk may have an appropriated suffix appended by the \fI dbm_module\fR\&.) If \fIfile\fR is not an absolute path name, the file is placed in the same directory as the top\-level SConstruct file\&. .sp If \fIfile\fR is None, then scons will store file signatures in a separate \&.sconsign file in each directory, not in one global database file\&. (This was the default behavior prior to SCons 0\&.96\&.91 and 0\&.97\&.) .sp The optional \fIdbm_module\fR argument can be used to specify which Python database module The default is to use a custom SCons\&.dblite module that uses pickled Python data structures, and which works on all Python versions\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf # Explicitly stores signatures in "\&.sconsign\&.dblite" # in the top\-level SConstruct directory (the # default behavior)\&. SConsignFile() # Stores signatures in the file "etc/scons\-signatures" # relative to the top\-level SConstruct directory\&. SConsignFile("etc/scons\-signatures") # Stores signatures in the specified absolute file name\&. SConsignFile("/home/me/SCons/signatures") # Stores signatures in a separate \&.sconsign file # in each directory\&. SConsignFile(None) .fi .if n \{\ .RE .\} .RE .PP env\&.SetDefault(key=val, [\&.\&.\&.]) .RS 4 Sets construction variables to default values specified with the keyword arguments if (and only if) the variables are not already set\&. The following statements are equivalent: .sp .if n \{\ .RS 4 .\} .nf env\&.SetDefault(FOO = \*(Aqfoo\*(Aq) if \*(AqFOO\*(Aq not in env: env[\*(AqFOO\*(Aq] = \*(Aqfoo\*(Aq .fi .if n \{\ .RE .\} .RE .PP SetOption(name, value), env\&.SetOption(name, value) .RS 4 This function provides a way to set a select subset of the scons command line options from a SConscript file\&. The options supported are: .PP clean .RS 4 which corresponds to \-c, \-\-clean and \-\-remove; .RE .PP duplicate .RS 4 which corresponds to \-\-duplicate; .RE .PP help .RS 4 which corresponds to \-h and \-\-help; .RE .PP implicit_cache .RS 4 which corresponds to \-\-implicit\-cache; .RE .PP max_drift .RS 4 which corresponds to \-\-max\-drift; .RE .PP no_exec .RS 4 which corresponds to \-n, \-\-no\-exec, \-\-just\-print, \-\-dry\-run and \-\-recon; .RE .PP num_jobs .RS 4 which corresponds to \-j and \-\-jobs; .RE .PP random .RS 4 which corresponds to \-\-random; and .RE .PP silent .RS 4 which corresponds to \-\-silent\&. .RE .PP stack_size .RS 4 which corresponds to \-\-stack\-size\&. .RE .sp See the documentation for the corresponding command line object for information about each specific option\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf SetOption(\*(Aqmax_drift\*(Aq, 1) .fi .if n \{\ .RE .\} .RE .PP SideEffect(side_effect, target), env\&.SideEffect(side_effect, target) .RS 4 Declares \fIside_effect\fR as a side effect of building \fItarget\fR\&. Both \fIside_effect\fR and \fItarget\fR can be a list, a file name, or a node\&. A side effect is a target file that is created or updated as a side effect of building other targets\&. For example, a Windows PDB file is created as a side effect of building the \&.obj files for a static library, and various log files are created updated as side effects of various TeX commands\&. If a target is a side effect of multiple build commands, scons will ensure that only one set of commands is executed at a time\&. Consequently, you only need to use this method for side\-effect targets that are built as a result of multiple build commands\&. .sp Because multiple build commands may update the same side effect file, by default the \fIside_effect\fR target is \fInot\fR automatically removed when the \fItarget\fR is removed by the \fB\-c\fR option\&. (Note, however, that the \fIside_effect\fR might be removed as part of cleaning the directory in which it lives\&.) If you want to make sure the \fIside_effect\fR is cleaned whenever a specific \fItarget\fR is cleaned, you must specify this explicitly with the \fBClean\fR or \fBenv\&.Clean\fR function\&. .RE .PP SourceCode(entries, builder), env\&.SourceCode(entries, builder) .RS 4 This function and its associate factory functions are deprecated\&. There is no replacement\&. The intended use was to keep a local tree in sync with an archive, but in actuality the function only causes the archive to be fetched on the first run\&. Synchronizing with the archive is best done external to SCons\&. .sp Arrange for non\-existent source files to be fetched from a source code management system using the specified \fIbuilder\fR\&. The specified \fIentries\fR may be a Node, string or list of both, and may represent either individual source files or directories in which source files can be found\&. .sp For any non\-existent source files, scons will search up the directory tree and use the first \fBSourceCode\fR builder it finds\&. The specified \fIbuilder\fR may be None, in which case scons will not use a builder to fetch source files for the specified \fIentries\fR, even if a \fBSourceCode\fR builder has been specified for a directory higher up the tree\&. .sp scons will, by default, fetch files from SCCS or RCS subdirectories without explicit configuration\&. This takes some extra processing time to search for the necessary source code management files on disk\&. You can avoid these extra searches and speed up your build a little by disabling these searches as follows: .sp .if n \{\ .RS 4 .\} .nf env\&.SourceCode(\*(Aq\&.\*(Aq, None) .fi .if n \{\ .RE .\} .sp Note that if the specified \fIbuilder\fR is one you create by hand, it must have an associated construction environment to use when fetching a source file\&. .sp scons provides a set of canned factory functions that return appropriate Builders for various popular source code management systems\&. Canonical examples of invocation include: .sp .if n \{\ .RS 4 .\} .nf env\&.SourceCode(\*(Aq\&.\*(Aq, env\&.BitKeeper(\*(Aq/usr/local/BKsources\*(Aq)) env\&.SourceCode(\*(Aqsrc\*(Aq, env\&.CVS(\*(Aq/usr/local/CVSROOT\*(Aq)) env\&.SourceCode(\*(Aq/\*(Aq, env\&.RCS()) env\&.SourceCode([\*(Aqf1\&.c\*(Aq, \*(Aqf2\&.c\*(Aq], env\&.SCCS()) env\&.SourceCode(\*(Aqno_source\&.c\*(Aq, None) .fi .if n \{\ .RE .\} .sp .RE .PP SourceSignatures(type), env\&.SourceSignatures(type) .RS 4 Note: Although it is not yet officially deprecated, use of this function is discouraged\&. See the \fBDecider\fR function for a more flexible and straightforward way to configure SCons\*(Aq decision\-making\&. .sp The \fBSourceSignatures\fR function tells scons how to decide if a source file (a file that is not built from any other files) has changed since the last time it was used to build a particular target file\&. Legal values are MD5 or timestamp\&. .sp If the environment method is used, the specified type of source signature is only used when deciding whether targets built with that environment are up\-to\-date or must be rebuilt\&. If the global function is used, the specified type of source signature becomes the default used for all decisions about whether targets are up\-to\-date\&. .sp MD5 means scons decides that a source file has changed if the MD5 checksum of its contents has changed since the last time it was used to rebuild a particular target file\&. .sp timestamp means scons decides that a source file has changed if its timestamp (modification time) has changed since the last time it was used to rebuild a particular target file\&. (Note that although this is similar to the behavior of Make, by default it will also rebuild if the dependency is \fIolder\fR than the last time it was used to rebuild the target file\&.) .sp There is no different between the two behaviors for Python \fBValue\fR node objects\&. .sp MD5 signatures take longer to compute, but are more accurate than timestamp signatures\&. The default value is MD5\&. .sp Note that the default \fBTargetSignatures\fR setting (see below) is to use this \fBSourceSignatures\fR setting for any target files that are used to build other target files\&. Consequently, changing the value of \fBSourceSignatures\fR will, by default, affect the up\-to\-date decision for all files in the build (or all files built with a specific construction environment when \fBenv\&.SourceSignatures\fR is used)\&. .RE .PP Split(arg), env\&.Split(arg) .RS 4 Returns a list of file names or other objects\&. If arg is a string, it will be split on strings of white\-space characters within the string, making it easier to write long lists of file names\&. If arg is already a list, the list will be returned untouched\&. If arg is any other type of object, it will be returned as a list containing just the object\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf files = Split("f1\&.c f2\&.c f3\&.c") files = env\&.Split("f4\&.c f5\&.c f6\&.c") files = Split(""" f7\&.c f8\&.c f9\&.c """) .fi .if n \{\ .RE .\} .RE .PP env\&.subst(input, [raw, target, source, conv]) .RS 4 Performs construction variable interpolation on the specified string or sequence argument \fIinput\fR\&. .sp By default, leading or trailing white space will be removed from the result\&. and all sequences of white space will be compressed to a single space character\&. Additionally, any $( and $) character sequences will be stripped from the returned string, The optional \fIraw\fR argument may be set to 1 if you want to preserve white space and $(\-$) sequences\&. The \fIraw\fR argument may be set to 2 if you want to strip all characters between any $( and $) pairs (as is done for signature calculation)\&. .sp If the input is a sequence (list or tuple), the individual elements of the sequence will be expanded, and the results will be returned as a list\&. .sp The optional \fItarget\fR and \fIsource\fR keyword arguments must be set to lists of target and source nodes, respectively, if you want the \fB$TARGET\fR, \fB$TARGETS\fR, \fB$SOURCE\fR and \fB$SOURCES\fR to be available for expansion\&. This is usually necessary if you are calling \fBenv\&.subst\fR from within a Python function used as an SCons action\&. .sp Returned string values or sequence elements are converted to their string representation by default\&. The optional \fIconv\fR argument may specify a conversion function that will be used in place of the default\&. For example, if you want Python objects (including SCons Nodes) to be returned as Python objects, you can use the Python Λ idiom to pass in an unnamed function that simply returns its unconverted argument\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf print env\&.subst("The C compiler is: $CC") def compile(target, source, env): sourceDir = env\&.subst("${SOURCE\&.srcdir}", target=target, source=source) source_nodes = env\&.subst(\*(Aq$EXPAND_TO_NODELIST\*(Aq, conv=lambda x: x) .fi .if n \{\ .RE .\} .RE .PP Tag(node, tags) .RS 4 Annotates file or directory Nodes with information about how the \fBPackage\fR Builder should package those files or directories\&. All tags are optional\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf # makes sure the built library will be installed with 0644 file # access mode Tag( Library( \*(Aqlib\&.c\*(Aq ), UNIX_ATTR="0644" ) # marks file2\&.txt to be a documentation file Tag( \*(Aqfile2\&.txt\*(Aq, DOC ) .fi .if n \{\ .RE .\} .RE .PP TargetSignatures(type), env\&.TargetSignatures(type) .RS 4 Note: Although it is not yet officially deprecated, use of this function is discouraged\&. See the \fBDecider\fR function for a more flexible and straightforward way to configure SCons\*(Aq decision\-making\&. .sp The \fBTargetSignatures\fR function tells scons how to decide if a target file (a file that \fIis\fR built from any other files) has changed since the last time it was used to build some other target file\&. Legal values are "build"; "content" (or its synonym "MD5"); "timestamp"; or "source"\&. .sp If the environment method is used, the specified type of target signature is only used for targets built with that environment\&. If the global function is used, the specified type of signature becomes the default used for all target files that don\*(Aqt have an explicit target signature type specified for their environments\&. .sp "content" (or its synonym "MD5") means scons decides that a target file has changed if the MD5 checksum of its contents has changed since the last time it was used to rebuild some other target file\&. This means scons will open up MD5 sum the contents of target files after they\*(Aqre built, and may decide that it does not need to rebuild "downstream" target files if a file was rebuilt with exactly the same contents as the last time\&. .sp "timestamp" means scons decides that a target file has changed if its timestamp (modification time) has changed since the last time it was used to rebuild some other target file\&. (Note that although this is similar to the behavior of Make, by default it will also rebuild if the dependency is \fIolder\fR than the last time it was used to rebuild the target file\&.) .sp "source" means scons decides that a target file has changed as specified by the corresponding \fBSourceSignatures\fR setting ("MD5" or "timestamp")\&. This means that scons will treat all input files to a target the same way, regardless of whether they are source files or have been built from other files\&. .sp "build" means scons decides that a target file has changed if it has been rebuilt in this invocation or if its content or timestamp have changed as specified by the corresponding \fBSourceSignatures\fR setting\&. This "propagates" the status of a rebuilt file so that other "downstream" target files will always be rebuilt, even if the contents or the timestamp have not changed\&. .sp "build" signatures are fastest because "content" (or "MD5") signatures take longer to compute, but are more accurate than "timestamp" signatures, and can prevent unnecessary "downstream" rebuilds when a target file is rebuilt to the exact same contents as the previous build\&. The "source" setting provides the most consistent behavior when other target files may be rebuilt from both source and target input files\&. The default value is "source"\&. .sp Because the default setting is "source", using \fBSourceSignatures\fR is generally preferable to \fBTargetSignatures\fR, so that the up\-to\-date decision will be consistent for all files (or all files built with a specific construction environment)\&. Use of \fBTargetSignatures\fR provides specific control for how built target files affect their "downstream" dependencies\&. .RE .PP Tool(string, [toolpath, **kw]), env\&.Tool(string, [toolpath, **kw]) .RS 4 The \fBTool\fR form of the function returns a callable object that can be used to initialize a construction environment using the tools keyword of the Environment() method\&. The object may be called with a construction environment as an argument, in which case the object will add the necessary variables to the construction environment and the name of the tool will be added to the \fB$TOOLS\fR construction variable\&. .sp Additional keyword arguments are passed to the tool\*(Aqs \fBgenerate\fR() method\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools = [ Tool(\*(Aqmsvc\*(Aq) ]) env = Environment() t = Tool(\*(Aqmsvc\*(Aq) t(env) # adds \*(Aqmsvc\*(Aq to the TOOLS variable u = Tool(\*(Aqopengl\*(Aq, toolpath = [\*(Aqtools\*(Aq]) u(env) # adds \*(Aqopengl\*(Aq to the TOOLS variable .fi .if n \{\ .RE .\} .sp The \fBenv\&.Tool\fR form of the function applies the callable object for the specified tool \fIstring\fR to the environment through which the method was called\&. .sp Additional keyword arguments are passed to the tool\*(Aqs \fBgenerate\fR() method\&. .sp .if n \{\ .RS 4 .\} .nf env\&.Tool(\*(Aqgcc\*(Aq) env\&.Tool(\*(Aqopengl\*(Aq, toolpath = [\*(Aqbuild/tools\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP Value(value, [built_value]), env\&.Value(value, [built_value]) .RS 4 Returns a Node object representing the specified Python value\&. Value Nodes can be used as dependencies of targets\&. If the result of calling \fBstr\fR(\fIvalue\fR) changes between SCons runs, any targets depending on \fBValue\fR(\fIvalue\fR) will be rebuilt\&. (This is true even when using timestamps to decide if files are up\-to\-date\&.) When using timestamp source signatures, Value Nodes\*(Aq timestamps are equal to the system time when the Node is created\&. .sp The returned Value Node object has a \fBwrite\fR() method that can be used to "build" a Value Node by setting a new value\&. The optional \fIbuilt_value\fR argument can be specified when the Value Node is created to indicate the Node should already be considered "built\&." There is a corresponding \fBread\fR() method that will return the built value of the Node\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf env = Environment() def create(target, source, env): # A function that will write a \*(Aqprefix=$SOURCE\*(Aq # string into the file name specified as the # $TARGET\&. f = open(str(target[0]), \*(Aqwb\*(Aq) f\&.write(\*(Aqprefix=\*(Aq + source[0]\&.get_contents()) # Fetch the prefix= argument, if any, from the command # line, and use /usr/local as the default\&. prefix = ARGUMENTS\&.get(\*(Aqprefix\*(Aq, \*(Aq/usr/local\*(Aq) # Attach a \&.Config() builder for the above function action # to the construction environment\&. env[\*(AqBUILDERS\*(Aq][\*(AqConfig\*(Aq] = Builder(action = create) env\&.Config(target = \*(Aqpackage\-config\*(Aq, source = Value(prefix)) def build_value(target, source, env): # A function that "builds" a Python Value by updating # the the Python value with the contents of the file # specified as the source of the Builder call ($SOURCE)\&. target[0]\&.write(source[0]\&.get_contents()) output = env\&.Value(\*(Aqbefore\*(Aq) input = env\&.Value(\*(Aqafter\*(Aq) # Attach a \&.UpdateValue() builder for the above function # action to the construction environment\&. env[\*(AqBUILDERS\*(Aq][\*(AqUpdateValue\*(Aq] = Builder(action = build_value) env\&.UpdateValue(target = Value(output), source = Value(input)) .fi .if n \{\ .RE .\} .RE .PP VariantDir(variant_dir, src_dir, [duplicate]), env\&.VariantDir(variant_dir, src_dir, [duplicate]) .RS 4 Use the \fBVariantDir\fR function to create a copy of your sources in another location: if a name under \fIvariant_dir\fR is not found but exists under \fIsrc_dir\fR, the file or directory is copied to \fIvariant_dir\fR\&. Target files can be built in a different directory than the original sources by simply refering to the sources (and targets) within the variant tree\&. .sp \fBVariantDir\fR can be called multiple times with the same \fIsrc_dir\fR to set up multiple builds with different options (\fIvariants\fR)\&. The \fIsrc_dir\fR location must be in or underneath the SConstruct file\*(Aqs directory, and \fIvariant_dir\fR may not be underneath \fIsrc_dir\fR\&. .sp The default behavior is for scons to physically duplicate the source files in the variant tree\&. Thus, a build performed in the variant tree is guaranteed to be identical to a build performed in the source tree even if intermediate source files are generated during the build, or preprocessors or other scanners search for included files relative to the source file, or individual compilers or other invoked tools are hard\-coded to put derived files in the same directory as source files\&. .sp If possible on the platform, the duplication is performed by linking rather than copying; see also the \fB\-\-duplicate\fR command\-line option\&. Moreover, only the files needed for the build are duplicated; files and directories that are not used are not present in \fIvariant_dir\fR\&. .sp Duplicating the source tree may be disabled by setting the duplicate argument to 0 (zero)\&. This will cause scons to invoke Builders using the path names of source files in \fIsrc_dir\fR and the path names of derived files within \fIvariant_dir\fR\&. This is always more efficient than duplicate=1, and is usually safe for most builds (but see above for cases that may cause problems)\&. .sp Note that \fBVariantDir\fR works most naturally with a subsidiary SConscript file\&. However, you would then call the subsidiary SConscript file not in the source directory, but in the \fIvariant_dir\fR, regardless of the value of duplicate\&. This is how you tell scons which variant of a source tree to build: .sp .if n \{\ .RS 4 .\} .nf # run src/SConscript in two variant directories VariantDir(\*(Aqbuild/variant1\*(Aq, \*(Aqsrc\*(Aq) SConscript(\*(Aqbuild/variant1/SConscript\*(Aq) VariantDir(\*(Aqbuild/variant2\*(Aq, \*(Aqsrc\*(Aq) SConscript(\*(Aqbuild/variant2/SConscript\*(Aq) .fi .if n \{\ .RE .\} .sp See also the \fBSConscript\fR function, described above, for another way to specify a variant directory in conjunction with calling a subsidiary SConscript file\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf # use names in the build directory, not the source directory VariantDir(\*(Aqbuild\*(Aq, \*(Aqsrc\*(Aq, duplicate=0) Program(\*(Aqbuild/prog\*(Aq, \*(Aqbuild/source\&.c\*(Aq) .fi .if n \{\ .RE .\} .sp .if n \{\ .RS 4 .\} .nf # this builds both the source and docs in a separate subtree VariantDir(\*(Aqbuild\*(Aq, \*(Aq\&.\*(Aq, duplicate=0) SConscript(dirs=[\*(Aqbuild/src\*(Aq,\*(Aqbuild/doc\*(Aq]) .fi .if n \{\ .RE .\} .sp .if n \{\ .RS 4 .\} .nf # same as previous example, but only uses SConscript SConscript(dirs=\*(Aqsrc\*(Aq, variant_dir=\*(Aqbuild/src\*(Aq, duplicate=0) SConscript(dirs=\*(Aqdoc\*(Aq, variant_dir=\*(Aqbuild/doc\*(Aq, duplicate=0) .fi .if n \{\ .RE .\} .RE .PP WhereIs(program, [path, pathext, reject]), env\&.WhereIs(program, [path, pathext, reject]) .RS 4 Searches for the specified executable \fIprogram\fR, returning the full path name to the program if it is found, and returning None if not\&. Searches the specified \fIpath\fR, the value of the calling environment\*(Aqs PATH (env[\*(AqENV\*(Aq][\*(AqPATH\*(Aq]), or the user\*(Aqs current external PATH (os\&.environ[\*(AqPATH\*(Aq]) by default\&. On Windows systems, searches for executable programs with any of the file extensions listed in the specified \fIpathext\fR, the calling environment\*(Aqs PATHEXT (env[\*(AqENV\*(Aq][\*(AqPATHEXT\*(Aq]) or the user\*(Aqs current PATHEXT (os\&.environ[\*(AqPATHEXT\*(Aq]) by default\&. Will not select any path name or names in the specified \fIreject\fR list, if any\&. .RE .SS "SConscript Variables" .PP In addition to the global functions and methods, \fBscons\fR supports a number of Python variables that can be used in SConscript files to affect how you want the build to be performed\&. These variables may be accessed from custom Python modules that you import into an SConscript file by adding the following to the Python module: .sp .if n \{\ .RS 4 .\} .nf from SCons\&.Script import * .fi .if n \{\ .RE .\} .PP ARGLIST .RS 4 A list \fIkeyword\fR=\fIvalue\fR arguments specified on the command line\&. Each element in the list is a tuple containing the (\fIkeyword\fR,\fIvalue\fR) of the argument\&. The separate \fIkeyword\fR and \fIvalue\fR elements of the tuple can be accessed by subscripting for element \fB[0]\fR and \fB[1]\fR of the tuple, respectively\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf print("first keyword, value =", ARGLIST[0][0], ARGLIST[0][1]) print("second keyword, value =", ARGLIST[1][0], ARGLIST[1][1]) third_tuple = ARGLIST[2] print("third keyword, value =", third_tuple[0], third_tuple[1]) for key, value in ARGLIST: # process key and value .fi .if n \{\ .RE .\} .RE .PP ARGUMENTS .RS 4 A dictionary of all the \fIkeyword\fR=\fIvalue\fR arguments specified on the command line\&. The dictionary is not in order, and if a given keyword has more than one value assigned to it on the command line, the last (right\-most) value is the one in the \fBARGUMENTS\fR dictionary\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf if ARGUMENTS\&.get(\*(Aqdebug\*(Aq, 0): env = Environment(CCFLAGS = \*(Aq\-g\*(Aq) else: env = Environment() .fi .if n \{\ .RE .\} .RE .PP BUILD_TARGETS .RS 4 A list of the targets which \fBscons\fR will actually try to build, regardless of whether they were specified on the command line or via the \fBDefault\fR() function or method\&. The elements of this list may be strings \fIor\fR nodes, so you should run the list through the Python \fBstr\fR function to make sure any Node path names are converted to strings\&. .sp Because this list may be taken from the list of targets specified using the \fBDefault\fR() function or method, the contents of the list may change on each successive call to \fBDefault\fR()\&. See the \fBDEFAULT_TARGETS\fR list, below, for additional information\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf if \*(Aqfoo\*(Aq in BUILD_TARGETS: print("Don\*(Aqt forget to test the `foo\*(Aq program!") if \*(Aqspecial/program\*(Aq in BUILD_TARGETS: SConscript(\*(Aqspecial\*(Aq) .fi .if n \{\ .RE .\} .RE .PP Note that the \fBBUILD_TARGETS\fR list only contains targets expected listed on the command line or via calls to the \fBDefault\fR() function or method\&. It does \fInot\fR contain all dependent targets that will be built as a result of making the sure the explicitly\-specified targets are up to date\&. .PP COMMAND_LINE_TARGETS .RS 4 A list of the targets explicitly specified on the command line\&. If there are no targets specified on the command line, the list is empty\&. This can be used, for example, to take specific actions only when a certain target or targets is explicitly being built\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf if \*(Aqfoo\*(Aq in COMMAND_LINE_TARGETS: print("Don\*(Aqt forget to test the `foo\*(Aq program!") if \*(Aqspecial/program\*(Aq in COMMAND_LINE_TARGETS: SConscript(\*(Aqspecial\*(Aq) .fi .if n \{\ .RE .\} .RE .PP DEFAULT_TARGETS .RS 4 A list of the target \fInodes\fR that have been specified using the \fBDefault\fR() function or method\&. The elements of the list are nodes, so you need to run them through the Python \fBstr\fR function to get at the path name for each Node\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf print(str(DEFAULT_TARGETS[0])) if \*(Aqfoo\*(Aq in map(str, DEFAULT_TARGETS): print("Don\*(Aqt forget to test the `foo\*(Aq program!") .fi .if n \{\ .RE .\} .RE .PP The contents of the \fBDEFAULT_TARGETS\fR list change on on each successive call to the \fBDefault\fR() function: .sp .if n \{\ .RS 4 .\} .nf print(map(str, DEFAULT_TARGETS)) # originally [] Default(\*(Aqfoo\*(Aq) print(map(str, DEFAULT_TARGETS)) # now a node [\*(Aqfoo\*(Aq] Default(\*(Aqbar\*(Aq) print(map(str, DEFAULT_TARGETS)) # now a node [\*(Aqfoo\*(Aq, \*(Aqbar\*(Aq] Default(None) print(map(str, DEFAULT_TARGETS)) # back to [] .fi .if n \{\ .RE .\} .PP Consequently, be sure to use \fBDEFAULT_TARGETS\fR only after you\*(Aqve made all of your \fBDefault\fR() calls, or else simply be careful of the order of these statements in your SConscript files so that you don\*(Aqt look for a specific default target before it\*(Aqs actually been added to the list\&. .SS "Construction Variables" .PP A construction environment has an associated dictionary of \fIconstruction variables\fR that are used by built\-in or user\-supplied build rules\&. Construction variables must follow the same rules for Python identifiers: the initial character must be an underscore or letter, followed by any number of underscores, letters, or digits\&. .PP A number of useful construction variables are automatically defined by scons for each supported platform, and additional construction variables can be defined by the user\&. The following is a list of the automatically defined construction variables: .PP __LDMODULEVERSIONFLAGS .RS 4 This construction variable automatically introduces \fB$_LDMODULEVERSIONFLAGS\fR if \fB$LDMODULEVERSION\fR is set\&. Othervise it evaluates to an empty string\&. .RE .PP __SHLIBVERSIONFLAGS .RS 4 This construction variable automatically introduces \fB$_SHLIBVERSIONFLAGS\fR if \fB$SHLIBVERSION\fR is set\&. Othervise it evaluates to an empty string\&. .RE .PP AR .RS 4 The static library archiver\&. .RE .PP ARCHITECTURE .RS 4 Specifies the system architecture for which the package is being built\&. The default is the system architecture of the machine on which SCons is running\&. This is used to fill in the Architecture: field in an Ipkg control file, and as part of the name of a generated RPM file\&. .RE .PP ARCOM .RS 4 The command line used to generate a static library from object files\&. .RE .PP ARCOMSTR .RS 4 The string displayed when an object file is generated from an assembly\-language source file\&. If this is not set, then \fB$ARCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(ARCOMSTR = "Archiving $TARGET") .fi .if n \{\ .RE .\} .RE .PP ARFLAGS .RS 4 General options passed to the static library archiver\&. .RE .PP AS .RS 4 The assembler\&. .RE .PP ASCOM .RS 4 The command line used to generate an object file from an assembly\-language source file\&. .RE .PP ASCOMSTR .RS 4 The string displayed when an object file is generated from an assembly\-language source file\&. If this is not set, then \fB$ASCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(ASCOMSTR = "Assembling $TARGET") .fi .if n \{\ .RE .\} .RE .PP ASFLAGS .RS 4 General options passed to the assembler\&. .RE .PP ASPPCOM .RS 4 The command line used to assemble an assembly\-language source file into an object file after first running the file through the C preprocessor\&. Any options specified in the \fB$ASFLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. .RE .PP ASPPCOMSTR .RS 4 The string displayed when an object file is generated from an assembly\-language source file after first running the file through the C preprocessor\&. If this is not set, then \fB$ASPPCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(ASPPCOMSTR = "Assembling $TARGET") .fi .if n \{\ .RE .\} .RE .PP ASPPFLAGS .RS 4 General options when an assembling an assembly\-language source file into an object file after first running the file through the C preprocessor\&. The default is to use the value of \fB$ASFLAGS\fR\&. .RE .PP BIBTEX .RS 4 The bibliography generator for the TeX formatter and typesetter and the LaTeX structured formatter and typesetter\&. .RE .PP BIBTEXCOM .RS 4 The command line used to call the bibliography generator for the TeX formatter and typesetter and the LaTeX structured formatter and typesetter\&. .RE .PP BIBTEXCOMSTR .RS 4 The string displayed when generating a bibliography for TeX or LaTeX\&. If this is not set, then \fB$BIBTEXCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(BIBTEXCOMSTR = "Generating bibliography $TARGET") .fi .if n \{\ .RE .\} .RE .PP BIBTEXFLAGS .RS 4 General options passed to the bibliography generator for the TeX formatter and typesetter and the LaTeX structured formatter and typesetter\&. .RE .PP BUILDERS .RS 4 A dictionary mapping the names of the builders available through this environment to underlying Builder objects\&. Builders named Alias, CFile, CXXFile, DVI, Library, Object, PDF, PostScript, and Program are available by default\&. If you initialize this variable when an Environment is created: .sp .if n \{\ .RS 4 .\} .nf env = Environment(BUILDERS = {\*(AqNewBuilder\*(Aq : foo}) .fi .if n \{\ .RE .\} .sp the default Builders will no longer be available\&. To use a new Builder object in addition to the default Builders, add your new Builder object like this: .sp .if n \{\ .RS 4 .\} .nf env = Environment() env\&.Append(BUILDERS = {\*(AqNewBuilder\*(Aq : foo}) .fi .if n \{\ .RE .\} .sp or this: .sp .if n \{\ .RS 4 .\} .nf env = Environment() env[\*(AqBUILDERS][\*(AqNewBuilder\*(Aq] = foo .fi .if n \{\ .RE .\} .RE .PP CC .RS 4 The C compiler\&. .RE .PP CCCOM .RS 4 The command line used to compile a C source file to a (static) object file\&. Any options specified in the \fB$CFLAGS\fR, \fB$CCFLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. .RE .PP CCCOMSTR .RS 4 The string displayed when a C source file is compiled to a (static) object file\&. If this is not set, then \fB$CCCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(CCCOMSTR = "Compiling static object $TARGET") .fi .if n \{\ .RE .\} .RE .PP CCFLAGS .RS 4 General options that are passed to the C and C++ compilers\&. .RE .PP CCPCHFLAGS .RS 4 Options added to the compiler command line to support building with precompiled headers\&. The default value expands expands to the appropriate Microsoft Visual C++ command\-line options when the \fB$PCH\fR construction variable is set\&. .RE .PP CCPDBFLAGS .RS 4 Options added to the compiler command line to support storing debugging information in a Microsoft Visual C++ PDB file\&. The default value expands expands to appropriate Microsoft Visual C++ command\-line options when the \fB$PDB\fR construction variable is set\&. .sp The Visual C++ compiler option that SCons uses by default to generate PDB information is \fB/Z7\fR\&. This works correctly with parallel (\fB\-j\fR) builds because it embeds the debug information in the intermediate object files, as opposed to sharing a single PDB file between multiple object files\&. This is also the only way to get debug information embedded into a static library\&. Using the \fB/Zi\fR instead may yield improved link\-time performance, although parallel builds will no longer work\&. .sp You can generate PDB files with the \fB/Zi\fR switch by overriding the default \fB$CCPDBFLAGS\fR variable as follows: .sp .if n \{\ .RS 4 .\} .nf env[\*(AqCCPDBFLAGS\*(Aq] = [\*(Aq${(PDB and "/Zi /Fd%s" % File(PDB)) or ""}\*(Aq] .fi .if n \{\ .RE .\} .sp An alternative would be to use the \fB/Zi\fR to put the debugging information in a separate \&.pdb file for each object file by overriding the \fB$CCPDBFLAGS\fR variable as follows: .sp .if n \{\ .RS 4 .\} .nf env[\*(AqCCPDBFLAGS\*(Aq] = \*(Aq/Zi /Fd${TARGET}\&.pdb\*(Aq .fi .if n \{\ .RE .\} .RE .PP CCVERSION .RS 4 The version number of the C compiler\&. This may or may not be set, depending on the specific C compiler being used\&. .RE .PP CFILESUFFIX .RS 4 The suffix for C source files\&. This is used by the internal CFile builder when generating C files from Lex (\&.l) or YACC (\&.y) input files\&. The default suffix, of course, is \&.c (lower case)\&. On case\-insensitive systems (like Windows), SCons also treats \&.C (upper case) files as C files\&. .RE .PP CFLAGS .RS 4 General options that are passed to the C compiler (C only; not C++)\&. .RE .PP CHANGE_SPECFILE .RS 4 A hook for modifying the file that controls the packaging build (the \&.spec for RPM, the control for Ipkg, the \&.wxs for MSI)\&. If set, the function will be called after the SCons template for the file has been written\&. XXX .RE .PP CHANGED_SOURCES .RS 4 A reserved variable name that may not be set or used in a construction environment\&. (See "Variable Substitution," below\&.) .RE .PP CHANGED_TARGETS .RS 4 A reserved variable name that may not be set or used in a construction environment\&. (See "Variable Substitution," below\&.) .RE .PP CHANGELOG .RS 4 The name of a file containing the change log text to be included in the package\&. This is included as the %changelog section of the RPM \&.spec file\&. .RE .PP _concat .RS 4 A function used to produce variables like \fB$_CPPINCFLAGS\fR\&. It takes four or five arguments: a prefix to concatenate onto each element, a list of elements, a suffix to concatenate onto each element, an environment for variable interpolation, and an optional function that will be called to transform the list before concatenation\&. .sp .if n \{\ .RS 4 .\} .nf env[\*(Aq_CPPINCFLAGS\*(Aq] = \*(Aq$( ${_concat(INCPREFIX, CPPPATH, INCSUFFIX, __env__, RDirs)} $)\*(Aq, .fi .if n \{\ .RE .\} .RE .PP CONFIGUREDIR .RS 4 The name of the directory in which Configure context test files are written\&. The default is \&.sconf_temp in the top\-level directory containing the SConstruct file\&. .RE .PP CONFIGURELOG .RS 4 The name of the Configure context log file\&. The default is config\&.log in the top\-level directory containing the SConstruct file\&. .RE .PP _CPPDEFFLAGS .RS 4 An automatically\-generated construction variable containing the C preprocessor command\-line options to define values\&. The value of \fB$_CPPDEFFLAGS\fR is created by appending \fB$CPPDEFPREFIX\fR and \fB$CPPDEFSUFFIX\fR to the beginning and end of each definition in \fB$CPPDEFINES\fR\&. .RE .PP CPPDEFINES .RS 4 A platform independent specification of C preprocessor definitions\&. The definitions will be added to command lines through the automatically\-generated \fB$_CPPDEFFLAGS\fR construction variable (see above), which is constructed according to the type of value of \fB$CPPDEFINES\fR: .sp If \fB$CPPDEFINES\fR is a string, the values of the \fB$CPPDEFPREFIX\fR and \fB$CPPDEFSUFFIX\fR construction variables will be added to the beginning and end\&. .sp .if n \{\ .RS 4 .\} .nf # Will add \-Dxyz to POSIX compiler command lines, # and /Dxyz to Microsoft Visual C++ command lines\&. env = Environment(CPPDEFINES=\*(Aqxyz\*(Aq) .fi .if n \{\ .RE .\} .sp If \fB$CPPDEFINES\fR is a list, the values of the \fB$CPPDEFPREFIX\fR and \fB$CPPDEFSUFFIX\fR construction variables will be appended to the beginning and end of each element in the list\&. If any element is a list or tuple, then the first item is the name being defined and the second item is its value: .sp .if n \{\ .RS 4 .\} .nf # Will add \-DB=2 \-DA to POSIX compiler command lines, # and /DB=2 /DA to Microsoft Visual C++ command lines\&. env = Environment(CPPDEFINES=[(\*(AqB\*(Aq, 2), \*(AqA\*(Aq]) .fi .if n \{\ .RE .\} .sp If \fB$CPPDEFINES\fR is a dictionary, the values of the \fB$CPPDEFPREFIX\fR and \fB$CPPDEFSUFFIX\fR construction variables will be appended to the beginning and end of each item from the dictionary\&. The key of each dictionary item is a name being defined to the dictionary item\*(Aqs corresponding value; if the value is None, then the name is defined without an explicit value\&. Note that the resulting flags are sorted by keyword to ensure that the order of the options on the command line is consistent each time scons is run\&. .sp .if n \{\ .RS 4 .\} .nf # Will add \-DA \-DB=2 to POSIX compiler command lines, # and /DA /DB=2 to Microsoft Visual C++ command lines\&. env = Environment(CPPDEFINES={\*(AqB\*(Aq:2, \*(AqA\*(Aq:None}) .fi .if n \{\ .RE .\} .RE .PP CPPDEFPREFIX .RS 4 The prefix used to specify preprocessor definitions on the C compiler command line\&. This will be appended to the beginning of each definition in the \fB$CPPDEFINES\fR construction variable when the \fB$_CPPDEFFLAGS\fR variable is automatically generated\&. .RE .PP CPPDEFSUFFIX .RS 4 The suffix used to specify preprocessor definitions on the C compiler command line\&. This will be appended to the end of each definition in the \fB$CPPDEFINES\fR construction variable when the \fB$_CPPDEFFLAGS\fR variable is automatically generated\&. .RE .PP CPPFLAGS .RS 4 User\-specified C preprocessor options\&. These will be included in any command that uses the C preprocessor, including not just compilation of C and C++ source files via the \fB$CCCOM\fR, \fB$SHCCCOM\fR, \fB$CXXCOM\fR and \fB$SHCXXCOM\fR command lines, but also the \fB$FORTRANPPCOM\fR, \fB$SHFORTRANPPCOM\fR, \fB$F77PPCOM\fR and \fB$SHF77PPCOM\fR command lines used to compile a Fortran source file, and the \fB$ASPPCOM\fR command line used to assemble an assembly language source file, after first running each file through the C preprocessor\&. Note that this variable does \fInot\fR contain \fB\-I\fR (or similar) include search path options that scons generates automatically from \fB$CPPPATH\fR\&. See \fB$_CPPINCFLAGS\fR, below, for the variable that expands to those options\&. .RE .PP _CPPINCFLAGS .RS 4 An automatically\-generated construction variable containing the C preprocessor command\-line options for specifying directories to be searched for include files\&. The value of \fB$_CPPINCFLAGS\fR is created by appending \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR to the beginning and end of each directory in \fB$CPPPATH\fR\&. .RE .PP CPPPATH .RS 4 The list of directories that the C preprocessor will search for include directories\&. The C/C++ implicit dependency scanner will search these directories for include files\&. Don\*(Aqt explicitly put include directory arguments in CCFLAGS or CXXFLAGS because the result will be non\-portable and the directories will not be searched by the dependency scanner\&. Note: directory names in CPPPATH will be looked\-up relative to the SConscript directory when they are used in a command\&. To force scons to look\-up a directory relative to the root of the source tree use #: .sp .if n \{\ .RS 4 .\} .nf env = Environment(CPPPATH=\*(Aq#/include\*(Aq) .fi .if n \{\ .RE .\} .sp The directory look\-up can also be forced using the \fBDir\fR() function: .sp .if n \{\ .RS 4 .\} .nf include = Dir(\*(Aqinclude\*(Aq) env = Environment(CPPPATH=include) .fi .if n \{\ .RE .\} .sp The directory list will be added to command lines through the automatically\-generated \fB$_CPPINCFLAGS\fR construction variable, which is constructed by appending the values of the \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR construction variables to the beginning and end of each directory in \fB$CPPPATH\fR\&. Any command lines you define that need the CPPPATH directory list should include \fB$_CPPINCFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(CCCOM="my_compiler $_CPPINCFLAGS \-c \-o $TARGET $SOURCE") .fi .if n \{\ .RE .\} .RE .PP CPPSUFFIXES .RS 4 The list of suffixes of files that will be scanned for C preprocessor implicit dependencies (#include lines)\&. The default list is: .sp .if n \{\ .RS 4 .\} .nf ["\&.c", "\&.C", "\&.cxx", "\&.cpp", "\&.c++", "\&.cc", "\&.h", "\&.H", "\&.hxx", "\&.hpp", "\&.hh", "\&.F", "\&.fpp", "\&.FPP", "\&.m", "\&.mm", "\&.S", "\&.spp", "\&.SPP"] .fi .if n \{\ .RE .\} .RE .PP CXX .RS 4 The C++ compiler\&. .RE .PP CXXCOM .RS 4 The command line used to compile a C++ source file to an object file\&. Any options specified in the \fB$CXXFLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. .RE .PP CXXCOMSTR .RS 4 The string displayed when a C++ source file is compiled to a (static) object file\&. If this is not set, then \fB$CXXCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(CXXCOMSTR = "Compiling static object $TARGET") .fi .if n \{\ .RE .\} .RE .PP CXXFILESUFFIX .RS 4 The suffix for C++ source files\&. This is used by the internal CXXFile builder when generating C++ files from Lex (\&.ll) or YACC (\&.yy) input files\&. The default suffix is \&.cc\&. SCons also treats files with the suffixes \&.cpp, \&.cxx, \&.c++, and \&.C++ as C++ files, and files with \&.mm suffixes as Objective C++ files\&. On case\-sensitive systems (Linux, UNIX, and other POSIX\-alikes), SCons also treats \&.C (upper case) files as C++ files\&. .RE .PP CXXFLAGS .RS 4 General options that are passed to the C++ compiler\&. By default, this includes the value of \fB$CCFLAGS\fR, so that setting \fB$CCFLAGS\fR affects both C and C++ compilation\&. If you want to add C++\-specific flags, you must set or override the value of \fB$CXXFLAGS\fR\&. .RE .PP CXXVERSION .RS 4 The version number of the C++ compiler\&. This may or may not be set, depending on the specific C++ compiler being used\&. .RE .PP DC .RS 4 The D compiler to use\&. .sp The D compiler to use\&. .sp The D compiler to use\&. .RE .PP DCOM .RS 4 The command line used to compile a D file to an object file\&. Any options specified in the \fB$DFLAGS\fR construction variable is included on this command line\&. .sp The command line used to compile a D file to an object file\&. Any options specified in the \fB$DFLAGS\fR construction variable is included on this command line\&. .sp The command line used to compile a D file to an object file\&. Any options specified in the \fB$DFLAGS\fR construction variable is included on this command line\&. .RE .PP DDEBUG .RS 4 List of debug tags to enable when compiling\&. .sp List of debug tags to enable when compiling\&. .sp List of debug tags to enable when compiling\&. .RE .PP DDEBUGPREFIX .RS 4 DDEBUGPREFIX\&. .sp DDEBUGPREFIX\&. .sp DDEBUGPREFIX\&. .RE .PP DDEBUGSUFFIX .RS 4 DDEBUGSUFFIX\&. .sp DDEBUGSUFFIX\&. .sp DDEBUGSUFFIX\&. .RE .PP DESCRIPTION .RS 4 A long description of the project being packaged\&. This is included in the relevant section of the file that controls the packaging build\&. .RE .PP DESCRIPTION_lang .RS 4 A language\-specific long description for the specified \fIlang\fR\&. This is used to populate a %description \-l section of an RPM \&.spec file\&. .RE .PP DFILESUFFIX .RS 4 DFILESUFFIX\&. .sp DFILESUFFIX\&. .sp DFILESUFFIX\&. .RE .PP DFLAGPREFIX .RS 4 DFLAGPREFIX\&. .sp DFLAGPREFIX\&. .sp DFLAGPREFIX\&. .RE .PP DFLAGS .RS 4 General options that are passed to the D compiler\&. .sp General options that are passed to the D compiler\&. .sp General options that are passed to the D compiler\&. .RE .PP DFLAGSUFFIX .RS 4 DFLAGSUFFIX\&. .sp DFLAGSUFFIX\&. .sp DFLAGSUFFIX\&. .RE .PP DINCPREFIX .RS 4 DINCPREFIX\&. .sp DINCPREFIX\&. .sp DINCPREFIX\&. .RE .PP DINCSUFFIX .RS 4 DLIBFLAGSUFFIX\&. .sp DLIBFLAGSUFFIX\&. .sp DLIBFLAGSUFFIX\&. .RE .PP Dir .RS 4 A function that converts a string into a Dir instance relative to the target being built\&. .sp A function that converts a string into a Dir instance relative to the target being built\&. .RE .PP Dirs .RS 4 A function that converts a list of strings into a list of Dir instances relative to the target being built\&. .RE .PP DLIB .RS 4 Name of the lib tool to use for D codes\&. .sp Name of the lib tool to use for D codes\&. .sp Name of the lib tool to use for D codes\&. .RE .PP DLIBCOM .RS 4 The command line to use when creating libraries\&. .sp The command line to use when creating libraries\&. .sp The command line to use when creating libraries\&. .RE .PP DLIBDIRPREFIX .RS 4 DLIBLINKPREFIX\&. .sp DLIBLINKPREFIX\&. .sp DLIBLINKPREFIX\&. .RE .PP DLIBDIRSUFFIX .RS 4 DLIBLINKSUFFIX\&. .sp DLIBLINKSUFFIX\&. .sp DLIBLINKSUFFIX\&. .RE .PP DLIBFLAGPREFIX .RS 4 DLIBFLAGPREFIX\&. .sp DLIBFLAGPREFIX\&. .sp DLIBFLAGPREFIX\&. .RE .PP DLIBFLAGSUFFIX .RS 4 DLIBFLAGSUFFIX\&. .sp DLIBFLAGSUFFIX\&. .sp DLIBFLAGSUFFIX\&. .RE .PP DLIBLINKPREFIX .RS 4 DLIBLINKPREFIX\&. .sp DLIBLINKPREFIX\&. .sp DLIBLINKPREFIX\&. .RE .PP DLIBLINKSUFFIX .RS 4 DLIBLINKSUFFIX\&. .sp DLIBLINKSUFFIX\&. .sp DLIBLINKSUFFIX\&. .RE .PP DLINK .RS 4 Name of the linker to use for linking systems including D sources\&. .sp Name of the linker to use for linking systems including D sources\&. .sp Name of the linker to use for linking systems including D sources\&. .RE .PP DLINKCOM .RS 4 The command line to use when linking systems including D sources\&. .sp The command line to use when linking systems including D sources\&. .sp The command line to use when linking systems including D sources\&. .RE .PP DLINKFLAGPREFIX .RS 4 DLINKFLAGPREFIX\&. .sp DLINKFLAGPREFIX\&. .sp DLINKFLAGPREFIX\&. .RE .PP DLINKFLAGS .RS 4 List of linker flags\&. .sp List of linker flags\&. .sp List of linker flags\&. .RE .PP DLINKFLAGSUFFIX .RS 4 DLINKFLAGSUFFIX\&. .sp DLINKFLAGSUFFIX\&. .sp DLINKFLAGSUFFIX\&. .RE .PP DOCBOOK_DEFAULT_XSL_EPUB .RS 4 The default XSLT file for the \fBDocbookEpub\fR builder within the current environment, if no other XSLT gets specified via keyword\&. .RE .PP DOCBOOK_DEFAULT_XSL_HTML .RS 4 The default XSLT file for the \fBDocbookHtml\fR builder within the current environment, if no other XSLT gets specified via keyword\&. .RE .PP DOCBOOK_DEFAULT_XSL_HTMLCHUNKED .RS 4 The default XSLT file for the \fBDocbookHtmlChunked\fR builder within the current environment, if no other XSLT gets specified via keyword\&. .RE .PP DOCBOOK_DEFAULT_XSL_HTMLHELP .RS 4 The default XSLT file for the \fBDocbookHtmlhelp\fR builder within the current environment, if no other XSLT gets specified via keyword\&. .RE .PP DOCBOOK_DEFAULT_XSL_MAN .RS 4 The default XSLT file for the \fBDocbookMan\fR builder within the current environment, if no other XSLT gets specified via keyword\&. .RE .PP DOCBOOK_DEFAULT_XSL_PDF .RS 4 The default XSLT file for the \fBDocbookPdf\fR builder within the current environment, if no other XSLT gets specified via keyword\&. .RE .PP DOCBOOK_DEFAULT_XSL_SLIDESHTML .RS 4 The default XSLT file for the \fBDocbookSlidesHtml\fR builder within the current environment, if no other XSLT gets specified via keyword\&. .RE .PP DOCBOOK_DEFAULT_XSL_SLIDESPDF .RS 4 The default XSLT file for the \fBDocbookSlidesPdf\fR builder within the current environment, if no other XSLT gets specified via keyword\&. .RE .PP DOCBOOK_FOP .RS 4 The path to the PDF renderer fop or xep, if one of them is installed (fop gets checked first)\&. .RE .PP DOCBOOK_FOPCOM .RS 4 The full command\-line for the PDF renderer fop or xep\&. .RE .PP DOCBOOK_FOPCOMSTR .RS 4 The string displayed when a renderer like fop or xep is used to create PDF output from an XML file\&. .RE .PP DOCBOOK_FOPFLAGS .RS 4 Additonal command\-line flags for the PDF renderer fop or xep\&. .RE .PP DOCBOOK_XMLLINT .RS 4 The path to the external executable xmllint, if it\*(Aqs installed\&. Note, that this is only used as last fallback for resolving XIncludes, if no libxml2 or lxml Python binding can be imported in the current system\&. .RE .PP DOCBOOK_XMLLINTCOM .RS 4 The full command\-line for the external executable xmllint\&. .RE .PP DOCBOOK_XMLLINTCOMSTR .RS 4 The string displayed when xmllint is used to resolve XIncludes for a given XML file\&. .RE .PP DOCBOOK_XMLLINTFLAGS .RS 4 Additonal command\-line flags for the external executable xmllint\&. .RE .PP DOCBOOK_XSLTPROC .RS 4 The path to the external executable xsltproc (or saxon, xalan), if one of them is installed\&. Note, that this is only used as last fallback for XSL transformations, if no libxml2 or lxml Python binding can be imported in the current system\&. .RE .PP DOCBOOK_XSLTPROCCOM .RS 4 The full command\-line for the external executable xsltproc (or saxon, xalan)\&. .RE .PP DOCBOOK_XSLTPROCCOMSTR .RS 4 The string displayed when xsltproc is used to transform an XML file via a given XSLT stylesheet\&. .RE .PP DOCBOOK_XSLTPROCFLAGS .RS 4 Additonal command\-line flags for the external executable xsltproc (or saxon, xalan)\&. .RE .PP DOCBOOK_XSLTPROCPARAMS .RS 4 Additonal parameters that are not intended for the XSLT processor executable, but the XSL processing itself\&. By default, they get appended at the end of the command line for saxon and saxon\-xslt, respectively\&. .RE .PP DPATH .RS 4 List of paths to search for import modules\&. .sp List of paths to search for import modules\&. .sp List of paths to search for import modules\&. .RE .PP DRPATHPREFIX .RS 4 DRPATHPREFIX\&. .RE .PP DRPATHSUFFIX .RS 4 DRPATHSUFFIX\&. .RE .PP DShLibSonameGenerator .RS 4 DShLibSonameGenerator\&. .RE .PP DSUFFIXES .RS 4 The list of suffixes of files that will be scanned for imported D package files\&. The default list is: .sp .if n \{\ .RS 4 .\} .nf [\*(Aq\&.d\*(Aq] .fi .if n \{\ .RE .\} .RE .PP DVERPREFIX .RS 4 DVERPREFIX\&. .sp DVERPREFIX\&. .sp DVERPREFIX\&. .RE .PP DVERSIONS .RS 4 List of version tags to enable when compiling\&. .sp List of version tags to enable when compiling\&. .sp List of version tags to enable when compiling\&. .RE .PP DVERSUFFIX .RS 4 DVERSUFFIX\&. .sp DVERSUFFIX\&. .sp DVERSUFFIX\&. .RE .PP DVIPDF .RS 4 The TeX DVI file to PDF file converter\&. .RE .PP DVIPDFCOM .RS 4 The command line used to convert TeX DVI files into a PDF file\&. .RE .PP DVIPDFCOMSTR .RS 4 The string displayed when a TeX DVI file is converted into a PDF file\&. If this is not set, then \fB$DVIPDFCOM\fR (the command line) is displayed\&. .RE .PP DVIPDFFLAGS .RS 4 General options passed to the TeX DVI file to PDF file converter\&. .RE .PP DVIPS .RS 4 The TeX DVI file to PostScript converter\&. .RE .PP DVIPSFLAGS .RS 4 General options passed to the TeX DVI file to PostScript converter\&. .RE .PP ENV .RS 4 A dictionary of environment variables to use when invoking commands\&. When \fB$ENV\fR is used in a command all list values will be joined using the path separator and any other non\-string values will simply be coerced to a string\&. Note that, by default, scons does \fInot\fR propagate the environment in force when you execute scons to the commands used to build target files\&. This is so that builds will be guaranteed repeatable regardless of the environment variables set at the time scons is invoked\&. .sp If you want to propagate your environment variables to the commands executed to build target files, you must do so explicitly: .sp .if n \{\ .RS 4 .\} .nf import os env = Environment(ENV = os\&.environ) .fi .if n \{\ .RE .\} .sp Note that you can choose only to propagate certain environment variables\&. A common example is the system \fBPATH\fR environment variable, so that scons uses the same utilities as the invoking shell (or other process): .sp .if n \{\ .RS 4 .\} .nf import os env = Environment(ENV = {\*(AqPATH\*(Aq : os\&.environ[\*(AqPATH\*(Aq]}) .fi .if n \{\ .RE .\} .RE .PP ESCAPE .RS 4 A function that will be called to escape shell special characters in command lines\&. The function should take one argument: the command line string to escape; and should return the escaped command line\&. .RE .PP F03 .RS 4 The Fortran 03 compiler\&. You should normally set the \fB$FORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$F03\fR if you need to use a specific compiler or compiler version for Fortran 03 files\&. .RE .PP F03COM .RS 4 The command line used to compile a Fortran 03 source file to an object file\&. You only need to set \fB$F03COM\fR if you need to use a specific command line for Fortran 03 files\&. You should normally set the \fB$FORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP F03COMSTR .RS 4 The string displayed when a Fortran 03 source file is compiled to an object file\&. If this is not set, then \fB$F03COM\fR or \fB$FORTRANCOM\fR (the command line) is displayed\&. .RE .PP F03FILESUFFIXES .RS 4 The list of file extensions for which the F03 dialect will be used\&. By default, this is [\*(Aq\&.f03\*(Aq] .RE .PP F03FLAGS .RS 4 General user\-specified options that are passed to the Fortran 03 compiler\&. Note that this variable does \fInot\fR contain \fB\-I\fR (or similar) include search path options that scons generates automatically from \fB$F03PATH\fR\&. See \fB$_F03INCFLAGS\fR below, for the variable that expands to those options\&. You only need to set \fB$F03FLAGS\fR if you need to define specific user options for Fortran 03 files\&. You should normally set the \fB$FORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP _F03INCFLAGS .RS 4 An automatically\-generated construction variable containing the Fortran 03 compiler command\-line options for specifying directories to be searched for include files\&. The value of \fB$_F03INCFLAGS\fR is created by appending \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR to the beginning and end of each directory in \fB$F03PATH\fR\&. .RE .PP F03PATH .RS 4 The list of directories that the Fortran 03 compiler will search for include directories\&. The implicit dependency scanner will search these directories for include files\&. Don\*(Aqt explicitly put include directory arguments in \fB$F03FLAGS\fR because the result will be non\-portable and the directories will not be searched by the dependency scanner\&. Note: directory names in \fB$F03PATH\fR will be looked\-up relative to the SConscript directory when they are used in a command\&. To force scons to look\-up a directory relative to the root of the source tree use #: You only need to set \fB$F03PATH\fR if you need to define a specific include path for Fortran 03 files\&. You should normally set the \fB$FORTRANPATH\fR variable, which specifies the include path for the default Fortran compiler for all Fortran versions\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(F03PATH=\*(Aq#/include\*(Aq) .fi .if n \{\ .RE .\} .sp The directory look\-up can also be forced using the \fBDir\fR() function: .sp .if n \{\ .RS 4 .\} .nf include = Dir(\*(Aqinclude\*(Aq) env = Environment(F03PATH=include) .fi .if n \{\ .RE .\} .sp The directory list will be added to command lines through the automatically\-generated \fB$_F03INCFLAGS\fR construction variable, which is constructed by appending the values of the \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR construction variables to the beginning and end of each directory in \fB$F03PATH\fR\&. Any command lines you define that need the F03PATH directory list should include \fB$_F03INCFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(F03COM="my_compiler $_F03INCFLAGS \-c \-o $TARGET $SOURCE") .fi .if n \{\ .RE .\} .RE .PP F03PPCOM .RS 4 The command line used to compile a Fortran 03 source file to an object file after first running the file through the C preprocessor\&. Any options specified in the \fB$F03FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$F03PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 03 files\&. You should normally set the \fB$FORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP F03PPCOMSTR .RS 4 The string displayed when a Fortran 03 source file is compiled to an object file after first running the file through the C preprocessor\&. If this is not set, then \fB$F03PPCOM\fR or \fB$FORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP F03PPFILESUFFIXES .RS 4 The list of file extensions for which the compilation + preprocessor pass for F03 dialect will be used\&. By default, this is empty .RE .PP F08 .RS 4 The Fortran 08 compiler\&. You should normally set the \fB$FORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$F08\fR if you need to use a specific compiler or compiler version for Fortran 08 files\&. .RE .PP F08COM .RS 4 The command line used to compile a Fortran 08 source file to an object file\&. You only need to set \fB$F08COM\fR if you need to use a specific command line for Fortran 08 files\&. You should normally set the \fB$FORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP F08COMSTR .RS 4 The string displayed when a Fortran 08 source file is compiled to an object file\&. If this is not set, then \fB$F08COM\fR or \fB$FORTRANCOM\fR (the command line) is displayed\&. .RE .PP F08FILESUFFIXES .RS 4 The list of file extensions for which the F08 dialect will be used\&. By default, this is [\*(Aq\&.f08\*(Aq] .RE .PP F08FLAGS .RS 4 General user\-specified options that are passed to the Fortran 08 compiler\&. Note that this variable does \fInot\fR contain \fB\-I\fR (or similar) include search path options that scons generates automatically from \fB$F08PATH\fR\&. See \fB$_F08INCFLAGS\fR below, for the variable that expands to those options\&. You only need to set \fB$F08FLAGS\fR if you need to define specific user options for Fortran 08 files\&. You should normally set the \fB$FORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP _F08INCFLAGS .RS 4 An automatically\-generated construction variable containing the Fortran 08 compiler command\-line options for specifying directories to be searched for include files\&. The value of \fB$_F08INCFLAGS\fR is created by appending \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR to the beginning and end of each directory in \fB$F08PATH\fR\&. .RE .PP F08PATH .RS 4 The list of directories that the Fortran 08 compiler will search for include directories\&. The implicit dependency scanner will search these directories for include files\&. Don\*(Aqt explicitly put include directory arguments in \fB$F08FLAGS\fR because the result will be non\-portable and the directories will not be searched by the dependency scanner\&. Note: directory names in \fB$F08PATH\fR will be looked\-up relative to the SConscript directory when they are used in a command\&. To force scons to look\-up a directory relative to the root of the source tree use #: You only need to set \fB$F08PATH\fR if you need to define a specific include path for Fortran 08 files\&. You should normally set the \fB$FORTRANPATH\fR variable, which specifies the include path for the default Fortran compiler for all Fortran versions\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(F08PATH=\*(Aq#/include\*(Aq) .fi .if n \{\ .RE .\} .sp The directory look\-up can also be forced using the \fBDir\fR() function: .sp .if n \{\ .RS 4 .\} .nf include = Dir(\*(Aqinclude\*(Aq) env = Environment(F08PATH=include) .fi .if n \{\ .RE .\} .sp The directory list will be added to command lines through the automatically\-generated \fB$_F08INCFLAGS\fR construction variable, which is constructed by appending the values of the \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR construction variables to the beginning and end of each directory in \fB$F08PATH\fR\&. Any command lines you define that need the F08PATH directory list should include \fB$_F08INCFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(F08COM="my_compiler $_F08INCFLAGS \-c \-o $TARGET $SOURCE") .fi .if n \{\ .RE .\} .RE .PP F08PPCOM .RS 4 The command line used to compile a Fortran 08 source file to an object file after first running the file through the C preprocessor\&. Any options specified in the \fB$F08FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$F08PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 08 files\&. You should normally set the \fB$FORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP F08PPCOMSTR .RS 4 The string displayed when a Fortran 08 source file is compiled to an object file after first running the file through the C preprocessor\&. If this is not set, then \fB$F08PPCOM\fR or \fB$FORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP F08PPFILESUFFIXES .RS 4 The list of file extensions for which the compilation + preprocessor pass for F08 dialect will be used\&. By default, this is empty .RE .PP F77 .RS 4 The Fortran 77 compiler\&. You should normally set the \fB$FORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$F77\fR if you need to use a specific compiler or compiler version for Fortran 77 files\&. .RE .PP F77COM .RS 4 The command line used to compile a Fortran 77 source file to an object file\&. You only need to set \fB$F77COM\fR if you need to use a specific command line for Fortran 77 files\&. You should normally set the \fB$FORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP F77COMSTR .RS 4 The string displayed when a Fortran 77 source file is compiled to an object file\&. If this is not set, then \fB$F77COM\fR or \fB$FORTRANCOM\fR (the command line) is displayed\&. .RE .PP F77FILESUFFIXES .RS 4 The list of file extensions for which the F77 dialect will be used\&. By default, this is [\*(Aq\&.f77\*(Aq] .RE .PP F77FLAGS .RS 4 General user\-specified options that are passed to the Fortran 77 compiler\&. Note that this variable does \fInot\fR contain \fB\-I\fR (or similar) include search path options that scons generates automatically from \fB$F77PATH\fR\&. See \fB$_F77INCFLAGS\fR below, for the variable that expands to those options\&. You only need to set \fB$F77FLAGS\fR if you need to define specific user options for Fortran 77 files\&. You should normally set the \fB$FORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP _F77INCFLAGS .RS 4 An automatically\-generated construction variable containing the Fortran 77 compiler command\-line options for specifying directories to be searched for include files\&. The value of \fB$_F77INCFLAGS\fR is created by appending \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR to the beginning and end of each directory in \fB$F77PATH\fR\&. .RE .PP F77PATH .RS 4 The list of directories that the Fortran 77 compiler will search for include directories\&. The implicit dependency scanner will search these directories for include files\&. Don\*(Aqt explicitly put include directory arguments in \fB$F77FLAGS\fR because the result will be non\-portable and the directories will not be searched by the dependency scanner\&. Note: directory names in \fB$F77PATH\fR will be looked\-up relative to the SConscript directory when they are used in a command\&. To force scons to look\-up a directory relative to the root of the source tree use #: You only need to set \fB$F77PATH\fR if you need to define a specific include path for Fortran 77 files\&. You should normally set the \fB$FORTRANPATH\fR variable, which specifies the include path for the default Fortran compiler for all Fortran versions\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(F77PATH=\*(Aq#/include\*(Aq) .fi .if n \{\ .RE .\} .sp The directory look\-up can also be forced using the \fBDir\fR() function: .sp .if n \{\ .RS 4 .\} .nf include = Dir(\*(Aqinclude\*(Aq) env = Environment(F77PATH=include) .fi .if n \{\ .RE .\} .sp The directory list will be added to command lines through the automatically\-generated \fB$_F77INCFLAGS\fR construction variable, which is constructed by appending the values of the \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR construction variables to the beginning and end of each directory in \fB$F77PATH\fR\&. Any command lines you define that need the F77PATH directory list should include \fB$_F77INCFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(F77COM="my_compiler $_F77INCFLAGS \-c \-o $TARGET $SOURCE") .fi .if n \{\ .RE .\} .RE .PP F77PPCOM .RS 4 The command line used to compile a Fortran 77 source file to an object file after first running the file through the C preprocessor\&. Any options specified in the \fB$F77FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$F77PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 77 files\&. You should normally set the \fB$FORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP F77PPCOMSTR .RS 4 The string displayed when a Fortran 77 source file is compiled to an object file after first running the file through the C preprocessor\&. If this is not set, then \fB$F77PPCOM\fR or \fB$FORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP F77PPFILESUFFIXES .RS 4 The list of file extensions for which the compilation + preprocessor pass for F77 dialect will be used\&. By default, this is empty .RE .PP F90 .RS 4 The Fortran 90 compiler\&. You should normally set the \fB$FORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$F90\fR if you need to use a specific compiler or compiler version for Fortran 90 files\&. .RE .PP F90COM .RS 4 The command line used to compile a Fortran 90 source file to an object file\&. You only need to set \fB$F90COM\fR if you need to use a specific command line for Fortran 90 files\&. You should normally set the \fB$FORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP F90COMSTR .RS 4 The string displayed when a Fortran 90 source file is compiled to an object file\&. If this is not set, then \fB$F90COM\fR or \fB$FORTRANCOM\fR (the command line) is displayed\&. .RE .PP F90FILESUFFIXES .RS 4 The list of file extensions for which the F90 dialect will be used\&. By default, this is [\*(Aq\&.f90\*(Aq] .RE .PP F90FLAGS .RS 4 General user\-specified options that are passed to the Fortran 90 compiler\&. Note that this variable does \fInot\fR contain \fB\-I\fR (or similar) include search path options that scons generates automatically from \fB$F90PATH\fR\&. See \fB$_F90INCFLAGS\fR below, for the variable that expands to those options\&. You only need to set \fB$F90FLAGS\fR if you need to define specific user options for Fortran 90 files\&. You should normally set the \fB$FORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP _F90INCFLAGS .RS 4 An automatically\-generated construction variable containing the Fortran 90 compiler command\-line options for specifying directories to be searched for include files\&. The value of \fB$_F90INCFLAGS\fR is created by appending \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR to the beginning and end of each directory in \fB$F90PATH\fR\&. .RE .PP F90PATH .RS 4 The list of directories that the Fortran 90 compiler will search for include directories\&. The implicit dependency scanner will search these directories for include files\&. Don\*(Aqt explicitly put include directory arguments in \fB$F90FLAGS\fR because the result will be non\-portable and the directories will not be searched by the dependency scanner\&. Note: directory names in \fB$F90PATH\fR will be looked\-up relative to the SConscript directory when they are used in a command\&. To force scons to look\-up a directory relative to the root of the source tree use #: You only need to set \fB$F90PATH\fR if you need to define a specific include path for Fortran 90 files\&. You should normally set the \fB$FORTRANPATH\fR variable, which specifies the include path for the default Fortran compiler for all Fortran versions\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(F90PATH=\*(Aq#/include\*(Aq) .fi .if n \{\ .RE .\} .sp The directory look\-up can also be forced using the \fBDir\fR() function: .sp .if n \{\ .RS 4 .\} .nf include = Dir(\*(Aqinclude\*(Aq) env = Environment(F90PATH=include) .fi .if n \{\ .RE .\} .sp The directory list will be added to command lines through the automatically\-generated \fB$_F90INCFLAGS\fR construction variable, which is constructed by appending the values of the \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR construction variables to the beginning and end of each directory in \fB$F90PATH\fR\&. Any command lines you define that need the F90PATH directory list should include \fB$_F90INCFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(F90COM="my_compiler $_F90INCFLAGS \-c \-o $TARGET $SOURCE") .fi .if n \{\ .RE .\} .RE .PP F90PPCOM .RS 4 The command line used to compile a Fortran 90 source file to an object file after first running the file through the C preprocessor\&. Any options specified in the \fB$F90FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$F90PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 90 files\&. You should normally set the \fB$FORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP F90PPCOMSTR .RS 4 The string displayed when a Fortran 90 source file is compiled after first running the file through the C preprocessor\&. If this is not set, then \fB$F90PPCOM\fR or \fB$FORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP F90PPFILESUFFIXES .RS 4 The list of file extensions for which the compilation + preprocessor pass for F90 dialect will be used\&. By default, this is empty .RE .PP F95 .RS 4 The Fortran 95 compiler\&. You should normally set the \fB$FORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$F95\fR if you need to use a specific compiler or compiler version for Fortran 95 files\&. .RE .PP F95COM .RS 4 The command line used to compile a Fortran 95 source file to an object file\&. You only need to set \fB$F95COM\fR if you need to use a specific command line for Fortran 95 files\&. You should normally set the \fB$FORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP F95COMSTR .RS 4 The string displayed when a Fortran 95 source file is compiled to an object file\&. If this is not set, then \fB$F95COM\fR or \fB$FORTRANCOM\fR (the command line) is displayed\&. .RE .PP F95FILESUFFIXES .RS 4 The list of file extensions for which the F95 dialect will be used\&. By default, this is [\*(Aq\&.f95\*(Aq] .RE .PP F95FLAGS .RS 4 General user\-specified options that are passed to the Fortran 95 compiler\&. Note that this variable does \fInot\fR contain \fB\-I\fR (or similar) include search path options that scons generates automatically from \fB$F95PATH\fR\&. See \fB$_F95INCFLAGS\fR below, for the variable that expands to those options\&. You only need to set \fB$F95FLAGS\fR if you need to define specific user options for Fortran 95 files\&. You should normally set the \fB$FORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP _F95INCFLAGS .RS 4 An automatically\-generated construction variable containing the Fortran 95 compiler command\-line options for specifying directories to be searched for include files\&. The value of \fB$_F95INCFLAGS\fR is created by appending \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR to the beginning and end of each directory in \fB$F95PATH\fR\&. .RE .PP F95PATH .RS 4 The list of directories that the Fortran 95 compiler will search for include directories\&. The implicit dependency scanner will search these directories for include files\&. Don\*(Aqt explicitly put include directory arguments in \fB$F95FLAGS\fR because the result will be non\-portable and the directories will not be searched by the dependency scanner\&. Note: directory names in \fB$F95PATH\fR will be looked\-up relative to the SConscript directory when they are used in a command\&. To force scons to look\-up a directory relative to the root of the source tree use #: You only need to set \fB$F95PATH\fR if you need to define a specific include path for Fortran 95 files\&. You should normally set the \fB$FORTRANPATH\fR variable, which specifies the include path for the default Fortran compiler for all Fortran versions\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(F95PATH=\*(Aq#/include\*(Aq) .fi .if n \{\ .RE .\} .sp The directory look\-up can also be forced using the \fBDir\fR() function: .sp .if n \{\ .RS 4 .\} .nf include = Dir(\*(Aqinclude\*(Aq) env = Environment(F95PATH=include) .fi .if n \{\ .RE .\} .sp The directory list will be added to command lines through the automatically\-generated \fB$_F95INCFLAGS\fR construction variable, which is constructed by appending the values of the \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR construction variables to the beginning and end of each directory in \fB$F95PATH\fR\&. Any command lines you define that need the F95PATH directory list should include \fB$_F95INCFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(F95COM="my_compiler $_F95INCFLAGS \-c \-o $TARGET $SOURCE") .fi .if n \{\ .RE .\} .RE .PP F95PPCOM .RS 4 The command line used to compile a Fortran 95 source file to an object file after first running the file through the C preprocessor\&. Any options specified in the \fB$F95FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$F95PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 95 files\&. You should normally set the \fB$FORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP F95PPCOMSTR .RS 4 The string displayed when a Fortran 95 source file is compiled to an object file after first running the file through the C preprocessor\&. If this is not set, then \fB$F95PPCOM\fR or \fB$FORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP F95PPFILESUFFIXES .RS 4 The list of file extensions for which the compilation + preprocessor pass for F95 dialect will be used\&. By default, this is empty .RE .PP File .RS 4 A function that converts a string into a File instance relative to the target being built\&. .sp A function that converts a string into a File instance relative to the target being built\&. .RE .PP FORTRAN .RS 4 The default Fortran compiler for all versions of Fortran\&. .RE .PP FORTRANCOM .RS 4 The command line used to compile a Fortran source file to an object file\&. By default, any options specified in the \fB$FORTRANFLAGS\fR, \fB$CPPFLAGS\fR, \fB$_CPPDEFFLAGS\fR, \fB$_FORTRANMODFLAG\fR, and \fB$_FORTRANINCFLAGS\fR construction variables are included on this command line\&. .RE .PP FORTRANCOMSTR .RS 4 The string displayed when a Fortran source file is compiled to an object file\&. If this is not set, then \fB$FORTRANCOM\fR (the command line) is displayed\&. .RE .PP FORTRANFILESUFFIXES .RS 4 The list of file extensions for which the FORTRAN dialect will be used\&. By default, this is [\*(Aq\&.f\*(Aq, \*(Aq\&.for\*(Aq, \*(Aq\&.ftn\*(Aq] .RE .PP FORTRANFLAGS .RS 4 General user\-specified options that are passed to the Fortran compiler\&. Note that this variable does \fInot\fR contain \fB\-I\fR (or similar) include or module search path options that scons generates automatically from \fB$FORTRANPATH\fR\&. See \fB$_FORTRANINCFLAGS\fR and \fB$_FORTRANMODFLAG\fR, below, for the variables that expand those options\&. .RE .PP _FORTRANINCFLAGS .RS 4 An automatically\-generated construction variable containing the Fortran compiler command\-line options for specifying directories to be searched for include files and module files\&. The value of \fB$_FORTRANINCFLAGS\fR is created by prepending/appending \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR to the beginning and end of each directory in \fB$FORTRANPATH\fR\&. .RE .PP FORTRANMODDIR .RS 4 Directory location where the Fortran compiler should place any module files it generates\&. This variable is empty, by default\&. Some Fortran compilers will internally append this directory in the search path for module files, as well\&. .RE .PP FORTRANMODDIRPREFIX .RS 4 The prefix used to specify a module directory on the Fortran compiler command line\&. This will be appended to the beginning of the directory in the \fB$FORTRANMODDIR\fR construction variables when the \fB$_FORTRANMODFLAG\fR variables is automatically generated\&. .RE .PP FORTRANMODDIRSUFFIX .RS 4 The suffix used to specify a module directory on the Fortran compiler command line\&. This will be appended to the beginning of the directory in the \fB$FORTRANMODDIR\fR construction variables when the \fB$_FORTRANMODFLAG\fR variables is automatically generated\&. .RE .PP _FORTRANMODFLAG .RS 4 An automatically\-generated construction variable containing the Fortran compiler command\-line option for specifying the directory location where the Fortran compiler should place any module files that happen to get generated during compilation\&. The value of \fB$_FORTRANMODFLAG\fR is created by prepending/appending \fB$FORTRANMODDIRPREFIX\fR and \fB$FORTRANMODDIRSUFFIX\fR to the beginning and end of the directory in \fB$FORTRANMODDIR\fR\&. .RE .PP FORTRANMODPREFIX .RS 4 The module file prefix used by the Fortran compiler\&. SCons assumes that the Fortran compiler follows the quasi\-standard naming convention for module files of module_name\&.mod\&. As a result, this variable is left empty, by default\&. For situations in which the compiler does not necessarily follow the normal convention, the user may use this variable\&. Its value will be appended to every module file name as scons attempts to resolve dependencies\&. .RE .PP FORTRANMODSUFFIX .RS 4 The module file suffix used by the Fortran compiler\&. SCons assumes that the Fortran compiler follows the quasi\-standard naming convention for module files of module_name\&.mod\&. As a result, this variable is set to "\&.mod", by default\&. For situations in which the compiler does not necessarily follow the normal convention, the user may use this variable\&. Its value will be appended to every module file name as scons attempts to resolve dependencies\&. .RE .PP FORTRANPATH .RS 4 The list of directories that the Fortran compiler will search for include files and (for some compilers) module files\&. The Fortran implicit dependency scanner will search these directories for include files (but not module files since they are autogenerated and, as such, may not actually exist at the time the scan takes place)\&. Don\*(Aqt explicitly put include directory arguments in FORTRANFLAGS because the result will be non\-portable and the directories will not be searched by the dependency scanner\&. Note: directory names in FORTRANPATH will be looked\-up relative to the SConscript directory when they are used in a command\&. To force scons to look\-up a directory relative to the root of the source tree use #: .sp .if n \{\ .RS 4 .\} .nf env = Environment(FORTRANPATH=\*(Aq#/include\*(Aq) .fi .if n \{\ .RE .\} .sp The directory look\-up can also be forced using the \fBDir\fR() function: .sp .if n \{\ .RS 4 .\} .nf include = Dir(\*(Aqinclude\*(Aq) env = Environment(FORTRANPATH=include) .fi .if n \{\ .RE .\} .sp The directory list will be added to command lines through the automatically\-generated \fB$_FORTRANINCFLAGS\fR construction variable, which is constructed by appending the values of the \fB$INCPREFIX\fR and \fB$INCSUFFIX\fR construction variables to the beginning and end of each directory in \fB$FORTRANPATH\fR\&. Any command lines you define that need the FORTRANPATH directory list should include \fB$_FORTRANINCFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(FORTRANCOM="my_compiler $_FORTRANINCFLAGS \-c \-o $TARGET $SOURCE") .fi .if n \{\ .RE .\} .RE .PP FORTRANPPCOM .RS 4 The command line used to compile a Fortran source file to an object file after first running the file through the C preprocessor\&. By default, any options specified in the \fB$FORTRANFLAGS\fR, \fB$CPPFLAGS\fR, \fB$_CPPDEFFLAGS\fR, \fB$_FORTRANMODFLAG\fR, and \fB$_FORTRANINCFLAGS\fR construction variables are included on this command line\&. .RE .PP FORTRANPPCOMSTR .RS 4 The string displayed when a Fortran source file is compiled to an object file after first running the file through the C preprocessor\&. If this is not set, then \fB$FORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP FORTRANPPFILESUFFIXES .RS 4 The list of file extensions for which the compilation + preprocessor pass for FORTRAN dialect will be used\&. By default, this is [\*(Aq\&.fpp\*(Aq, \*(Aq\&.FPP\*(Aq] .RE .PP FORTRANSUFFIXES .RS 4 The list of suffixes of files that will be scanned for Fortran implicit dependencies (INCLUDE lines and USE statements)\&. The default list is: .sp .if n \{\ .RS 4 .\} .nf ["\&.f", "\&.F", "\&.for", "\&.FOR", "\&.ftn", "\&.FTN", "\&.fpp", "\&.FPP", "\&.f77", "\&.F77", "\&.f90", "\&.F90", "\&.f95", "\&.F95"] .fi .if n \{\ .RE .\} .RE .PP FRAMEWORKPATH .RS 4 On Mac OS X with gcc, a list containing the paths to search for frameworks\&. Used by the compiler to find framework\-style includes like #include \&. Used by the linker to find user\-specified frameworks when linking (see \fB$FRAMEWORKS\fR)\&. For example: .sp .if n \{\ .RS 4 .\} .nf env\&.AppendUnique(FRAMEWORKPATH=\*(Aq#myframeworkdir\*(Aq) .fi .if n \{\ .RE .\} .sp will add .sp .if n \{\ .RS 4 .\} .nf \&.\&.\&. \-Fmyframeworkdir .fi .if n \{\ .RE .\} .sp to the compiler and linker command lines\&. .RE .PP _FRAMEWORKPATH .RS 4 On Mac OS X with gcc, an automatically\-generated construction variable containing the linker command\-line options corresponding to \fB$FRAMEWORKPATH\fR\&. .RE .PP FRAMEWORKPATHPREFIX .RS 4 On Mac OS X with gcc, the prefix to be used for the FRAMEWORKPATH entries\&. (see \fB$FRAMEWORKPATH\fR)\&. The default value is \fB\-F\fR\&. .RE .PP FRAMEWORKPREFIX .RS 4 On Mac OS X with gcc, the prefix to be used for linking in frameworks (see \fB$FRAMEWORKS\fR)\&. The default value is \fB\-framework\fR\&. .RE .PP _FRAMEWORKS .RS 4 On Mac OS X with gcc, an automatically\-generated construction variable containing the linker command\-line options for linking with FRAMEWORKS\&. .RE .PP FRAMEWORKS .RS 4 On Mac OS X with gcc, a list of the framework names to be linked into a program or shared library or bundle\&. The default value is the empty list\&. For example: .sp .if n \{\ .RS 4 .\} .nf env\&.AppendUnique(FRAMEWORKS=Split(\*(AqSystem Cocoa SystemConfiguration\*(Aq)) .fi .if n \{\ .RE .\} .RE .PP FRAMEWORKSFLAGS .RS 4 On Mac OS X with gcc, general user\-supplied frameworks options to be added at the end of a command line building a loadable module\&. (This has been largely superseded by the \fB$FRAMEWORKPATH\fR, \fB$FRAMEWORKPATHPREFIX\fR, \fB$FRAMEWORKPREFIX\fR and \fB$FRAMEWORKS\fR variables described above\&.) .RE .PP GS .RS 4 The Ghostscript program used, e\&.g\&. to convert PostScript to PDF files\&. .RE .PP GSCOM .RS 4 The full Ghostscript command line used for the conversion process\&. Its default value is \(lq$GS $GSFLAGS \-sOutputFile=$TARGET $SOURCES\(rq\&. .RE .PP GSCOMSTR .RS 4 The string displayed when Ghostscript is called for the conversion process\&. If this is not set (the default), then \fB$GSCOM\fR (the command line) is displayed\&. .RE .PP GSFLAGS .RS 4 General options passed to the Ghostscript program, when converting PostScript to PDF files for example\&. Its default value is \(lq\-dNOPAUSE \-dBATCH \-sDEVICE=pdfwrite\(rq .RE .PP HOST_ARCH .RS 4 The name of the host hardware architecture used to create the Environment\&. If a platform is specified when creating the Environment, then that Platform\*(Aqs logic will handle setting this value\&. This value is immutable, and should not be changed by the user after the Environment is initialized\&. Currently only set for Win32\&. .sp Sets the host architecture for Visual Studio compiler\&. If not set, default to the detected host architecture: note that this may depend on the python you are using\&. This variable must be passed as an argument to the Environment() constructor; setting it later has no effect\&. .sp Valid values are the same as for \fB$TARGET_ARCH\fR\&. .sp This is currently only used on Windows, but in the future it will be used on other OSes as well\&. .RE .PP HOST_OS .RS 4 The name of the host operating system used to create the Environment\&. If a platform is specified when creating the Environment, then that Platform\*(Aqs logic will handle setting this value\&. This value is immutable, and should not be changed by the user after the Environment is initialized\&. Currently only set for Win32\&. .RE .PP IDLSUFFIXES .RS 4 The list of suffixes of files that will be scanned for IDL implicit dependencies (#include or import lines)\&. The default list is: .sp .if n \{\ .RS 4 .\} .nf ["\&.idl", "\&.IDL"] .fi .if n \{\ .RE .\} .RE .PP IMPLIBNOVERSIONSYMLINKS .RS 4 Used to override \fB$SHLIBNOVERSIONSYMLINKS\fR/\fB$LDMODULENOVERSIONSYMLINKS\fR when creating versioned import library for a shared library/loadable module\&. If not defined, then \fB$SHLIBNOVERSIONSYMLINKS\fR/\fB$LDMODULENOVERSIONSYMLINKS\fR is used to determine whether to disable symlink generation or not\&. .RE .PP IMPLIBPREFIX .RS 4 The prefix used for import library names\&. For example, cygwin uses import libraries (libfoo\&.dll\&.a) in pair with dynamic libraries (cygfoo\&.dll)\&. The cyglink linker sets \fB$IMPLIBPREFIX\fR to \*(Aqlib\*(Aq and \fB$SHLIBPREFIX\fR to \*(Aqcyg\*(Aq\&. .RE .PP IMPLIBSUFFIX .RS 4 The suffix used for import library names\&. For example, cygwin uses import libraries (libfoo\&.dll\&.a) in pair with dynamic libraries (cygfoo\&.dll)\&. The cyglink linker sets \fB$IMPLIBSUFFIX\fR to \*(Aq\&.dll\&.a\*(Aq and \fB$SHLIBSUFFIX\fR to \*(Aq\&.dll\*(Aq\&. .RE .PP IMPLIBVERSION .RS 4 Used to override \fB$SHLIBVERSION\fR/\fB$LDMODULEVERSION\fR when generating versioned import library for a shared library/loadable module\&. If undefined, the \fB$SHLIBVERSION\fR/\fB$LDMODULEVERSION\fR is used to determine the version of versioned import library\&. .RE .PP IMPLICIT_COMMAND_DEPENDENCIES .RS 4 Controls whether or not SCons will add implicit dependencies for the commands executed to build targets\&. .sp By default, SCons will add to each target an implicit dependency on the command represented by the first argument on any command line it executes\&. The specific file for the dependency is found by searching the \fIPATH\fR variable in the \fIENV\fR environment used to execute the command\&. .sp If the construction variable \fB$IMPLICIT_COMMAND_DEPENDENCIES\fR is set to a false value (None, False, 0, etc\&.), then the implicit dependency will not be added to the targets built with that construction environment\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(IMPLICIT_COMMAND_DEPENDENCIES = 0) .fi .if n \{\ .RE .\} .RE .PP INCPREFIX .RS 4 The prefix used to specify an include directory on the C compiler command line\&. This will be appended to the beginning of each directory in the \fB$CPPPATH\fR and \fB$FORTRANPATH\fR construction variables when the \fB$_CPPINCFLAGS\fR and \fB$_FORTRANINCFLAGS\fR variables are automatically generated\&. .RE .PP INCSUFFIX .RS 4 The suffix used to specify an include directory on the C compiler command line\&. This will be appended to the end of each directory in the \fB$CPPPATH\fR and \fB$FORTRANPATH\fR construction variables when the \fB$_CPPINCFLAGS\fR and \fB$_FORTRANINCFLAGS\fR variables are automatically generated\&. .RE .PP INSTALL .RS 4 A function to be called to install a file into a destination file name\&. The default function copies the file into the destination (and sets the destination file\*(Aqs mode and permission bits to match the source file\*(Aqs)\&. The function takes the following arguments: .sp .if n \{\ .RS 4 .\} .nf def install(dest, source, env): .fi .if n \{\ .RE .\} .sp \fIdest\fR is the path name of the destination file\&. \fIsource\fR is the path name of the source file\&. \fIenv\fR is the construction environment (a dictionary of construction values) in force for this file installation\&. .RE .PP INSTALLSTR .RS 4 The string displayed when a file is installed into a destination file name\&. The default is: .sp .if n \{\ .RS 4 .\} .nf Install file: "$SOURCE" as "$TARGET" .fi .if n \{\ .RE .\} .RE .PP INTEL_C_COMPILER_VERSION .RS 4 Set by the "intelc" Tool to the major version number of the Intel C compiler selected for use\&. .RE .PP JAR .RS 4 The Java archive tool\&. .sp The Java archive tool\&. .RE .PP JARCHDIR .RS 4 The directory to which the Java archive tool should change (using the \fB\-C\fR option)\&. .sp The directory to which the Java archive tool should change (using the \fB\-C\fR option)\&. .RE .PP JARCOM .RS 4 The command line used to call the Java archive tool\&. .sp The command line used to call the Java archive tool\&. .RE .PP JARCOMSTR .RS 4 The string displayed when the Java archive tool is called If this is not set, then \fB$JARCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(JARCOMSTR = "JARchiving $SOURCES into $TARGET") .fi .if n \{\ .RE .\} .sp The string displayed when the Java archive tool is called If this is not set, then \fB$JARCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(JARCOMSTR = "JARchiving $SOURCES into $TARGET") .fi .if n \{\ .RE .\} .RE .PP JARFLAGS .RS 4 General options passed to the Java archive tool\&. By default this is set to \fBcf\fR to create the necessary \fBjar\fR file\&. .sp General options passed to the Java archive tool\&. By default this is set to \fBcf\fR to create the necessary \fBjar\fR file\&. .RE .PP JARSUFFIX .RS 4 The suffix for Java archives: \&.jar by default\&. .sp The suffix for Java archives: \&.jar by default\&. .RE .PP JAVABOOTCLASSPATH .RS 4 Specifies the list of directories that will be added to the javac command line via the \fB\-bootclasspath\fR option\&. The individual directory names will be separated by the operating system\*(Aqs path separate character (: on UNIX/Linux/POSIX, ; on Windows)\&. .RE .PP JAVAC .RS 4 The Java compiler\&. .RE .PP JAVACCOM .RS 4 The command line used to compile a directory tree containing Java source files to corresponding Java class files\&. Any options specified in the \fB$JAVACFLAGS\fR construction variable are included on this command line\&. .RE .PP JAVACCOMSTR .RS 4 The string displayed when compiling a directory tree of Java source files to corresponding Java class files\&. If this is not set, then \fB$JAVACCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(JAVACCOMSTR = "Compiling class files $TARGETS from $SOURCES") .fi .if n \{\ .RE .\} .RE .PP JAVACFLAGS .RS 4 General options that are passed to the Java compiler\&. .RE .PP JAVACLASSDIR .RS 4 The directory in which Java class files may be found\&. This is stripped from the beginning of any Java \&.class file names supplied to the JavaH builder\&. .RE .PP JAVACLASSPATH .RS 4 Specifies the list of directories that will be searched for Java \&.class file\&. The directories in this list will be added to the javac and javah command lines via the \fB\-classpath\fR option\&. The individual directory names will be separated by the operating system\*(Aqs path separate character (: on UNIX/Linux/POSIX, ; on Windows)\&. .sp Note that this currently just adds the specified directory via the \fB\-classpath\fR option\&. SCons does not currently search the \fB$JAVACLASSPATH\fR directories for dependency \&.class files\&. .RE .PP JAVACLASSSUFFIX .RS 4 The suffix for Java class files; \&.class by default\&. .RE .PP JAVAH .RS 4 The Java generator for C header and stub files\&. .RE .PP JAVAHCOM .RS 4 The command line used to generate C header and stub files from Java classes\&. Any options specified in the \fB$JAVAHFLAGS\fR construction variable are included on this command line\&. .RE .PP JAVAHCOMSTR .RS 4 The string displayed when C header and stub files are generated from Java classes\&. If this is not set, then \fB$JAVAHCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(JAVAHCOMSTR = "Generating header/stub file(s) $TARGETS from $SOURCES") .fi .if n \{\ .RE .\} .RE .PP JAVAHFLAGS .RS 4 General options passed to the C header and stub file generator for Java classes\&. .RE .PP JAVASOURCEPATH .RS 4 Specifies the list of directories that will be searched for input \&.java file\&. The directories in this list will be added to the javac command line via the \fB\-sourcepath\fR option\&. The individual directory names will be separated by the operating system\*(Aqs path separate character (: on UNIX/Linux/POSIX, ; on Windows)\&. .sp Note that this currently just adds the specified directory via the \fB\-sourcepath\fR option\&. SCons does not currently search the \fB$JAVASOURCEPATH\fR directories for dependency \&.java files\&. .RE .PP JAVASUFFIX .RS 4 The suffix for Java files; \&.java by default\&. .RE .PP JAVAVERSION .RS 4 Specifies the Java version being used by the \fBJava\fR builder\&. This is \fInot\fR currently used to select one version of the Java compiler vs\&. another\&. Instead, you should set this to specify the version of Java supported by your javac compiler\&. The default is 1\&.4\&. .sp This is sometimes necessary because Java 1\&.5 changed the file names that are created for nested anonymous inner classes, which can cause a mismatch with the files that SCons expects will be generated by the javac compiler\&. Setting \fB$JAVAVERSION\fR to 1\&.5 (or 1\&.6, as appropriate) can make SCons realize that a Java 1\&.5 or 1\&.6 build is actually up to date\&. .RE .PP LATEX .RS 4 The LaTeX structured formatter and typesetter\&. .RE .PP LATEXCOM .RS 4 The command line used to call the LaTeX structured formatter and typesetter\&. .RE .PP LATEXCOMSTR .RS 4 The string displayed when calling the LaTeX structured formatter and typesetter\&. If this is not set, then \fB$LATEXCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(LATEXCOMSTR = "Building $TARGET from LaTeX input $SOURCES") .fi .if n \{\ .RE .\} .RE .PP LATEXFLAGS .RS 4 General options passed to the LaTeX structured formatter and typesetter\&. .RE .PP LATEXRETRIES .RS 4 The maximum number of times that LaTeX will be re\-run if the \&.log generated by the \fB$LATEXCOM\fR command indicates that there are undefined references\&. The default is to try to resolve undefined references by re\-running LaTeX up to three times\&. .RE .PP LATEXSUFFIXES .RS 4 The list of suffixes of files that will be scanned for LaTeX implicit dependencies (\einclude or \eimport files)\&. The default list is: .sp .if n \{\ .RS 4 .\} .nf ["\&.tex", "\&.ltx", "\&.latex"] .fi .if n \{\ .RE .\} .RE .PP LDMODULE .RS 4 The linker for building loadable modules\&. By default, this is the same as \fB$SHLINK\fR\&. .RE .PP LDMODULECOM .RS 4 The command line for building loadable modules\&. On Mac OS X, this uses the \fB$LDMODULE\fR, \fB$LDMODULEFLAGS\fR and \fB$FRAMEWORKSFLAGS\fR variables\&. On other systems, this is the same as \fB$SHLINK\fR\&. .RE .PP LDMODULECOMSTR .RS 4 The string displayed when building loadable modules\&. If this is not set, then \fB$LDMODULECOM\fR (the command line) is displayed\&. .RE .PP LDMODULEFLAGS .RS 4 General user options passed to the linker for building loadable modules\&. .RE .PP LDMODULENOVERSIONSYMLINKS .RS 4 Instructs the \fBLoadableModule\fR builder to not automatically create symlinks for versioned modules\&. Defaults to $SHLIBNOVERSIONSYMLINKS .RE .PP LDMODULEPREFIX .RS 4 The prefix used for loadable module file names\&. On Mac OS X, this is null; on other systems, this is the same as \fB$SHLIBPREFIX\fR\&. .RE .PP _LDMODULESONAME .RS 4 A macro that automatically generates loadable module\*(Aqs SONAME based on $TARGET, $LDMODULEVERSION and $LDMODULESUFFIX\&. Used by \fBLoadableModule\fR builder when the linker tool supports SONAME (e\&.g\&. gnulink)\&. .RE .PP LDMODULESUFFIX .RS 4 The suffix used for loadable module file names\&. On Mac OS X, this is null; on other systems, this is the same as $SHLIBSUFFIX\&. .RE .PP LDMODULEVERSION .RS 4 When this construction variable is defined, a versioned loadable module is created by \fBLoadableModule\fR builder\&. This activates the \fB$_LDMODULEVERSIONFLAGS\fR and thus modifies the \fB$LDMODULECOM\fR as required, adds the version number to the library name, and creates the symlinks that are needed\&. \fB$LDMODULEVERSION\fR versions should exist in the same format as \fB$SHLIBVERSION\fR\&. .RE .PP LDMODULEVERSIONFLAGS .RS 4 Extra flags added to \fB$LDMODULECOM\fR when building versioned \fBLoadableModule\fR\&. These flags are only used when \fB$LDMODULEVERSION\fR is set\&. .RE .PP _LDMODULEVERSIONFLAGS .RS 4 This macro automatically introduces extra flags to \fB$LDMODULECOM\fR when building versioned \fBLoadableModule\fR (that is when \fB$LDMODULEVERSION\fR is set)\&. _LDMODULEVERSIONFLAGS usually adds \fB$SHLIBVERSIONFLAGS\fR and some extra dynamically generated options (such as \-Wl,\-soname=$_LDMODULESONAME)\&. It is unused by plain (unversioned) loadable modules\&. .RE .PP LEX .RS 4 The lexical analyzer generator\&. .RE .PP LEXCOM .RS 4 The command line used to call the lexical analyzer generator to generate a source file\&. .RE .PP LEXCOMSTR .RS 4 The string displayed when generating a source file using the lexical analyzer generator\&. If this is not set, then \fB$LEXCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(LEXCOMSTR = "Lex\*(Aqing $TARGET from $SOURCES") .fi .if n \{\ .RE .\} .RE .PP LEXFLAGS .RS 4 General options passed to the lexical analyzer generator\&. .RE .PP _LIBDIRFLAGS .RS 4 An automatically\-generated construction variable containing the linker command\-line options for specifying directories to be searched for library\&. The value of \fB$_LIBDIRFLAGS\fR is created by appending \fB$LIBDIRPREFIX\fR and \fB$LIBDIRSUFFIX\fR to the beginning and end of each directory in \fB$LIBPATH\fR\&. .RE .PP LIBDIRPREFIX .RS 4 The prefix used to specify a library directory on the linker command line\&. This will be appended to the beginning of each directory in the \fB$LIBPATH\fR construction variable when the \fB$_LIBDIRFLAGS\fR variable is automatically generated\&. .RE .PP LIBDIRSUFFIX .RS 4 The suffix used to specify a library directory on the linker command line\&. This will be appended to the end of each directory in the \fB$LIBPATH\fR construction variable when the \fB$_LIBDIRFLAGS\fR variable is automatically generated\&. .RE .PP LIBEMITTER .RS 4 TODO .RE .PP _LIBFLAGS .RS 4 An automatically\-generated construction variable containing the linker command\-line options for specifying libraries to be linked with the resulting target\&. The value of \fB$_LIBFLAGS\fR is created by appending \fB$LIBLINKPREFIX\fR and \fB$LIBLINKSUFFIX\fR to the beginning and end of each filename in \fB$LIBS\fR\&. .RE .PP LIBLINKPREFIX .RS 4 The prefix used to specify a library to link on the linker command line\&. This will be appended to the beginning of each library in the \fB$LIBS\fR construction variable when the \fB$_LIBFLAGS\fR variable is automatically generated\&. .RE .PP LIBLINKSUFFIX .RS 4 The suffix used to specify a library to link on the linker command line\&. This will be appended to the end of each library in the \fB$LIBS\fR construction variable when the \fB$_LIBFLAGS\fR variable is automatically generated\&. .RE .PP LIBPATH .RS 4 The list of directories that will be searched for libraries\&. The implicit dependency scanner will search these directories for include files\&. Don\*(Aqt explicitly put include directory arguments in \fB$LINKFLAGS\fR or \fB$SHLINKFLAGS\fR because the result will be non\-portable and the directories will not be searched by the dependency scanner\&. Note: directory names in LIBPATH will be looked\-up relative to the SConscript directory when they are used in a command\&. To force scons to look\-up a directory relative to the root of the source tree use #: .sp .if n \{\ .RS 4 .\} .nf env = Environment(LIBPATH=\*(Aq#/libs\*(Aq) .fi .if n \{\ .RE .\} .sp The directory look\-up can also be forced using the \fBDir\fR() function: .sp .if n \{\ .RS 4 .\} .nf libs = Dir(\*(Aqlibs\*(Aq) env = Environment(LIBPATH=libs) .fi .if n \{\ .RE .\} .sp The directory list will be added to command lines through the automatically\-generated \fB$_LIBDIRFLAGS\fR construction variable, which is constructed by appending the values of the \fB$LIBDIRPREFIX\fR and \fB$LIBDIRSUFFIX\fR construction variables to the beginning and end of each directory in \fB$LIBPATH\fR\&. Any command lines you define that need the LIBPATH directory list should include \fB$_LIBDIRFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(LINKCOM="my_linker $_LIBDIRFLAGS $_LIBFLAGS \-o $TARGET $SOURCE") .fi .if n \{\ .RE .\} .RE .PP LIBPREFIX .RS 4 The prefix used for (static) library file names\&. A default value is set for each platform (posix, win32, os2, etc\&.), but the value is overridden by individual tools (ar, mslib, sgiar, sunar, tlib, etc\&.) to reflect the names of the libraries they create\&. .RE .PP LIBPREFIXES .RS 4 A list of all legal prefixes for library file names\&. When searching for library dependencies, SCons will look for files with these prefixes, the base library name, and suffixes in the \fB$LIBSUFFIXES\fR list\&. .RE .PP LIBS .RS 4 A list of one or more libraries that will be linked with any executable programs created by this environment\&. .sp The library list will be added to command lines through the automatically\-generated \fB$_LIBFLAGS\fR construction variable, which is constructed by appending the values of the \fB$LIBLINKPREFIX\fR and \fB$LIBLINKSUFFIX\fR construction variables to the beginning and end of each filename in \fB$LIBS\fR\&. Any command lines you define that need the LIBS library list should include \fB$_LIBFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(LINKCOM="my_linker $_LIBDIRFLAGS $_LIBFLAGS \-o $TARGET $SOURCE") .fi .if n \{\ .RE .\} .sp If you add a File object to the \fB$LIBS\fR list, the name of that file will be added to \fB$_LIBFLAGS\fR, and thus the link line, as is, without \fB$LIBLINKPREFIX\fR or \fB$LIBLINKSUFFIX\fR\&. For example: .sp .if n \{\ .RS 4 .\} .nf env\&.Append(LIBS=File(\*(Aq/tmp/mylib\&.so\*(Aq)) .fi .if n \{\ .RE .\} .sp In all cases, scons will add dependencies from the executable program to all the libraries in this list\&. .RE .PP LIBSUFFIX .RS 4 The suffix used for (static) library file names\&. A default value is set for each platform (posix, win32, os2, etc\&.), but the value is overridden by individual tools (ar, mslib, sgiar, sunar, tlib, etc\&.) to reflect the names of the libraries they create\&. .RE .PP LIBSUFFIXES .RS 4 A list of all legal suffixes for library file names\&. When searching for library dependencies, SCons will look for files with prefixes, in the \fB$LIBPREFIXES\fR list, the base library name, and these suffixes\&. .RE .PP LICENSE .RS 4 The abbreviated name of the license under which this project is released (gpl, lpgl, bsd etc\&.)\&. See http://www\&.opensource\&.org/licenses/alphabetical for a list of license names\&. .RE .PP LINESEPARATOR .RS 4 The separator used by the \fBSubstfile\fR and \fBTextfile\fR builders\&. This value is used between sources when constructing the target\&. It defaults to the current system line separator\&. .RE .PP LINGUAS_FILE .RS 4 The \fB$LINGUAS_FILE\fR defines file(s) containing list of additional linguas to be processed by \fBPOInit\fR, \fBPOUpdate\fR or \fBMOFiles\fR builders\&. It also affects \fBTranslate\fR builder\&. If the variable contains a string, it defines name of the list file\&. The \fB$LINGUAS_FILE\fR may be a list of file names as well\&. If \fB$LINGUAS_FILE\fR is set to True (or non\-zero numeric value), the list will be read from default file named LINGUAS\&. .RE .PP LINK .RS 4 The linker\&. .RE .PP LINKCOM .RS 4 The command line used to link object files into an executable\&. .RE .PP LINKCOMSTR .RS 4 The string displayed when object files are linked into an executable\&. If this is not set, then \fB$LINKCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(LINKCOMSTR = "Linking $TARGET") .fi .if n \{\ .RE .\} .RE .PP LINKFLAGS .RS 4 General user options passed to the linker\&. Note that this variable should \fInot\fR contain \fB\-l\fR (or similar) options for linking with the libraries listed in \fB$LIBS\fR, nor \fB\-L\fR (or similar) library search path options that scons generates automatically from \fB$LIBPATH\fR\&. See \fB$_LIBFLAGS\fR above, for the variable that expands to library\-link options, and \fB$_LIBDIRFLAGS\fR above, for the variable that expands to library search path options\&. .RE .PP M4 .RS 4 The M4 macro preprocessor\&. .RE .PP M4COM .RS 4 The command line used to pass files through the M4 macro preprocessor\&. .RE .PP M4COMSTR .RS 4 The string displayed when a file is passed through the M4 macro preprocessor\&. If this is not set, then \fB$M4COM\fR (the command line) is displayed\&. .RE .PP M4FLAGS .RS 4 General options passed to the M4 macro preprocessor\&. .RE .PP MAKEINDEX .RS 4 The makeindex generator for the TeX formatter and typesetter and the LaTeX structured formatter and typesetter\&. .RE .PP MAKEINDEXCOM .RS 4 The command line used to call the makeindex generator for the TeX formatter and typesetter and the LaTeX structured formatter and typesetter\&. .RE .PP MAKEINDEXCOMSTR .RS 4 The string displayed when calling the makeindex generator for the TeX formatter and typesetter and the LaTeX structured formatter and typesetter\&. If this is not set, then \fB$MAKEINDEXCOM\fR (the command line) is displayed\&. .RE .PP MAKEINDEXFLAGS .RS 4 General options passed to the makeindex generator for the TeX formatter and typesetter and the LaTeX structured formatter and typesetter\&. .RE .PP MAXLINELENGTH .RS 4 The maximum number of characters allowed on an external command line\&. On Win32 systems, link lines longer than this many characters are linked via a temporary file name\&. .RE .PP MIDL .RS 4 The Microsoft IDL compiler\&. .RE .PP MIDLCOM .RS 4 The command line used to pass files to the Microsoft IDL compiler\&. .RE .PP MIDLCOMSTR .RS 4 The string displayed when the Microsoft IDL copmiler is called\&. If this is not set, then \fB$MIDLCOM\fR (the command line) is displayed\&. .RE .PP MIDLFLAGS .RS 4 General options passed to the Microsoft IDL compiler\&. .RE .PP MOSUFFIX .RS 4 Suffix used for MO files (default: \*(Aq\&.mo\*(Aq)\&. See msgfmt tool and \fBMOFiles\fR builder\&. .RE .PP MSGFMT .RS 4 Absolute path to \fBmsgfmt(1)\fR binary, found by \fBDetect()\fR\&. See msgfmt tool and \fBMOFiles\fR builder\&. .RE .PP MSGFMTCOM .RS 4 Complete command line to run \fBmsgfmt(1)\fR program\&. See msgfmt tool and \fBMOFiles\fR builder\&. .RE .PP MSGFMTCOMSTR .RS 4 String to display when \fBmsgfmt(1)\fR is invoked (default: \*(Aq\*(Aq, which means ``print \fB$MSGFMTCOM\fR\*(Aq\*(Aq)\&. See msgfmt tool and \fBMOFiles\fR builder\&. .RE .PP MSGFMTFLAGS .RS 4 Additional flags to \fBmsgfmt(1)\fR\&. See msgfmt tool and \fBMOFiles\fR builder\&. .RE .PP MSGINIT .RS 4 Path to \fBmsginit(1)\fR program (found via Detect())\&. See msginit tool and \fBPOInit\fR builder\&. .RE .PP MSGINITCOM .RS 4 Complete command line to run \fBmsginit(1)\fR program\&. See msginit tool and \fBPOInit\fR builder\&. .RE .PP MSGINITCOMSTR .RS 4 String to display when \fBmsginit(1)\fR is invoked (default: \*(Aq\*(Aq, which means ``print \fB$MSGINITCOM\fR\*(Aq\*(Aq)\&. See msginit tool and \fBPOInit\fR builder\&. .RE .PP MSGINITFLAGS .RS 4 List of additional flags to \fBmsginit(1)\fR (default: [])\&. See msginit tool and \fBPOInit\fR builder\&. .RE .PP _MSGINITLOCALE .RS 4 Internal ``macro\*(Aq\*(Aq\&. Computes locale (language) name based on target filename (default: \*(Aq${TARGET\&.filebase}\*(Aq)\&. .sp See msginit tool and \fBPOInit\fR builder\&. .RE .PP MSGMERGE .RS 4 Absolute path to \fBmsgmerge(1)\fR binary as found by \fBDetect()\fR\&. See msgmerge tool and \fBPOUpdate\fR builder\&. .RE .PP MSGMERGECOM .RS 4 Complete command line to run \fBmsgmerge(1)\fR command\&. See msgmerge tool and \fBPOUpdate\fR builder\&. .RE .PP MSGMERGECOMSTR .RS 4 String to be displayed when \fBmsgmerge(1)\fR is invoked (default: \*(Aq\*(Aq, which means ``print \fB$MSGMERGECOM\fR\*(Aq\*(Aq)\&. See msgmerge tool and \fBPOUpdate\fR builder\&. .RE .PP MSGMERGEFLAGS .RS 4 Additional flags to \fBmsgmerge(1)\fR command\&. See msgmerge tool and \fBPOUpdate\fR builder\&. .RE .PP MSSDK_DIR .RS 4 The directory containing the Microsoft SDK (either Platform SDK or Windows SDK) to be used for compilation\&. .RE .PP MSSDK_VERSION .RS 4 The version string of the Microsoft SDK (either Platform SDK or Windows SDK) to be used for compilation\&. Supported versions include 6\&.1, 6\&.0A, 6\&.0, 2003R2 and 2003R1\&. .RE .PP MSVC_BATCH .RS 4 When set to any true value, specifies that SCons should batch compilation of object files when calling the Microsoft Visual C/C++ compiler\&. All compilations of source files from the same source directory that generate target files in a same output directory and were configured in SCons using the same construction environment will be built in a single call to the compiler\&. Only source files that have changed since their object files were built will be passed to each compiler invocation (via the \fB$CHANGED_SOURCES\fR construction variable)\&. Any compilations where the object (target) file base name (minus the \&.obj) does not match the source file base name will be compiled separately\&. .RE .PP MSVC_USE_SCRIPT .RS 4 Use a batch script to set up Microsoft Visual Studio compiler .sp \fB$MSVC_USE_SCRIPT\fR overrides \fB$MSVC_VERSION\fR and \fB$TARGET_ARCH\fR\&. If set to the name of a Visual Studio \&.bat file (e\&.g\&. vcvars\&.bat), SCons will run that bat file and extract the relevant variables from the result (typically %INCLUDE%, %LIB%, and %PATH%)\&. Setting MSVC_USE_SCRIPT to None bypasses the Visual Studio autodetection entirely; use this if you are running SCons in a Visual Studio cmd window and importing the shell\*(Aqs environment variables\&. .RE .PP MSVC_UWP_APP .RS 4 Build libraries for a Universal Windows Platform (UWP) Application\&. .sp If \fB$MSVC_UWP_APP\fR is set, the Visual Studio environment will be set up to point to the Windows Store compatible libraries and Visual Studio runtimes\&. In doing so, any libraries that are built will be able to be used in a UWP App and published to the Windows Store\&. This flag will only have an effect with Visual Studio 2015+\&. This variable must be passed as an argument to the Environment() constructor; setting it later has no effect\&. .sp Valid values are \*(Aq1\*(Aq or \*(Aq0\*(Aq .RE .PP MSVC_VERSION .RS 4 Sets the preferred version of Microsoft Visual C/C++ to use\&. .sp If \fB$MSVC_VERSION\fR is not set, SCons will (by default) select the latest version of Visual C/C++ installed on your system\&. If the specified version isn\*(Aqt installed, tool initialization will fail\&. This variable must be passed as an argument to the Environment() constructor; setting it later has no effect\&. .sp Valid values for Windows are 14\&.0, 14\&.0Exp, 12\&.0, 12\&.0Exp, 11\&.0, 11\&.0Exp, 10\&.0, 10\&.0Exp, 9\&.0, 9\&.0Exp, 8\&.0, 8\&.0Exp, 7\&.1, 7\&.0, and 6\&.0\&. Versions ending in Exp refer to "Express" or "Express for Desktop" editions\&. .RE .PP MSVS .RS 4 When the Microsoft Visual Studio tools are initialized, they set up this dictionary with the following keys: .PP VERSION .RS 4 the version of MSVS being used (can be set via \fB$MSVS_VERSION\fR) .RE .PP VERSIONS .RS 4 the available versions of MSVS installed .RE .PP VCINSTALLDIR .RS 4 installed directory of Visual C++ .RE .PP VSINSTALLDIR .RS 4 installed directory of Visual Studio .RE .PP FRAMEWORKDIR .RS 4 installed directory of the \&.NET framework .RE .PP FRAMEWORKVERSIONS .RS 4 list of installed versions of the \&.NET framework, sorted latest to oldest\&. .RE .PP FRAMEWORKVERSION .RS 4 latest installed version of the \&.NET framework .RE .PP FRAMEWORKSDKDIR .RS 4 installed location of the \&.NET SDK\&. .RE .PP PLATFORMSDKDIR .RS 4 installed location of the Platform SDK\&. .RE .PP PLATFORMSDK_MODULES .RS 4 dictionary of installed Platform SDK modules, where the dictionary keys are keywords for the various modules, and the values are 2\-tuples where the first is the release date, and the second is the version number\&. .RE .sp If a value isn\*(Aqt set, it wasn\*(Aqt available in the registry\&. .RE .PP MSVS_ARCH .RS 4 Sets the architecture for which the generated project(s) should build\&. .sp The default value is x86\&. amd64 is also supported by SCons for some Visual Studio versions\&. Trying to set \fB$MSVS_ARCH\fR to an architecture that\*(Aqs not supported for a given Visual Studio version will generate an error\&. .RE .PP MSVS_PROJECT_GUID .RS 4 The string placed in a generated Microsoft Visual Studio project file as the value of the ProjectGUID attribute\&. There is no default value\&. If not defined, a new GUID is generated\&. .RE .PP MSVS_SCC_AUX_PATH .RS 4 The path name placed in a generated Microsoft Visual Studio project file as the value of the SccAuxPath attribute if the \fBMSVS_SCC_PROVIDER\fR construction variable is also set\&. There is no default value\&. .RE .PP MSVS_SCC_CONNECTION_ROOT .RS 4 The root path of projects in your SCC workspace, i\&.e the path under which all project and solution files will be generated\&. It is used as a reference path from which the relative paths of the generated Microsoft Visual Studio project and solution files are computed\&. The relative project file path is placed as the value of the SccLocalPath attribute of the project file and as the values of the SccProjectFilePathRelativizedFromConnection[i] (where [i] ranges from 0 to the number of projects in the solution) attributes of the GlobalSection(SourceCodeControl) section of the Microsoft Visual Studio solution file\&. Similarly the relative solution file path is placed as the values of the SccLocalPath[i] (where [i] ranges from 0 to the number of projects in the solution) attributes of the GlobalSection(SourceCodeControl) section of the Microsoft Visual Studio solution file\&. This is used only if the \fBMSVS_SCC_PROVIDER\fR construction variable is also set\&. The default value is the current working directory\&. .RE .PP MSVS_SCC_PROJECT_NAME .RS 4 The project name placed in a generated Microsoft Visual Studio project file as the value of the SccProjectName attribute if the \fBMSVS_SCC_PROVIDER\fR construction variable is also set\&. In this case the string is also placed in the SccProjectName0 attribute of the GlobalSection(SourceCodeControl) section of the Microsoft Visual Studio solution file\&. There is no default value\&. .RE .PP MSVS_SCC_PROVIDER .RS 4 The string placed in a generated Microsoft Visual Studio project file as the value of the SccProvider attribute\&. The string is also placed in the SccProvider0 attribute of the GlobalSection(SourceCodeControl) section of the Microsoft Visual Studio solution file\&. There is no default value\&. .RE .PP MSVS_VERSION .RS 4 Sets the preferred version of Microsoft Visual Studio to use\&. .sp If \fB$MSVS_VERSION\fR is not set, SCons will (by default) select the latest version of Visual Studio installed on your system\&. So, if you have version 6 and version 7 (MSVS \&.NET) installed, it will prefer version 7\&. You can override this by specifying the \fBMSVS_VERSION\fR variable in the Environment initialization, setting it to the appropriate version (\*(Aq6\&.0\*(Aq or \*(Aq7\&.0\*(Aq, for example)\&. If the specified version isn\*(Aqt installed, tool initialization will fail\&. .sp This is obsolete: use \fB$MSVC_VERSION\fR instead\&. If \fB$MSVS_VERSION\fR is set and \fB$MSVC_VERSION\fR is not, \fB$MSVC_VERSION\fR will be set automatically to \fB$MSVS_VERSION\fR\&. If both are set to different values, scons will raise an error\&. .RE .PP MSVSBUILDCOM .RS 4 The build command line placed in a generated Microsoft Visual Studio project file\&. The default is to have Visual Studio invoke SCons with any specified build targets\&. .RE .PP MSVSCLEANCOM .RS 4 The clean command line placed in a generated Microsoft Visual Studio project file\&. The default is to have Visual Studio invoke SCons with the \-c option to remove any specified targets\&. .RE .PP MSVSENCODING .RS 4 The encoding string placed in a generated Microsoft Visual Studio project file\&. The default is encoding Windows\-1252\&. .RE .PP MSVSPROJECTCOM .RS 4 The action used to generate Microsoft Visual Studio project files\&. .RE .PP MSVSPROJECTSUFFIX .RS 4 The suffix used for Microsoft Visual Studio project (DSP) files\&. The default value is \&.vcproj when using Visual Studio version 7\&.x (\&.NET) or later version, and \&.dsp when using earlier versions of Visual Studio\&. .RE .PP MSVSREBUILDCOM .RS 4 The rebuild command line placed in a generated Microsoft Visual Studio project file\&. The default is to have Visual Studio invoke SCons with any specified rebuild targets\&. .RE .PP MSVSSCONS .RS 4 The SCons used in generated Microsoft Visual Studio project files\&. The default is the version of SCons being used to generate the project file\&. .RE .PP MSVSSCONSCOM .RS 4 The default SCons command used in generated Microsoft Visual Studio project files\&. .RE .PP MSVSSCONSCRIPT .RS 4 The sconscript file (that is, SConstruct or SConscript file) that will be invoked by Visual Studio project files (through the \fB$MSVSSCONSCOM\fR variable)\&. The default is the same sconscript file that contains the call to \fBMSVSProject\fR to build the project file\&. .RE .PP MSVSSCONSFLAGS .RS 4 The SCons flags used in generated Microsoft Visual Studio project files\&. .RE .PP MSVSSOLUTIONCOM .RS 4 The action used to generate Microsoft Visual Studio solution files\&. .RE .PP MSVSSOLUTIONSUFFIX .RS 4 The suffix used for Microsoft Visual Studio solution (DSW) files\&. The default value is \&.sln when using Visual Studio version 7\&.x (\&.NET), and \&.dsw when using earlier versions of Visual Studio\&. .RE .PP MT .RS 4 The program used on Windows systems to embed manifests into DLLs and EXEs\&. See also \fB$WINDOWS_EMBED_MANIFEST\fR\&. .RE .PP MTEXECOM .RS 4 The Windows command line used to embed manifests into executables\&. See also \fB$MTSHLIBCOM\fR\&. .RE .PP MTFLAGS .RS 4 Flags passed to the \fB$MT\fR manifest embedding program (Windows only)\&. .RE .PP MTSHLIBCOM .RS 4 The Windows command line used to embed manifests into shared libraries (DLLs)\&. See also \fB$MTEXECOM\fR\&. .RE .PP MWCW_VERSION .RS 4 The version number of the MetroWerks CodeWarrior C compiler to be used\&. .RE .PP MWCW_VERSIONS .RS 4 A list of installed versions of the MetroWerks CodeWarrior C compiler on this system\&. .RE .PP NAME .RS 4 Specfies the name of the project to package\&. .RE .PP no_import_lib .RS 4 When set to non\-zero, suppresses creation of a corresponding Windows static import lib by the SharedLibrary builder when used with MinGW, Microsoft Visual Studio or Metrowerks\&. This also suppresses creation of an export (\&.exp) file when using Microsoft Visual Studio\&. .RE .PP OBJPREFIX .RS 4 The prefix used for (static) object file names\&. .RE .PP OBJSUFFIX .RS 4 The suffix used for (static) object file names\&. .RE .PP PACKAGEROOT .RS 4 Specifies the directory where all files in resulting archive will be placed if applicable\&. The default value is "$NAME\-$VERSION"\&. .RE .PP PACKAGETYPE .RS 4 Selects the package type to build\&. Currently these are available: .sp * msi \- Microsoft Installer * rpm \- Redhat Package Manger * ipkg \- Itsy Package Management System * tarbz2 \- compressed tar * targz \- compressed tar * zip \- zip file * src_tarbz2 \- compressed tar source * src_targz \- compressed tar source * src_zip \- zip file source .sp This may be overridden with the "package_type" command line option\&. .RE .PP PACKAGEVERSION .RS 4 The version of the package (not the underlying project)\&. This is currently only used by the rpm packager and should reflect changes in the packaging, not the underlying project code itself\&. .RE .PP PCH .RS 4 The Microsoft Visual C++ precompiled header that will be used when compiling object files\&. This variable is ignored by tools other than Microsoft Visual C++\&. When this variable is defined SCons will add options to the compiler command line to cause it to use the precompiled header, and will also set up the dependencies for the PCH file\&. Example: .sp .if n \{\ .RS 4 .\} .nf env[\*(AqPCH\*(Aq] = \*(AqStdAfx\&.pch\*(Aq .fi .if n \{\ .RE .\} .RE .PP PCHCOM .RS 4 The command line used by the \fBPCH\fR builder to generated a precompiled header\&. .RE .PP PCHCOMSTR .RS 4 The string displayed when generating a precompiled header\&. If this is not set, then \fB$PCHCOM\fR (the command line) is displayed\&. .RE .PP PCHPDBFLAGS .RS 4 A construction variable that, when expanded, adds the /yD flag to the command line only if the \fB$PDB\fR construction variable is set\&. .RE .PP PCHSTOP .RS 4 This variable specifies how much of a source file is precompiled\&. This variable is ignored by tools other than Microsoft Visual C++, or when the PCH variable is not being used\&. When this variable is define it must be a string that is the name of the header that is included at the end of the precompiled portion of the source files, or the empty string if the "#pragma hrdstop" construct is being used: .sp .if n \{\ .RS 4 .\} .nf env[\*(AqPCHSTOP\*(Aq] = \*(AqStdAfx\&.h\*(Aq .fi .if n \{\ .RE .\} .RE .PP PDB .RS 4 The Microsoft Visual C++ PDB file that will store debugging information for object files, shared libraries, and programs\&. This variable is ignored by tools other than Microsoft Visual C++\&. When this variable is defined SCons will add options to the compiler and linker command line to cause them to generate external debugging information, and will also set up the dependencies for the PDB file\&. Example: .sp .if n \{\ .RS 4 .\} .nf env[\*(AqPDB\*(Aq] = \*(Aqhello\&.pdb\*(Aq .fi .if n \{\ .RE .\} .sp The Visual C++ compiler switch that SCons uses by default to generate PDB information is \fB/Z7\fR\&. This works correctly with parallel (\fB\-j\fR) builds because it embeds the debug information in the intermediate object files, as opposed to sharing a single PDB file between multiple object files\&. This is also the only way to get debug information embedded into a static library\&. Using the \fB/Zi\fR instead may yield improved link\-time performance, although parallel builds will no longer work\&. You can generate PDB files with the \fB/Zi\fR switch by overriding the default \fB$CCPDBFLAGS\fR variable; see the entry for that variable for specific examples\&. .RE .PP PDFCOM .RS 4 A deprecated synonym for \fB$DVIPDFCOM\fR\&. .RE .PP PDFLATEX .RS 4 The pdflatex utility\&. .RE .PP PDFLATEXCOM .RS 4 The command line used to call the pdflatex utility\&. .RE .PP PDFLATEXCOMSTR .RS 4 The string displayed when calling the pdflatex utility\&. If this is not set, then \fB$PDFLATEXCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(PDFLATEX;COMSTR = "Building $TARGET from LaTeX input $SOURCES") .fi .if n \{\ .RE .\} .RE .PP PDFLATEXFLAGS .RS 4 General options passed to the pdflatex utility\&. .RE .PP PDFPREFIX .RS 4 The prefix used for PDF file names\&. .RE .PP PDFSUFFIX .RS 4 The suffix used for PDF file names\&. .RE .PP PDFTEX .RS 4 The pdftex utility\&. .RE .PP PDFTEXCOM .RS 4 The command line used to call the pdftex utility\&. .RE .PP PDFTEXCOMSTR .RS 4 The string displayed when calling the pdftex utility\&. If this is not set, then \fB$PDFTEXCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(PDFTEXCOMSTR = "Building $TARGET from TeX input $SOURCES") .fi .if n \{\ .RE .\} .RE .PP PDFTEXFLAGS .RS 4 General options passed to the pdftex utility\&. .RE .PP PKGCHK .RS 4 On Solaris systems, the package\-checking program that will be used (along with \fB$PKGINFO\fR) to look for installed versions of the Sun PRO C++ compiler\&. The default is /usr/sbin/pgkchk\&. .RE .PP PKGINFO .RS 4 On Solaris systems, the package information program that will be used (along with \fB$PKGCHK\fR) to look for installed versions of the Sun PRO C++ compiler\&. The default is pkginfo\&. .RE .PP PLATFORM .RS 4 The name of the platform used to create the Environment\&. If no platform is specified when the Environment is created, scons autodetects the platform\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(tools = []) if env[\*(AqPLATFORM\*(Aq] == \*(Aqcygwin\*(Aq: Tool(\*(Aqmingw\*(Aq)(env) else: Tool(\*(Aqmsvc\*(Aq)(env) .fi .if n \{\ .RE .\} .RE .PP POAUTOINIT .RS 4 The \fB$POAUTOINIT\fR variable, if set to True (on non\-zero numeric value), let the msginit tool to automatically initialize \fImissing\fR PO files with \fBmsginit(1)\fR\&. This applies to both, \fBPOInit\fR and \fBPOUpdate\fR builders (and others that use any of them)\&. .RE .PP POCREATE_ALIAS .RS 4 Common alias for all PO files created with \fBPOInit\fR builder (default: \*(Aqpo\-create\*(Aq)\&. See msginit tool and \fBPOInit\fR builder\&. .RE .PP POSUFFIX .RS 4 Suffix used for PO files (default: \*(Aq\&.po\*(Aq) See msginit tool and \fBPOInit\fR builder\&. .RE .PP POTDOMAIN .RS 4 The \fB$POTDOMAIN\fR defines default domain, used to generate POT filename as \fB$POTDOMAIN\fR\&.pot when no POT file name is provided by the user\&. This applies to \fBPOTUpdate\fR, \fBPOInit\fR and \fBPOUpdate\fR builders (and builders, that use them, e\&.g\&. \fBTranslate\fR)\&. Normally (if \fB$POTDOMAIN\fR is not defined), the builders use messages\&.pot as default POT file name\&. .RE .PP POTSUFFIX .RS 4 Suffix used for PO Template files (default: \*(Aq\&.pot\*(Aq)\&. See xgettext tool and \fBPOTUpdate\fR builder\&. .RE .PP POTUPDATE_ALIAS .RS 4 Name of the common phony target for all PO Templates created with \fBPOUpdate\fR (default: \*(Aqpot\-update\*(Aq)\&. See xgettext tool and \fBPOTUpdate\fR builder\&. .RE .PP POUPDATE_ALIAS .RS 4 Common alias for all PO files being defined with \fBPOUpdate\fR builder (default: \*(Aqpo\-update\*(Aq)\&. See msgmerge tool and \fBPOUpdate\fR builder\&. .RE .PP PRINT_CMD_LINE_FUNC .RS 4 A Python function used to print the command lines as they are executed (assuming command printing is not disabled by the \fB\-q\fR or \fB\-s\fR options or their equivalents)\&. The function should take four arguments: \fIs\fR, the command being executed (a string), \fItarget\fR, the target being built (file node, list, or string name(s)), \fIsource\fR, the source(s) used (file node, list, or string name(s)), and \fIenv\fR, the environment being used\&. .sp The function must do the printing itself\&. The default implementation, used if this variable is not set or is None, is: .sp .if n \{\ .RS 4 .\} .nf def print_cmd_line(s, target, source, env): sys\&.stdout\&.write(s + "\en") .fi .if n \{\ .RE .\} .sp Here\*(Aqs an example of a more interesting function: .sp .if n \{\ .RS 4 .\} .nf def print_cmd_line(s, target, source, env): sys\&.stdout\&.write("Building %s \-> %s\&.\&.\&.\en" % (\*(Aq and \*(Aq\&.join([str(x) for x in source]), \*(Aq and \*(Aq\&.join([str(x) for x in target]))) env=Environment(PRINT_CMD_LINE_FUNC=print_cmd_line) env\&.Program(\*(Aqfoo\*(Aq, \*(Aqfoo\&.c\*(Aq) .fi .if n \{\ .RE .\} .sp This just prints "Building \fItargetname\fR from \fIsourcename\fR\&.\&.\&." instead of the actual commands\&. Such a function could also log the actual commands to a log file, for example\&. .RE .PP PROGEMITTER .RS 4 TODO .RE .PP PROGPREFIX .RS 4 The prefix used for executable file names\&. .RE .PP PROGSUFFIX .RS 4 The suffix used for executable file names\&. .RE .PP PSCOM .RS 4 The command line used to convert TeX DVI files into a PostScript file\&. .RE .PP PSCOMSTR .RS 4 The string displayed when a TeX DVI file is converted into a PostScript file\&. If this is not set, then \fB$PSCOM\fR (the command line) is displayed\&. .RE .PP PSPREFIX .RS 4 The prefix used for PostScript file names\&. .RE .PP PSSUFFIX .RS 4 The prefix used for PostScript file names\&. .RE .PP QT_AUTOSCAN .RS 4 Turn off scanning for mocable files\&. Use the Moc Builder to explicitly specify files to run moc on\&. .RE .PP QT_BINPATH .RS 4 The path where the qt binaries are installed\&. The default value is \*(Aq\fB$QTDIR\fR/bin\*(Aq\&. .RE .PP QT_CPPPATH .RS 4 The path where the qt header files are installed\&. The default value is \*(Aq\fB$QTDIR\fR/include\*(Aq\&. Note: If you set this variable to None, the tool won\*(Aqt change the \fB$CPPPATH\fR construction variable\&. .RE .PP QT_DEBUG .RS 4 Prints lots of debugging information while scanning for moc files\&. .RE .PP QT_LIB .RS 4 Default value is \*(Aqqt\*(Aq\&. You may want to set this to \*(Aqqt\-mt\*(Aq\&. Note: If you set this variable to None, the tool won\*(Aqt change the \fB$LIBS\fR variable\&. .RE .PP QT_LIBPATH .RS 4 The path where the qt libraries are installed\&. The default value is \*(Aq\fB$QTDIR\fR/lib\*(Aq\&. Note: If you set this variable to None, the tool won\*(Aqt change the \fB$LIBPATH\fR construction variable\&. .RE .PP QT_MOC .RS 4 Default value is \*(Aq\fB$QT_BINPATH\fR/moc\*(Aq\&. .RE .PP QT_MOCCXXPREFIX .RS 4 Default value is \*(Aq\*(Aq\&. Prefix for moc output files, when source is a cxx file\&. .RE .PP QT_MOCCXXSUFFIX .RS 4 Default value is \*(Aq\&.moc\*(Aq\&. Suffix for moc output files, when source is a cxx file\&. .RE .PP QT_MOCFROMCXXCOM .RS 4 Command to generate a moc file from a cpp file\&. .RE .PP QT_MOCFROMCXXCOMSTR .RS 4 The string displayed when generating a moc file from a cpp file\&. If this is not set, then \fB$QT_MOCFROMCXXCOM\fR (the command line) is displayed\&. .RE .PP QT_MOCFROMCXXFLAGS .RS 4 Default value is \*(Aq\-i\*(Aq\&. These flags are passed to moc, when moccing a C++ file\&. .RE .PP QT_MOCFROMHCOM .RS 4 Command to generate a moc file from a header\&. .RE .PP QT_MOCFROMHCOMSTR .RS 4 The string displayed when generating a moc file from a cpp file\&. If this is not set, then \fB$QT_MOCFROMHCOM\fR (the command line) is displayed\&. .RE .PP QT_MOCFROMHFLAGS .RS 4 Default value is \*(Aq\*(Aq\&. These flags are passed to moc, when moccing a header file\&. .RE .PP QT_MOCHPREFIX .RS 4 Default value is \*(Aqmoc_\*(Aq\&. Prefix for moc output files, when source is a header\&. .RE .PP QT_MOCHSUFFIX .RS 4 Default value is \*(Aq\fB$CXXFILESUFFIX\fR\*(Aq\&. Suffix for moc output files, when source is a header\&. .RE .PP QT_UIC .RS 4 Default value is \*(Aq\fB$QT_BINPATH\fR/uic\*(Aq\&. .RE .PP QT_UICCOM .RS 4 Command to generate header files from \&.ui files\&. .RE .PP QT_UICCOMSTR .RS 4 The string displayed when generating header files from \&.ui files\&. If this is not set, then \fB$QT_UICCOM\fR (the command line) is displayed\&. .RE .PP QT_UICDECLFLAGS .RS 4 Default value is \*(Aq\*(Aq\&. These flags are passed to uic, when creating a a h file from a \&.ui file\&. .RE .PP QT_UICDECLPREFIX .RS 4 Default value is \*(Aq\*(Aq\&. Prefix for uic generated header files\&. .RE .PP QT_UICDECLSUFFIX .RS 4 Default value is \*(Aq\&.h\*(Aq\&. Suffix for uic generated header files\&. .RE .PP QT_UICIMPLFLAGS .RS 4 Default value is \*(Aq\*(Aq\&. These flags are passed to uic, when creating a cxx file from a \&.ui file\&. .RE .PP QT_UICIMPLPREFIX .RS 4 Default value is \*(Aquic_\*(Aq\&. Prefix for uic generated implementation files\&. .RE .PP QT_UICIMPLSUFFIX .RS 4 Default value is \*(Aq\fB$CXXFILESUFFIX\fR\*(Aq\&. Suffix for uic generated implementation files\&. .RE .PP QT_UISUFFIX .RS 4 Default value is \*(Aq\&.ui\*(Aq\&. Suffix of designer input files\&. .RE .PP QTDIR .RS 4 The qt tool tries to take this from os\&.environ\&. It also initializes all QT_* construction variables listed below\&. (Note that all paths are constructed with python\*(Aqs os\&.path\&.join() method, but are listed here with the \*(Aq/\*(Aq separator for easier reading\&.) In addition, the construction environment variables \fB$CPPPATH\fR, \fB$LIBPATH\fR and \fB$LIBS\fR may be modified and the variables \fB$PROGEMITTER\fR, \fB$SHLIBEMITTER\fR and \fB$LIBEMITTER\fR are modified\&. Because the build\-performance is affected when using this tool, you have to explicitly specify it at Environment creation: .sp .if n \{\ .RS 4 .\} .nf Environment(tools=[\*(Aqdefault\*(Aq,\*(Aqqt\*(Aq]) .fi .if n \{\ .RE .\} .sp The qt tool supports the following operations: .sp \fBAutomatic moc file generation from header files\&.\fR You do not have to specify moc files explicitly, the tool does it for you\&. However, there are a few preconditions to do so: Your header file must have the same filebase as your implementation file and must stay in the same directory\&. It must have one of the suffixes \&.h, \&.hpp, \&.H, \&.hxx, \&.hh\&. You can turn off automatic moc file generation by setting QT_AUTOSCAN to 0\&. See also the corresponding \fBMoc\fR() builder method\&. .sp \fBAutomatic moc file generation from cxx files\&.\fR As stated in the qt documentation, include the moc file at the end of the cxx file\&. Note that you have to include the file, which is generated by the transformation ${QT_MOCCXXPREFIX}${QT_MOCCXXSUFFIX}, by default \&.moc\&. A warning is generated after building the moc file, if you do not include the correct file\&. If you are using VariantDir, you may need to specify duplicate=1\&. You can turn off automatic moc file generation by setting QT_AUTOSCAN to 0\&. See also the corresponding \fBMoc\fR builder method\&. .sp \fBAutomatic handling of \&.ui files\&.\fR The implementation files generated from \&.ui files are handled much the same as yacc or lex files\&. Each \&.ui file given as a source of Program, Library or SharedLibrary will generate three files, the declaration file, the implementation file and a moc file\&. Because there are also generated headers, you may need to specify duplicate=1 in calls to VariantDir\&. See also the corresponding \fBUic\fR builder method\&. .RE .PP RANLIB .RS 4 The archive indexer\&. .RE .PP RANLIBCOM .RS 4 The command line used to index a static library archive\&. .RE .PP RANLIBCOMSTR .RS 4 The string displayed when a static library archive is indexed\&. If this is not set, then \fB$RANLIBCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(RANLIBCOMSTR = "Indexing $TARGET") .fi .if n \{\ .RE .\} .RE .PP RANLIBFLAGS .RS 4 General options passed to the archive indexer\&. .RE .PP RC .RS 4 The resource compiler used to build a Microsoft Visual C++ resource file\&. .RE .PP RCCOM .RS 4 The command line used to build a Microsoft Visual C++ resource file\&. .RE .PP RCCOMSTR .RS 4 The string displayed when invoking the resource compiler to build a Microsoft Visual C++ resource file\&. If this is not set, then \fB$RCCOM\fR (the command line) is displayed\&. .RE .PP RCFLAGS .RS 4 The flags passed to the resource compiler by the RES builder\&. .RE .PP RCINCFLAGS .RS 4 An automatically\-generated construction variable containing the command\-line options for specifying directories to be searched by the resource compiler\&. The value of \fB$RCINCFLAGS\fR is created by appending \fB$RCINCPREFIX\fR and \fB$RCINCSUFFIX\fR to the beginning and end of each directory in \fB$CPPPATH\fR\&. .RE .PP RCINCPREFIX .RS 4 The prefix (flag) used to specify an include directory on the resource compiler command line\&. This will be appended to the beginning of each directory in the \fB$CPPPATH\fR construction variable when the \fB$RCINCFLAGS\fR variable is expanded\&. .RE .PP RCINCSUFFIX .RS 4 The suffix used to specify an include directory on the resource compiler command line\&. This will be appended to the end of each directory in the \fB$CPPPATH\fR construction variable when the \fB$RCINCFLAGS\fR variable is expanded\&. .RE .PP RDirs .RS 4 A function that converts a string into a list of Dir instances by searching the repositories\&. .RE .PP REGSVR .RS 4 The program used on Windows systems to register a newly\-built DLL library whenever the \fBSharedLibrary\fR builder is passed a keyword argument of register=1\&. .RE .PP REGSVRCOM .RS 4 The command line used on Windows systems to register a newly\-built DLL library whenever the \fBSharedLibrary\fR builder is passed a keyword argument of register=1\&. .RE .PP REGSVRCOMSTR .RS 4 The string displayed when registering a newly\-built DLL file\&. If this is not set, then \fB$REGSVRCOM\fR (the command line) is displayed\&. .RE .PP REGSVRFLAGS .RS 4 Flags passed to the DLL registration program on Windows systems when a newly\-built DLL library is registered\&. By default, this includes the \fB/s\fR that prevents dialog boxes from popping up and requiring user attention\&. .RE .PP RMIC .RS 4 The Java RMI stub compiler\&. .RE .PP RMICCOM .RS 4 The command line used to compile stub and skeleton class files from Java classes that contain RMI implementations\&. Any options specified in the \fB$RMICFLAGS\fR construction variable are included on this command line\&. .RE .PP RMICCOMSTR .RS 4 The string displayed when compiling stub and skeleton class files from Java classes that contain RMI implementations\&. If this is not set, then \fB$RMICCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(RMICCOMSTR = "Generating stub/skeleton class files $TARGETS from $SOURCES") .fi .if n \{\ .RE .\} .RE .PP RMICFLAGS .RS 4 General options passed to the Java RMI stub compiler\&. .RE .PP _RPATH .RS 4 An automatically\-generated construction variable containing the rpath flags to be used when linking a program with shared libraries\&. The value of \fB$_RPATH\fR is created by appending \fB$RPATHPREFIX\fR and \fB$RPATHSUFFIX\fR to the beginning and end of each directory in \fB$RPATH\fR\&. .RE .PP RPATH .RS 4 A list of paths to search for shared libraries when running programs\&. Currently only used in the GNU (gnulink), IRIX (sgilink) and Sun (sunlink) linkers\&. Ignored on platforms and toolchains that don\*(Aqt support it\&. Note that the paths added to RPATH are not transformed by scons in any way: if you want an absolute path, you must make it absolute yourself\&. .RE .PP RPATHPREFIX .RS 4 The prefix used to specify a directory to be searched for shared libraries when running programs\&. This will be appended to the beginning of each directory in the \fB$RPATH\fR construction variable when the \fB$_RPATH\fR variable is automatically generated\&. .RE .PP RPATHSUFFIX .RS 4 The suffix used to specify a directory to be searched for shared libraries when running programs\&. This will be appended to the end of each directory in the \fB$RPATH\fR construction variable when the \fB$_RPATH\fR variable is automatically generated\&. .RE .PP RPCGEN .RS 4 The RPC protocol compiler\&. .RE .PP RPCGENCLIENTFLAGS .RS 4 Options passed to the RPC protocol compiler when generating client side stubs\&. These are in addition to any flags specified in the \fB$RPCGENFLAGS\fR construction variable\&. .RE .PP RPCGENFLAGS .RS 4 General options passed to the RPC protocol compiler\&. .RE .PP RPCGENHEADERFLAGS .RS 4 Options passed to the RPC protocol compiler when generating a header file\&. These are in addition to any flags specified in the \fB$RPCGENFLAGS\fR construction variable\&. .RE .PP RPCGENSERVICEFLAGS .RS 4 Options passed to the RPC protocol compiler when generating server side stubs\&. These are in addition to any flags specified in the \fB$RPCGENFLAGS\fR construction variable\&. .RE .PP RPCGENXDRFLAGS .RS 4 Options passed to the RPC protocol compiler when generating XDR routines\&. These are in addition to any flags specified in the \fB$RPCGENFLAGS\fR construction variable\&. .RE .PP SCANNERS .RS 4 A list of the available implicit dependency scanners\&. New file scanners may be added by appending to this list, although the more flexible approach is to associate scanners with a specific Builder\&. See the sections "Builder Objects" and "Scanner Objects," below, for more information\&. .RE .PP SCONS_HOME .RS 4 The (optional) path to the SCons library directory, initialized from the external environment\&. If set, this is used to construct a shorter and more efficient search path in the \fB$MSVSSCONS\fR command line executed from Microsoft Visual Studio project files\&. .RE .PP SHCC .RS 4 The C compiler used for generating shared\-library objects\&. .RE .PP SHCCCOM .RS 4 The command line used to compile a C source file to a shared\-library object file\&. Any options specified in the \fB$SHCFLAGS\fR, \fB$SHCCFLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. .RE .PP SHCCCOMSTR .RS 4 The string displayed when a C source file is compiled to a shared object file\&. If this is not set, then \fB$SHCCCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(SHCCCOMSTR = "Compiling shared object $TARGET") .fi .if n \{\ .RE .\} .RE .PP SHCCFLAGS .RS 4 Options that are passed to the C and C++ compilers to generate shared\-library objects\&. .RE .PP SHCFLAGS .RS 4 Options that are passed to the C compiler (only; not C++) to generate shared\-library objects\&. .RE .PP SHCXX .RS 4 The C++ compiler used for generating shared\-library objects\&. .RE .PP SHCXXCOM .RS 4 The command line used to compile a C++ source file to a shared\-library object file\&. Any options specified in the \fB$SHCXXFLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. .RE .PP SHCXXCOMSTR .RS 4 The string displayed when a C++ source file is compiled to a shared object file\&. If this is not set, then \fB$SHCXXCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(SHCXXCOMSTR = "Compiling shared object $TARGET") .fi .if n \{\ .RE .\} .RE .PP SHCXXFLAGS .RS 4 Options that are passed to the C++ compiler to generate shared\-library objects\&. .RE .PP SHDC .RS 4 The name of the compiler to use when compiling D source destined to be in a shared objects\&. .sp The name of the compiler to use when compiling D source destined to be in a shared objects\&. .sp The name of the compiler to use when compiling D source destined to be in a shared objects\&. .RE .PP SHDCOM .RS 4 The command line to use when compiling code to be part of shared objects\&. .sp The command line to use when compiling code to be part of shared objects\&. .sp The command line to use when compiling code to be part of shared objects\&. .RE .PP SHDLIBVERSION .RS 4 SHDLIBVERSION\&. .RE .PP SHDLIBVERSIONFLAGS .RS 4 SHDLIBVERSIONFLAGS\&. .RE .PP SHDLINK .RS 4 The linker to use when creating shared objects for code bases include D sources\&. .sp The linker to use when creating shared objects for code bases include D sources\&. .sp The linker to use when creating shared objects for code bases include D sources\&. .RE .PP SHDLINKCOM .RS 4 The command line to use when generating shared objects\&. .sp The command line to use when generating shared objects\&. .sp The command line to use when generating shared objects\&. .RE .PP SHDLINKFLAGS .RS 4 The list of flags to use when generating a shared object\&. .sp The list of flags to use when generating a shared object\&. .sp The list of flags to use when generating a shared object\&. .RE .PP SHELL .RS 4 A string naming the shell program that will be passed to the \fB$SPAWN\fR function\&. See the \fB$SPAWN\fR construction variable for more information\&. .RE .PP SHF03 .RS 4 The Fortran 03 compiler used for generating shared\-library objects\&. You should normally set the \fB$SHFORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$SHF03\fR if you need to use a specific compiler or compiler version for Fortran 03 files\&. .RE .PP SHF03COM .RS 4 The command line used to compile a Fortran 03 source file to a shared\-library object file\&. You only need to set \fB$SHF03COM\fR if you need to use a specific command line for Fortran 03 files\&. You should normally set the \fB$SHFORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP SHF03COMSTR .RS 4 The string displayed when a Fortran 03 source file is compiled to a shared\-library object file\&. If this is not set, then \fB$SHF03COM\fR or \fB$SHFORTRANCOM\fR (the command line) is displayed\&. .RE .PP SHF03FLAGS .RS 4 Options that are passed to the Fortran 03 compiler to generated shared\-library objects\&. You only need to set \fB$SHF03FLAGS\fR if you need to define specific user options for Fortran 03 files\&. You should normally set the \fB$SHFORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP SHF03PPCOM .RS 4 The command line used to compile a Fortran 03 source file to a shared\-library object file after first running the file through the C preprocessor\&. Any options specified in the \fB$SHF03FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$SHF03PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 03 files\&. You should normally set the \fB$SHFORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP SHF03PPCOMSTR .RS 4 The string displayed when a Fortran 03 source file is compiled to a shared\-library object file after first running the file through the C preprocessor\&. If this is not set, then \fB$SHF03PPCOM\fR or \fB$SHFORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP SHF08 .RS 4 The Fortran 08 compiler used for generating shared\-library objects\&. You should normally set the \fB$SHFORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$SHF08\fR if you need to use a specific compiler or compiler version for Fortran 08 files\&. .RE .PP SHF08COM .RS 4 The command line used to compile a Fortran 08 source file to a shared\-library object file\&. You only need to set \fB$SHF08COM\fR if you need to use a specific command line for Fortran 08 files\&. You should normally set the \fB$SHFORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP SHF08COMSTR .RS 4 The string displayed when a Fortran 08 source file is compiled to a shared\-library object file\&. If this is not set, then \fB$SHF08COM\fR or \fB$SHFORTRANCOM\fR (the command line) is displayed\&. .RE .PP SHF08FLAGS .RS 4 Options that are passed to the Fortran 08 compiler to generated shared\-library objects\&. You only need to set \fB$SHF08FLAGS\fR if you need to define specific user options for Fortran 08 files\&. You should normally set the \fB$SHFORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP SHF08PPCOM .RS 4 The command line used to compile a Fortran 08 source file to a shared\-library object file after first running the file through the C preprocessor\&. Any options specified in the \fB$SHF08FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$SHF08PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 08 files\&. You should normally set the \fB$SHFORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP SHF08PPCOMSTR .RS 4 The string displayed when a Fortran 08 source file is compiled to a shared\-library object file after first running the file through the C preprocessor\&. If this is not set, then \fB$SHF08PPCOM\fR or \fB$SHFORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP SHF77 .RS 4 The Fortran 77 compiler used for generating shared\-library objects\&. You should normally set the \fB$SHFORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$SHF77\fR if you need to use a specific compiler or compiler version for Fortran 77 files\&. .RE .PP SHF77COM .RS 4 The command line used to compile a Fortran 77 source file to a shared\-library object file\&. You only need to set \fB$SHF77COM\fR if you need to use a specific command line for Fortran 77 files\&. You should normally set the \fB$SHFORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP SHF77COMSTR .RS 4 The string displayed when a Fortran 77 source file is compiled to a shared\-library object file\&. If this is not set, then \fB$SHF77COM\fR or \fB$SHFORTRANCOM\fR (the command line) is displayed\&. .RE .PP SHF77FLAGS .RS 4 Options that are passed to the Fortran 77 compiler to generated shared\-library objects\&. You only need to set \fB$SHF77FLAGS\fR if you need to define specific user options for Fortran 77 files\&. You should normally set the \fB$SHFORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP SHF77PPCOM .RS 4 The command line used to compile a Fortran 77 source file to a shared\-library object file after first running the file through the C preprocessor\&. Any options specified in the \fB$SHF77FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$SHF77PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 77 files\&. You should normally set the \fB$SHFORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP SHF77PPCOMSTR .RS 4 The string displayed when a Fortran 77 source file is compiled to a shared\-library object file after first running the file through the C preprocessor\&. If this is not set, then \fB$SHF77PPCOM\fR or \fB$SHFORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP SHF90 .RS 4 The Fortran 90 compiler used for generating shared\-library objects\&. You should normally set the \fB$SHFORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$SHF90\fR if you need to use a specific compiler or compiler version for Fortran 90 files\&. .RE .PP SHF90COM .RS 4 The command line used to compile a Fortran 90 source file to a shared\-library object file\&. You only need to set \fB$SHF90COM\fR if you need to use a specific command line for Fortran 90 files\&. You should normally set the \fB$SHFORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP SHF90COMSTR .RS 4 The string displayed when a Fortran 90 source file is compiled to a shared\-library object file\&. If this is not set, then \fB$SHF90COM\fR or \fB$SHFORTRANCOM\fR (the command line) is displayed\&. .RE .PP SHF90FLAGS .RS 4 Options that are passed to the Fortran 90 compiler to generated shared\-library objects\&. You only need to set \fB$SHF90FLAGS\fR if you need to define specific user options for Fortran 90 files\&. You should normally set the \fB$SHFORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP SHF90PPCOM .RS 4 The command line used to compile a Fortran 90 source file to a shared\-library object file after first running the file through the C preprocessor\&. Any options specified in the \fB$SHF90FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$SHF90PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 90 files\&. You should normally set the \fB$SHFORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP SHF90PPCOMSTR .RS 4 The string displayed when a Fortran 90 source file is compiled to a shared\-library object file after first running the file through the C preprocessor\&. If this is not set, then \fB$SHF90PPCOM\fR or \fB$SHFORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP SHF95 .RS 4 The Fortran 95 compiler used for generating shared\-library objects\&. You should normally set the \fB$SHFORTRAN\fR variable, which specifies the default Fortran compiler for all Fortran versions\&. You only need to set \fB$SHF95\fR if you need to use a specific compiler or compiler version for Fortran 95 files\&. .RE .PP SHF95COM .RS 4 The command line used to compile a Fortran 95 source file to a shared\-library object file\&. You only need to set \fB$SHF95COM\fR if you need to use a specific command line for Fortran 95 files\&. You should normally set the \fB$SHFORTRANCOM\fR variable, which specifies the default command line for all Fortran versions\&. .RE .PP SHF95COMSTR .RS 4 The string displayed when a Fortran 95 source file is compiled to a shared\-library object file\&. If this is not set, then \fB$SHF95COM\fR or \fB$SHFORTRANCOM\fR (the command line) is displayed\&. .RE .PP SHF95FLAGS .RS 4 Options that are passed to the Fortran 95 compiler to generated shared\-library objects\&. You only need to set \fB$SHF95FLAGS\fR if you need to define specific user options for Fortran 95 files\&. You should normally set the \fB$SHFORTRANFLAGS\fR variable, which specifies the user\-specified options passed to the default Fortran compiler for all Fortran versions\&. .RE .PP SHF95PPCOM .RS 4 The command line used to compile a Fortran 95 source file to a shared\-library object file after first running the file through the C preprocessor\&. Any options specified in the \fB$SHF95FLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. You only need to set \fB$SHF95PPCOM\fR if you need to use a specific C\-preprocessor command line for Fortran 95 files\&. You should normally set the \fB$SHFORTRANPPCOM\fR variable, which specifies the default C\-preprocessor command line for all Fortran versions\&. .RE .PP SHF95PPCOMSTR .RS 4 The string displayed when a Fortran 95 source file is compiled to a shared\-library object file after first running the file through the C preprocessor\&. If this is not set, then \fB$SHF95PPCOM\fR or \fB$SHFORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP SHFORTRAN .RS 4 The default Fortran compiler used for generating shared\-library objects\&. .RE .PP SHFORTRANCOM .RS 4 The command line used to compile a Fortran source file to a shared\-library object file\&. .RE .PP SHFORTRANCOMSTR .RS 4 The string displayed when a Fortran source file is compiled to a shared\-library object file\&. If this is not set, then \fB$SHFORTRANCOM\fR (the command line) is displayed\&. .RE .PP SHFORTRANFLAGS .RS 4 Options that are passed to the Fortran compiler to generate shared\-library objects\&. .RE .PP SHFORTRANPPCOM .RS 4 The command line used to compile a Fortran source file to a shared\-library object file after first running the file through the C preprocessor\&. Any options specified in the \fB$SHFORTRANFLAGS\fR and \fB$CPPFLAGS\fR construction variables are included on this command line\&. .RE .PP SHFORTRANPPCOMSTR .RS 4 The string displayed when a Fortran source file is compiled to a shared\-library object file after first running the file through the C preprocessor\&. If this is not set, then \fB$SHFORTRANPPCOM\fR (the command line) is displayed\&. .RE .PP SHLIBEMITTER .RS 4 TODO .RE .PP SHLIBNOVERSIONSYMLINKS .RS 4 Instructs the \fBSharedLibrary\fR builder to not create symlinks for versioned shared libraries\&. .RE .PP SHLIBPREFIX .RS 4 The prefix used for shared library file names\&. .RE .PP _SHLIBSONAME .RS 4 A macro that automatically generates shared library\*(Aqs SONAME based on $TARGET, $SHLIBVERSION and $SHLIBSUFFIX\&. Used by \fBSharedLibrary\fR builder when the linker tool supports SONAME (e\&.g\&. gnulink)\&. .RE .PP SHLIBSUFFIX .RS 4 The suffix used for shared library file names\&. .RE .PP SHLIBVERSION .RS 4 When this construction variable is defined, a versioned shared library is created by \fBSharedLibrary\fR builder\&. This activates the \fB$_SHLIBVERSIONFLAGS\fR and thus modifies the \fB$SHLINKCOM\fR as required, adds the version number to the library name, and creates the symlinks that are needed\&. \fB$SHLIBVERSION\fR versions should exist as alpha\-numeric, decimal\-delimited values as defined by the regular expression "\ew+[\e\&.\ew+]*"\&. Example \fB$SHLIBVERSION\fR values include \*(Aq1\*(Aq, \*(Aq1\&.2\&.3\*(Aq, and \*(Aq1\&.2\&.gitaa412c8b\*(Aq\&. .RE .PP _SHLIBVERSIONFLAGS .RS 4 This macro automatically introduces extra flags to \fB$SHLINKCOM\fR when building versioned \fBSharedLibrary\fR (that is when \fB$SHLIBVERSION\fR is set)\&. _SHLIBVERSIONFLAGS usually adds \fB$SHLIBVERSIONFLAGS\fR and some extra dynamically generated options (such as \-Wl,\-soname=$_SHLIBSONAME\&. It is unused by "plain" (unversioned) shared libraries\&. .RE .PP SHLIBVERSIONFLAGS .RS 4 Extra flags added to \fB$SHLINKCOM\fR when building versioned \fBSharedLibrary\fR\&. These flags are only used when \fB$SHLIBVERSION\fR is set\&. .RE .PP SHLINK .RS 4 The linker for programs that use shared libraries\&. .RE .PP SHLINKCOM .RS 4 The command line used to link programs using shared libraries\&. .RE .PP SHLINKCOMSTR .RS 4 The string displayed when programs using shared libraries are linked\&. If this is not set, then \fB$SHLINKCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(SHLINKCOMSTR = "Linking shared $TARGET") .fi .if n \{\ .RE .\} .RE .PP SHLINKFLAGS .RS 4 General user options passed to the linker for programs using shared libraries\&. Note that this variable should \fInot\fR contain \fB\-l\fR (or similar) options for linking with the libraries listed in \fB$LIBS\fR, nor \fB\-L\fR (or similar) include search path options that scons generates automatically from \fB$LIBPATH\fR\&. See \fB$_LIBFLAGS\fR above, for the variable that expands to library\-link options, and \fB$_LIBDIRFLAGS\fR above, for the variable that expands to library search path options\&. .RE .PP SHOBJPREFIX .RS 4 The prefix used for shared object file names\&. .RE .PP SHOBJSUFFIX .RS 4 The suffix used for shared object file names\&. .RE .PP SONAME .RS 4 Variable used to hard\-code SONAME for versioned shared library/loadable module\&. .sp .if n \{\ .RS 4 .\} .nf env\&.SharedLibrary(\*(Aqtest\*(Aq, \*(Aqtest\&.c\*(Aq, SHLIBVERSION=\*(Aq0\&.1\&.2\*(Aq, SONAME=\*(Aqlibtest\&.so\&.2\*(Aq) .fi .if n \{\ .RE .\} .sp The variable is used, for example, by gnulink linker tool\&. .RE .PP SOURCE .RS 4 A reserved variable name that may not be set or used in a construction environment\&. (See "Variable Substitution," below\&.) .RE .PP SOURCE_URL .RS 4 The URL (web address) of the location from which the project was retrieved\&. This is used to fill in the Source: field in the controlling information for Ipkg and RPM packages\&. .RE .PP SOURCES .RS 4 A reserved variable name that may not be set or used in a construction environment\&. (See "Variable Substitution," below\&.) .RE .PP SPAWN .RS 4 A command interpreter function that will be called to execute command line strings\&. The function must expect the following arguments: .sp .if n \{\ .RS 4 .\} .nf def spawn(shell, escape, cmd, args, env): .fi .if n \{\ .RE .\} .sp \fIsh\fR is a string naming the shell program to use\&. \fIescape\fR is a function that can be called to escape shell special characters in the command line\&. \fIcmd\fR is the path to the command to be executed\&. \fIargs\fR is the arguments to the command\&. \fIenv\fR is a dictionary of the environment variables in which the command should be executed\&. .RE .PP STATIC_AND_SHARED_OBJECTS_ARE_THE_SAME .RS 4 When this variable is true, static objects and shared objects are assumed to be the same; that is, SCons does not check for linking static objects into a shared library\&. .RE .PP SUBST_DICT .RS 4 The dictionary used by the \fBSubstfile\fR or \fBTextfile\fR builders for substitution values\&. It can be anything acceptable to the dict() constructor, so in addition to a dictionary, lists of tuples are also acceptable\&. .RE .PP SUBSTFILEPREFIX .RS 4 The prefix used for \fBSubstfile\fR file names, the null string by default\&. .RE .PP SUBSTFILESUFFIX .RS 4 The suffix used for \fBSubstfile\fR file names, the null string by default\&. .RE .PP SUMMARY .RS 4 A short summary of what the project is about\&. This is used to fill in the Summary: field in the controlling information for Ipkg and RPM packages, and as the Description: field in MSI packages\&. .RE .PP SWIG .RS 4 The scripting language wrapper and interface generator\&. .RE .PP SWIGCFILESUFFIX .RS 4 The suffix that will be used for intermediate C source files generated by the scripting language wrapper and interface generator\&. The default value is _wrap\fB$CFILESUFFIX\fR\&. By default, this value is used whenever the \fB\-c++\fR option is \fInot\fR specified as part of the \fB$SWIGFLAGS\fR construction variable\&. .RE .PP SWIGCOM .RS 4 The command line used to call the scripting language wrapper and interface generator\&. .RE .PP SWIGCOMSTR .RS 4 The string displayed when calling the scripting language wrapper and interface generator\&. If this is not set, then \fB$SWIGCOM\fR (the command line) is displayed\&. .RE .PP SWIGCXXFILESUFFIX .RS 4 The suffix that will be used for intermediate C++ source files generated by the scripting language wrapper and interface generator\&. The default value is _wrap\fB$CFILESUFFIX\fR\&. By default, this value is used whenever the \-c++ option is specified as part of the \fB$SWIGFLAGS\fR construction variable\&. .RE .PP SWIGDIRECTORSUFFIX .RS 4 The suffix that will be used for intermediate C++ header files generated by the scripting language wrapper and interface generator\&. These are only generated for C++ code when the SWIG \*(Aqdirectors\*(Aq feature is turned on\&. The default value is _wrap\&.h\&. .RE .PP SWIGFLAGS .RS 4 General options passed to the scripting language wrapper and interface generator\&. This is where you should set \fB\-python\fR, \fB\-perl5\fR, \fB\-tcl\fR, or whatever other options you want to specify to SWIG\&. If you set the \fB\-c++\fR option in this variable, scons will, by default, generate a C++ intermediate source file with the extension that is specified as the \fB$CXXFILESUFFIX\fR variable\&. .RE .PP _SWIGINCFLAGS .RS 4 An automatically\-generated construction variable containing the SWIG command\-line options for specifying directories to be searched for included files\&. The value of \fB$_SWIGINCFLAGS\fR is created by appending \fB$SWIGINCPREFIX\fR and \fB$SWIGINCSUFFIX\fR to the beginning and end of each directory in \fB$SWIGPATH\fR\&. .RE .PP SWIGINCPREFIX .RS 4 The prefix used to specify an include directory on the SWIG command line\&. This will be appended to the beginning of each directory in the \fB$SWIGPATH\fR construction variable when the \fB$_SWIGINCFLAGS\fR variable is automatically generated\&. .RE .PP SWIGINCSUFFIX .RS 4 The suffix used to specify an include directory on the SWIG command line\&. This will be appended to the end of each directory in the \fB$SWIGPATH\fR construction variable when the \fB$_SWIGINCFLAGS\fR variable is automatically generated\&. .RE .PP SWIGOUTDIR .RS 4 Specifies the output directory in which the scripting language wrapper and interface generator should place generated language\-specific files\&. This will be used by SCons to identify the files that will be generated by the swig call, and translated into the swig \-outdir option on the command line\&. .RE .PP SWIGPATH .RS 4 The list of directories that the scripting language wrapper and interface generate will search for included files\&. The SWIG implicit dependency scanner will search these directories for include files\&. The default value is an empty list\&. .sp Don\*(Aqt explicitly put include directory arguments in SWIGFLAGS; the result will be non\-portable and the directories will not be searched by the dependency scanner\&. Note: directory names in SWIGPATH will be looked\-up relative to the SConscript directory when they are used in a command\&. To force scons to look\-up a directory relative to the root of the source tree use #: .sp .if n \{\ .RS 4 .\} .nf env = Environment(SWIGPATH=\*(Aq#/include\*(Aq) .fi .if n \{\ .RE .\} .sp The directory look\-up can also be forced using the \fBDir\fR() function: .sp .if n \{\ .RS 4 .\} .nf include = Dir(\*(Aqinclude\*(Aq) env = Environment(SWIGPATH=include) .fi .if n \{\ .RE .\} .sp The directory list will be added to command lines through the automatically\-generated \fB$_SWIGINCFLAGS\fR construction variable, which is constructed by appending the values of the \fB$SWIGINCPREFIX\fR and \fB$SWIGINCSUFFIX\fR construction variables to the beginning and end of each directory in \fB$SWIGPATH\fR\&. Any command lines you define that need the SWIGPATH directory list should include \fB$_SWIGINCFLAGS\fR: .sp .if n \{\ .RS 4 .\} .nf env = Environment(SWIGCOM="my_swig \-o $TARGET $_SWIGINCFLAGS $SOURCES") .fi .if n \{\ .RE .\} .RE .PP SWIGVERSION .RS 4 The version number of the SWIG tool\&. .RE .PP TAR .RS 4 The tar archiver\&. .RE .PP TARCOM .RS 4 The command line used to call the tar archiver\&. .RE .PP TARCOMSTR .RS 4 The string displayed when archiving files using the tar archiver\&. If this is not set, then \fB$TARCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(TARCOMSTR = "Archiving $TARGET") .fi .if n \{\ .RE .\} .RE .PP TARFLAGS .RS 4 General options passed to the tar archiver\&. .RE .PP TARGET .RS 4 A reserved variable name that may not be set or used in a construction environment\&. (See "Variable Substitution," below\&.) .RE .PP TARGET_ARCH .RS 4 The name of the target hardware architecture for the compiled objects created by this Environment\&. This defaults to the value of HOST_ARCH, and the user can override it\&. Currently only set for Win32\&. .sp Sets the target architecture for Visual Studio compiler (i\&.e\&. the arch of the binaries generated by the compiler)\&. If not set, default to \fB$HOST_ARCH\fR, or, if that is unset, to the architecture of the running machine\*(Aqs OS (note that the python build or architecture has no effect)\&. This variable must be passed as an argument to the Environment() constructor; setting it later has no effect\&. This is currently only used on Windows, but in the future it will be used on other OSes as well\&. .sp Valid values for Windows are x86, i386 (for 32 bits); amd64, emt64, x86_64 (for 64 bits); and ia64 (Itanium)\&. For example, if you want to compile 64\-bit binaries, you would set TARGET_ARCH=\*(Aqx86_64\*(Aq in your SCons environment\&. .RE .PP TARGET_OS .RS 4 The name of the target operating system for the compiled objects created by this Environment\&. This defaults to the value of HOST_OS, and the user can override it\&. Currently only set for Win32\&. .RE .PP TARGETS .RS 4 A reserved variable name that may not be set or used in a construction environment\&. (See "Variable Substitution," below\&.) .RE .PP TARSUFFIX .RS 4 The suffix used for tar file names\&. .RE .PP TEMPFILEPREFIX .RS 4 The prefix for a temporary file used to execute lines longer than $MAXLINELENGTH\&. The default is \*(Aq@\*(Aq\&. This may be set for toolchains that use other values, such as \*(Aq\-@\*(Aq for the diab compiler or \*(Aq\-via\*(Aq for ARM toolchain\&. .RE .PP TEX .RS 4 The TeX formatter and typesetter\&. .RE .PP TEXCOM .RS 4 The command line used to call the TeX formatter and typesetter\&. .RE .PP TEXCOMSTR .RS 4 The string displayed when calling the TeX formatter and typesetter\&. If this is not set, then \fB$TEXCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(TEXCOMSTR = "Building $TARGET from TeX input $SOURCES") .fi .if n \{\ .RE .\} .RE .PP TEXFLAGS .RS 4 General options passed to the TeX formatter and typesetter\&. .RE .PP TEXINPUTS .RS 4 List of directories that the LaTeX program will search for include directories\&. The LaTeX implicit dependency scanner will search these directories for \einclude and \eimport files\&. .RE .PP TEXTFILEPREFIX .RS 4 The prefix used for \fBTextfile\fR file names, the null string by default\&. .RE .PP TEXTFILESUFFIX .RS 4 The suffix used for \fBTextfile\fR file names; \&.txt by default\&. .RE .PP TOOLS .RS 4 A list of the names of the Tool specifications that are part of this construction environment\&. .RE .PP UNCHANGED_SOURCES .RS 4 A reserved variable name that may not be set or used in a construction environment\&. (See "Variable Substitution," below\&.) .RE .PP UNCHANGED_TARGETS .RS 4 A reserved variable name that may not be set or used in a construction environment\&. (See "Variable Substitution," below\&.) .RE .PP VENDOR .RS 4 The person or organization who supply the packaged software\&. This is used to fill in the Vendor: field in the controlling information for RPM packages, and the Manufacturer: field in the controlling information for MSI packages\&. .RE .PP VERSION .RS 4 The version of the project, specified as a string\&. .RE .PP WIN32_INSERT_DEF .RS 4 A deprecated synonym for \fB$WINDOWS_INSERT_DEF\fR\&. .RE .PP WIN32DEFPREFIX .RS 4 A deprecated synonym for \fB$WINDOWSDEFPREFIX\fR\&. .RE .PP WIN32DEFSUFFIX .RS 4 A deprecated synonym for \fB$WINDOWSDEFSUFFIX\fR\&. .RE .PP WIN32EXPPREFIX .RS 4 A deprecated synonym for \fB$WINDOWSEXPSUFFIX\fR\&. .RE .PP WIN32EXPSUFFIX .RS 4 A deprecated synonym for \fB$WINDOWSEXPSUFFIX\fR\&. .RE .PP WINDOWS_EMBED_MANIFEST .RS 4 Set this variable to True or 1 to embed the compiler\-generated manifest (normally ${TARGET}\&.manifest) into all Windows exes and DLLs built with this environment, as a resource during their link step\&. This is done using \fB$MT\fR and \fB$MTEXECOM\fR and \fB$MTSHLIBCOM\fR\&. .RE .PP WINDOWS_INSERT_DEF .RS 4 When this is set to true, a library build of a Windows shared library (\&.dll file) will also build a corresponding \&.def file at the same time, if a \&.def file is not already listed as a build target\&. The default is 0 (do not build a \&.def file)\&. .RE .PP WINDOWS_INSERT_MANIFEST .RS 4 When this is set to true, scons will be aware of the \&.manifest files generated by Microsoft Visua C/C++ 8\&. .RE .PP WINDOWSDEFPREFIX .RS 4 The prefix used for Windows \&.def file names\&. .RE .PP WINDOWSDEFSUFFIX .RS 4 The suffix used for Windows \&.def file names\&. .RE .PP WINDOWSEXPPREFIX .RS 4 The prefix used for Windows \&.exp file names\&. .RE .PP WINDOWSEXPSUFFIX .RS 4 The suffix used for Windows \&.exp file names\&. .RE .PP WINDOWSPROGMANIFESTPREFIX .RS 4 The prefix used for executable program \&.manifest files generated by Microsoft Visual C/C++\&. .RE .PP WINDOWSPROGMANIFESTSUFFIX .RS 4 The suffix used for executable program \&.manifest files generated by Microsoft Visual C/C++\&. .RE .PP WINDOWSSHLIBMANIFESTPREFIX .RS 4 The prefix used for shared library \&.manifest files generated by Microsoft Visual C/C++\&. .RE .PP WINDOWSSHLIBMANIFESTSUFFIX .RS 4 The suffix used for shared library \&.manifest files generated by Microsoft Visual C/C++\&. .RE .PP X_IPK_DEPENDS .RS 4 This is used to fill in the Depends: field in the controlling information for Ipkg packages\&. .RE .PP X_IPK_DESCRIPTION .RS 4 This is used to fill in the Description: field in the controlling information for Ipkg packages\&. The default value is $SUMMARY\en$DESCRIPTION .RE .PP X_IPK_MAINTAINER .RS 4 This is used to fill in the Maintainer: field in the controlling information for Ipkg packages\&. .RE .PP X_IPK_PRIORITY .RS 4 This is used to fill in the Priority: field in the controlling information for Ipkg packages\&. .RE .PP X_IPK_SECTION .RS 4 This is used to fill in the Section: field in the controlling information for Ipkg packages\&. .RE .PP X_MSI_LANGUAGE .RS 4 This is used to fill in the Language: attribute in the controlling information for MSI packages\&. .RE .PP X_MSI_LICENSE_TEXT .RS 4 The text of the software license in RTF format\&. Carriage return characters will be replaced with the RTF equivalent \e\epar\&. .RE .PP X_MSI_UPGRADE_CODE .RS 4 TODO .RE .PP X_RPM_AUTOREQPROV .RS 4 This is used to fill in the AutoReqProv: field in the RPM \&.spec file\&. .RE .PP X_RPM_BUILD .RS 4 internal, but overridable .RE .PP X_RPM_BUILDREQUIRES .RS 4 This is used to fill in the BuildRequires: field in the RPM \&.spec file\&. .RE .PP X_RPM_BUILDROOT .RS 4 internal, but overridable .RE .PP X_RPM_CLEAN .RS 4 internal, but overridable .RE .PP X_RPM_CONFLICTS .RS 4 This is used to fill in the Conflicts: field in the RPM \&.spec file\&. .RE .PP X_RPM_DEFATTR .RS 4 This value is used as the default attributes for the files in the RPM package\&. The default value is (\-,root,root)\&. .RE .PP X_RPM_DISTRIBUTION .RS 4 This is used to fill in the Distribution: field in the RPM \&.spec file\&. .RE .PP X_RPM_EPOCH .RS 4 This is used to fill in the Epoch: field in the controlling information for RPM packages\&. .RE .PP X_RPM_EXCLUDEARCH .RS 4 This is used to fill in the ExcludeArch: field in the RPM \&.spec file\&. .RE .PP X_RPM_EXLUSIVEARCH .RS 4 This is used to fill in the ExclusiveArch: field in the RPM \&.spec file\&. .RE .PP X_RPM_GROUP .RS 4 This is used to fill in the Group: field in the RPM \&.spec file\&. .RE .PP X_RPM_GROUP_lang .RS 4 This is used to fill in the Group(lang): field in the RPM \&.spec file\&. Note that \fIlang\fR is not literal and should be replaced by the appropriate language code\&. .RE .PP X_RPM_ICON .RS 4 This is used to fill in the Icon: field in the RPM \&.spec file\&. .RE .PP X_RPM_INSTALL .RS 4 internal, but overridable .RE .PP X_RPM_PACKAGER .RS 4 This is used to fill in the Packager: field in the RPM \&.spec file\&. .RE .PP X_RPM_POSTINSTALL .RS 4 This is used to fill in the %post: section in the RPM \&.spec file\&. .RE .PP X_RPM_POSTUNINSTALL .RS 4 This is used to fill in the %postun: section in the RPM \&.spec file\&. .RE .PP X_RPM_PREFIX .RS 4 This is used to fill in the Prefix: field in the RPM \&.spec file\&. .RE .PP X_RPM_PREINSTALL .RS 4 This is used to fill in the %pre: section in the RPM \&.spec file\&. .RE .PP X_RPM_PREP .RS 4 internal, but overridable .RE .PP X_RPM_PREUNINSTALL .RS 4 This is used to fill in the %preun: section in the RPM \&.spec file\&. .RE .PP X_RPM_PROVIDES .RS 4 This is used to fill in the Provides: field in the RPM \&.spec file\&. .RE .PP X_RPM_REQUIRES .RS 4 This is used to fill in the Requires: field in the RPM \&.spec file\&. .RE .PP X_RPM_SERIAL .RS 4 This is used to fill in the Serial: field in the RPM \&.spec file\&. .RE .PP X_RPM_URL .RS 4 This is used to fill in the Url: field in the RPM \&.spec file\&. .RE .PP XGETTEXT .RS 4 Path to \fBxgettext(1)\fR program (found via \fBDetect()\fR)\&. See xgettext tool and \fBPOTUpdate\fR builder\&. .RE .PP XGETTEXTCOM .RS 4 Complete xgettext command line\&. See xgettext tool and \fBPOTUpdate\fR builder\&. .RE .PP XGETTEXTCOMSTR .RS 4 A string that is shown when \fBxgettext(1)\fR command is invoked (default: \*(Aq\*(Aq, which means "print \fB$XGETTEXTCOM\fR")\&. See xgettext tool and \fBPOTUpdate\fR builder\&. .RE .PP _XGETTEXTDOMAIN .RS 4 Internal "macro"\&. Generates \fBxgettext\fR domain name form source and target (default: \*(Aq${TARGET\&.filebase}\*(Aq)\&. .RE .PP XGETTEXTFLAGS .RS 4 Additional flags to \fBxgettext(1)\fR\&. See xgettext tool and \fBPOTUpdate\fR builder\&. .RE .PP XGETTEXTFROM .RS 4 Name of file containing list of \fBxgettext(1)\fR\*(Aqs source files\&. Autotools\*(Aq users know this as POTFILES\&.in so they will in most cases set XGETTEXTFROM="POTFILES\&.in" here\&. The \fB$XGETTEXTFROM\fR files have same syntax and semantics as the well known GNU POTFILES\&.in\&. See xgettext tool and \fBPOTUpdate\fR builder\&. .RE .PP _XGETTEXTFROMFLAGS .RS 4 Internal "macro"\&. Genrates list of \-D flags from the \fB$XGETTEXTPATH\fR list\&. .RE .PP XGETTEXTFROMPREFIX .RS 4 This flag is used to add single \fB$XGETTEXTFROM\fR file to \fBxgettext(1)\fR\*(Aqs commandline (default: \*(Aq\-f\*(Aq)\&. .RE .PP XGETTEXTFROMSUFFIX .RS 4 (default: \*(Aq\*(Aq) .RE .PP XGETTEXTPATH .RS 4 List of directories, there \fBxgettext(1)\fR will look for source files (default: [])\&. .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBNote\fR .ps -1 .br This variable works only together with \fB$XGETTEXTFROM\fR .sp .5v .RE See also xgettext tool and \fBPOTUpdate\fR builder\&. .RE .PP _XGETTEXTPATHFLAGS .RS 4 Internal "macro"\&. Generates list of \-f flags from \fB$XGETTEXTFROM\fR\&. .RE .PP XGETTEXTPATHPREFIX .RS 4 This flag is used to add single search path to \fBxgettext(1)\fR\*(Aqs commandline (default: \*(Aq\-D\*(Aq)\&. .RE .PP XGETTEXTPATHSUFFIX .RS 4 (default: \*(Aq\*(Aq) .RE .PP YACC .RS 4 The parser generator\&. .RE .PP YACCCOM .RS 4 The command line used to call the parser generator to generate a source file\&. .RE .PP YACCCOMSTR .RS 4 The string displayed when generating a source file using the parser generator\&. If this is not set, then \fB$YACCCOM\fR (the command line) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(YACCCOMSTR = "Yacc\*(Aqing $TARGET from $SOURCES") .fi .if n \{\ .RE .\} .RE .PP YACCFLAGS .RS 4 General options passed to the parser generator\&. If \fB$YACCFLAGS\fR contains a \fB\-d\fR option, SCons assumes that the call will also create a \&.h file (if the yacc source file ends in a \&.y suffix) or a \&.hpp file (if the yacc source file ends in a \&.yy suffix) .RE .PP YACCHFILESUFFIX .RS 4 The suffix of the C header file generated by the parser generator when the \fB\-d\fR option is used\&. Note that setting this variable does not cause the parser generator to generate a header file with the specified suffix, it exists to allow you to specify what suffix the parser generator will use of its own accord\&. The default value is \&.h\&. .RE .PP YACCHXXFILESUFFIX .RS 4 The suffix of the C++ header file generated by the parser generator when the \fB\-d\fR option is used\&. Note that setting this variable does not cause the parser generator to generate a header file with the specified suffix, it exists to allow you to specify what suffix the parser generator will use of its own accord\&. The default value is \&.hpp, except on Mac OS X, where the default is ${TARGET\&.suffix}\&.h\&. because the default bison parser generator just appends \&.h to the name of the generated C++ file\&. .RE .PP YACCVCGFILESUFFIX .RS 4 The suffix of the file containing the VCG grammar automaton definition when the \fB\-\-graph=\fR option is used\&. Note that setting this variable does not cause the parser generator to generate a VCG file with the specified suffix, it exists to allow you to specify what suffix the parser generator will use of its own accord\&. The default value is \&.vcg\&. .RE .PP ZIP .RS 4 The zip compression and file packaging utility\&. .RE .PP ZIPCOM .RS 4 The command line used to call the zip utility, or the internal Python function used to create a zip archive\&. .RE .PP ZIPCOMPRESSION .RS 4 The \fIcompression\fR flag from the Python zipfile module used by the internal Python function to control whether the zip archive is compressed or not\&. The default value is zipfile\&.ZIP_DEFLATED, which creates a compressed zip archive\&. This value has no effect if the zipfile module is unavailable\&. .RE .PP ZIPCOMSTR .RS 4 The string displayed when archiving files using the zip utility\&. If this is not set, then \fB$ZIPCOM\fR (the command line or internal Python function) is displayed\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(ZIPCOMSTR = "Zipping $TARGET") .fi .if n \{\ .RE .\} .RE .PP ZIPFLAGS .RS 4 General options passed to the zip utility\&. .RE .PP ZIPROOT .RS 4 An optional zip root directory (default empty)\&. The filenames stored in the zip file will be relative to this directory, if given\&. Otherwise the filenames are relative to the current directory of the command\&. For instance: .sp .if n \{\ .RS 4 .\} .nf env = Environment() env\&.Zip(\*(Aqfoo\&.zip\*(Aq, \*(Aqsubdir1/subdir2/file1\*(Aq, ZIPROOT=\*(Aqsubdir1\*(Aq) .fi .if n \{\ .RE .\} .sp will produce a zip file foo\&.zip containing a file with the name subdir2/file1 rather than subdir1/subdir2/file1\&. .RE .PP ZIPSUFFIX .RS 4 The suffix used for zip file names\&. .RE .PP Construction variables can be retrieved and set using the \fBDictionary\fR method of the construction environment: .sp .if n \{\ .RS 4 .\} .nf dict = env\&.Dictionary() dict["CC"] = "cc" .fi .if n \{\ .RE .\} .PP or using the [] operator: .sp .if n \{\ .RS 4 .\} .nf env["CC"] = "cc" .fi .if n \{\ .RE .\} .PP Construction variables can also be passed to the construction environment constructor: .sp .if n \{\ .RS 4 .\} .nf env = Environment(CC="cc") .fi .if n \{\ .RE .\} .PP or when copying a construction environment using the \fBClone\fR method: .sp .if n \{\ .RS 4 .\} .nf env2 = env\&.Clone(CC="cl\&.exe") .fi .if n \{\ .RE .\} .SS "Configure Contexts" .PP \fBscons\fR supports \fIconfigure contexts,\fR an integrated mechanism similar to the various AC_CHECK macros in GNU autoconf for testing for the existence of C header files, libraries, etc\&. In contrast to autoconf, \fBscons\fR does not maintain an explicit cache of the tested values, but uses its normal dependency tracking to keep the checked values up to date\&. However, users may override this behaviour with the \fB\-\-config\fR command line option\&. .PP The following methods can be used to perform checks: .PP Configure(\fIenv\fR, [\fIcustom_tests\fR, \fIconf_dir\fR, \fIlog_file\fR, \fIconfig_h\fR, \fIclean\fR, \fIhelp])\fR, env\&.Configure([\fIcustom_tests\fR, \fIconf_dir\fR, \fIlog_file\fR, \fIconfig_h\fR, \fIclean\fR, \fIhelp])\fR .RS 4 This creates a configure context, which can be used to perform checks\&. \fIenv\fR specifies the environment for building the tests\&. This environment may be modified when performing checks\&. \fIcustom_tests\fR is a dictionary containing custom tests\&. See also the section about custom tests below\&. By default, no custom tests are added to the configure context\&. \fIconf_dir\fR specifies a directory where the test cases are built\&. Note that this directory is not used for building normal targets\&. The default value is the directory #/\&.sconf_temp\&. \fIlog_file\fR specifies a file which collects the output from commands that are executed to check for the existence of header files, libraries, etc\&. The default is the file #/config\&.log\&. If you are using the \fBVariantDir\fR() method, you may want to specify a subdirectory under your variant directory\&. \fIconfig_h\fR specifies a C header file where the results of tests will be written, e\&.g\&. #define HAVE_STDIO_H, #define HAVE_LIBM, etc\&. The default is to not write a \fBconfig\&.h\fR file\&. You can specify the same \fBconfig\&.h\fR file in multiple calls to Configure, in which case \fBscons\fR will concatenate all results in the specified file\&. Note that SCons uses its normal dependency checking to decide if it\*(Aqs necessary to rebuild the specified \fIconfig_h\fR file\&. This means that the file is not necessarily re\-built each time scons is run, but is only rebuilt if its contents will have changed and some target that depends on the \fIconfig_h\fR file is being built\&. .sp The optional \fBclean\fR and \fBhelp\fR arguments can be used to suppress execution of the configuration tests when the \fB\-c/\-\-clean\fR or \fB\-H/\-h/\-\-help\fR options are used, respectively\&. The default behavior is always to execute configure context tests, since the results of the tests may affect the list of targets to be cleaned or the help text\&. If the configure tests do not affect these, then you may add the \fBclean=False\fR or \fBhelp=False\fR arguments (or both) to avoid unnecessary test execution\&. .RE .PP A created \fBConfigure\fR instance has the following associated methods: .PP SConf\&.Finish(\fIcontext\fR), \fIsconf\fR\&.Finish() .RS 4 This method should be called after configuration is done\&. It returns the environment as modified by the configuration checks performed\&. After this method is called, no further checks can be performed with this configuration context\&. However, you can create a new Configure context to perform additional checks\&. Only one context should be active at a time\&. .sp The following Checks are predefined\&. (This list will likely grow larger as time goes by and developers contribute new useful tests\&.) .RE .PP SConf\&.CheckHeader(\fIcontext\fR, \fIheader\fR, [\fIinclude_quotes\fR, \fIlanguage\fR]), \fIsconf\fR\&.CheckHeader(\fIheader\fR, [\fIinclude_quotes\fR, \fIlanguage\fR]) .RS 4 Checks if \fIheader\fR is usable in the specified language\&. \fIheader\fR may be a list, in which case the last item in the list is the header file to be checked, and the previous list items are header files whose \fB#include\fR lines should precede the header line being checked for\&. The optional argument \fIinclude_quotes\fR must be a two character string, where the first character denotes the opening quote and the second character denotes the closing quote\&. By default, both characters are " (double quote)\&. The optional argument \fIlanguage\fR should be either \fBC\fR or \fBC++\fR and selects the compiler to be used for the check\&. Returns 1 on success and 0 on failure\&. .RE .PP SConf\&.CheckCHeader(\fIcontext\fR, \fIheader\fR, [\fIinclude_quotes\fR]), \fIsconf\fR\&.CheckCHeader(\fIheader\fR, [\fIinclude_quotes\fR]) .RS 4 This is a wrapper around \fBSConf\&.CheckHeader\fR which checks if \fIheader\fR is usable in the C language\&. \fIheader\fR may be a list, in which case the last item in the list is the header file to be checked, and the previous list items are header files whose \fB#include\fR lines should precede the header line being checked for\&. The optional argument \fIinclude_quotes\fR must be a two character string, where the first character denotes the opening quote and the second character denotes the closing quote (both default to \eN\*(Aq34\*(Aq)\&. Returns 1 on success and 0 on failure\&. .RE .PP SConf\&.CheckCXXHeader(\fIcontext\fR, \fIheader\fR, [\fIinclude_quotes\fR]), \fIsconf\fR\&.CheckCXXHeader(\fIheader\fR, [\fIinclude_quotes\fR]) .RS 4 This is a wrapper around \fBSConf\&.CheckHeader\fR which checks if \fIheader\fR is usable in the C++ language\&. \fIheader\fR may be a list, in which case the last item in the list is the header file to be checked, and the previous list items are header files whose \fB#include\fR lines should precede the header line being checked for\&. The optional argument \fIinclude_quotes\fR must be a two character string, where the first character denotes the opening quote and the second character denotes the closing quote (both default to \eN\*(Aq34\*(Aq)\&. Returns 1 on success and 0 on failure\&. .RE .PP SConf\&.CheckFunc(\fIcontext,\fR, \fIfunction_name\fR, [\fIheader\fR, \fIlanguage\fR]), \fIsconf\fR\&.CheckFunc(\fIfunction_name\fR, [\fIheader\fR, \fIlanguage\fR]) .RS 4 Checks if the specified C or C++ function is available\&. \fIfunction_name\fR is the name of the function to check for\&. The optional \fIheader\fR argument is a string that will be placed at the top of the test file that will be compiled to check if the function exists; the default is: .sp .if n \{\ .RS 4 .\} .nf #ifdef __cplusplus extern "C" #endif char function_name(); .fi .if n \{\ .RE .\} .sp The optional \fIlanguage\fR argument should be \fBC\fR or \fBC++\fR and selects the compiler to be used for the check; the default is "C"\&. .RE .PP SConf\&.CheckLib(\fIcontext\fR, [\fIlibrary\fR, \fIsymbol\fR, \fIheader\fR, \fIlanguage\fR, \fIautoadd=1\fR]), \fIsconf\fR\&.CheckLib([\fIlibrary\fR, \fIsymbol\fR, \fIheader\fR, \fIlanguage\fR, \fIautoadd=1\fR]) .RS 4 Checks if \fIlibrary\fR provides \fIsymbol\fR\&. If the value of \fIautoadd\fR is 1 and the library provides the specified \fIsymbol\fR, appends the library to the LIBS construction environment variable\&. \fIlibrary\fR may also be None (the default), in which case \fIsymbol\fR is checked with the current LIBS variable, or a list of library names, in which case each library in the list will be checked for \fIsymbol\fR\&. If \fIsymbol\fR is not set or is \fBNone\fR, then \fBSConf\&.CheckLib\fR() just checks if you can link against the specified \fIlibrary\fR\&. The optional \fIlanguage\fR argument should be \fBC\fR or \fBC++\fR and selects the compiler to be used for the check; the default is "C"\&. The default value for \fIautoadd\fR is 1\&. This method returns 1 on success and 0 on error\&. .RE .PP SConf\&.CheckLibWithHeader(\fIcontext\fR, \fIlibrary\fR, \fIheader\fR, \fIlanguage\fR, [\fIcall\fR, \fIautoadd\fR]), \fIsconf\fR\&.CheckLibWithHeader(\fIlibrary\fR, \fIheader\fR, \fIlanguage\fR, [\fIcall\fR, \fIautoadd\fR]) .RS 4 In contrast to the SConf\&.CheckLib call, this call provides a more sophisticated way to check against libraries\&. Again, \fIlibrary\fR specifies the library or a list of libraries to check\&. \fIheader\fR specifies a header to check for\&. \fIheader\fR may be a list, in which case the last item in the list is the header file to be checked, and the previous list items are header files whose \fB#include\fR lines should precede the header line being checked for\&. \fIlanguage\fR may be one of \*(AqC\*(Aq,\*(Aqc\*(Aq,\*(AqCXX\*(Aq,\*(Aqcxx\*(Aq,\*(AqC++\*(Aq and \*(Aqc++\*(Aq\&. \fIcall\fR can be any valid expression (with a trailing \*(Aq;\*(Aq)\&. If \fIcall\fR is not set, the default simply checks that you can link against the specified \fIlibrary\fR\&. \fIautoadd\fR specifies whether to add the library to the environment (only if the check succeeds)\&. This method returns 1 on success and 0 on error\&. .RE .PP SConf\&.CheckType(\fIcontext\fR, \fItype_name\fR, [\fIincludes\fR, \fIlanguage\fR]), \fIsconf\fR\&.CheckType(\fItype_name\fR, [\fIincludes\fR, \fIlanguage\fR]) .RS 4 Checks for the existence of a type defined by \fBtypedef\fR\&. \fItype_name\fR specifies the typedef name to check for\&. \fIincludes\fR is a string containing one or more \fB#include\fR lines that will be inserted into the program that will be run to test for the existence of the type\&. The optional \fIlanguage\fR argument should be \fBC\fR or \fBC++\fR and selects the compiler to be used for the check; the default is "C"\&. Example: .sp .if n \{\ .RS 4 .\} .nf sconf\&.CheckType(\*(Aqfoo_type\*(Aq, \*(Aq#include "my_types\&.h"\*(Aq, \*(AqC++\*(Aq) .fi .if n \{\ .RE .\} .RE .PP Configure\&.CheckCC(\fIself\fR) .RS 4 Checks whether the C compiler (as defined by the CC construction variable) works by trying to compile a small source file\&. .sp By default, SCons only detects if there is a program with the correct name, not if it is a functioning compiler\&. .sp This uses the exact same command than the one used by the object builder for C source file, so it can be used to detect if a particular compiler flag works or not\&. .RE .PP Configure\&.CheckCXX(\fIself\fR) .RS 4 Checks whether the C++ compiler (as defined by the CXX construction variable) works by trying to compile a small source file\&. By default, SCons only detects if there is a program with the correct name, not if it is a functioning compiler\&. .sp This uses the exact same command than the one used by the object builder for CXX source files, so it can be used to detect if a particular compiler flag works or not\&. .RE .PP Configure\&.CheckSHCC(\fIself\fR) .RS 4 Checks whether the C compiler (as defined by the SHCC construction variable) works by trying to compile a small source file\&. By default, SCons only detects if there is a program with the correct name, not if it is a functioning compiler\&. .sp This uses the exact same command than the one used by the object builder for C source file, so it can be used to detect if a particular compiler flag works or not\&. This does not check whether the object code can be used to build a shared library, only that the compilation (not link) succeeds\&. .RE .PP Configure\&.CheckSHCXX(\fIself\fR) .RS 4 Checks whether the C++ compiler (as defined by the SHCXX construction variable) works by trying to compile a small source file\&. By default, SCons only detects if there is a program with the correct name, not if it is a functioning compiler\&. .sp This uses the exact same command than the one used by the object builder for CXX source files, so it can be used to detect if a particular compiler flag works or not\&. This does not check whether the object code can be used to build a shared library, only that the compilation (not link) succeeds\&. .RE .PP Example of a typical Configure usage: .sp .if n \{\ .RS 4 .\} .nf env = Environment() conf = Configure( env ) if not conf\&.CheckCHeader( \*(Aqmath\&.h\*(Aq ): print(\*(AqWe really need math\&.h!\*(Aq) Exit(1) if conf\&.CheckLibWithHeader( \*(Aqqt\*(Aq, \*(Aqqapp\&.h\*(Aq, \*(Aqc++\*(Aq, \*(AqQApplication qapp(0,0);\*(Aq ): # do stuff for qt \- usage, e\&.g\&. conf\&.env\&.Append( CPPFLAGS = \*(Aq\-DWITH_QT\*(Aq ) env = conf\&.Finish() .fi .if n \{\ .RE .\} .PP SConf\&.CheckTypeSize(\fIcontext\fR, \fItype_name\fR, [\fIheader\fR, \fIlanguage\fR, \fIexpect\fR]), \fIsconf\fR\&.CheckTypeSize(\fItype_name\fR, [\fIheader\fR, \fIlanguage\fR, \fIexpect\fR]) .RS 4 Checks for the size of a type defined by \fBtypedef\fR\&. \fItype_name\fR specifies the typedef name to check for\&. The optional \fIheader\fR argument is a string that will be placed at the top of the test file that will be compiled to check if the function exists; the default is empty\&. The optional \fIlanguage\fR argument should be \fBC\fR or \fBC++\fR and selects the compiler to be used for the check; the default is "C"\&. The optional \fIexpect\fR argument should be an integer\&. If this argument is used, the function will only check whether the type given in type_name has the expected size (in bytes)\&. For example, \fBCheckTypeSize(\*(Aqshort\*(Aq, expect = 2)\fR will return success only if short is two bytes\&. .sp .if n \{\ .RS 4 .\} .nf .fi .if n \{\ .RE .\} .RE .PP SConf\&.CheckDeclaration(\fIcontext\fR, \fIsymbol\fR, [\fIincludes\fR, \fIlanguage\fR]), \fIsconf\fR\&.CheckDeclaration(\fIsymbol\fR, [\fIincludes\fR, \fIlanguage\fR]) .RS 4 Checks if the specified \fIsymbol\fR is declared\&. \fIincludes\fR is a string containing one or more \fB#include\fR lines that will be inserted into the program that will be run to test for the existence of the type\&. The optional \fIlanguage\fR argument should be \fBC\fR or \fBC++\fR and selects the compiler to be used for the check; the default is "C"\&. .RE .PP SConf\&.Define(\fIcontext\fR, \fIsymbol\fR, [\fIvalue\fR, \fIcomment\fR]), \fIsconf\fR\&.Define(\fIsymbol\fR, [\fIvalue\fR, \fIcomment\fR]) .RS 4 This function does not check for anything, but defines a preprocessor symbol that will be added to the configuration header file\&. It is the equivalent of AC_DEFINE, and defines the symbol \fIname\fR with the optional \fBvalue\fR and the optional comment \fBcomment\fR\&. .RE .PP Examples: .sp .if n \{\ .RS 4 .\} .nf env = Environment() conf = Configure( env ) # Puts the following line in the config header file: # #define A_SYMBOL conf\&.Define(\*(AqA_SYMBOL\*(Aq) # Puts the following line in the config header file: # #define A_SYMBOL 1 conf\&.Define(\*(AqA_SYMBOL\*(Aq, 1) .fi .if n \{\ .RE .\} .PP Be careful about quoting string values, though: .sp .if n \{\ .RS 4 .\} .nf env = Environment() conf = Configure( env ) # Puts the following line in the config header file: # #define A_SYMBOL YA conf\&.Define(\*(AqA_SYMBOL\*(Aq, "YA") # Puts the following line in the config header file: # #define A_SYMBOL "YA" conf\&.Define(\*(AqA_SYMBOL\*(Aq, \*(Aq"YA"\*(Aq) .fi .if n \{\ .RE .\} .PP For comment: .sp .if n \{\ .RS 4 .\} .nf env = Environment() conf = Configure( env ) # Puts the following lines in the config header file: # /* Set to 1 if you have a symbol */ # #define A_SYMBOL 1 conf\&.Define(\*(AqA_SYMBOL\*(Aq, 1, \*(AqSet to 1 if you have a symbol\*(Aq) .fi .if n \{\ .RE .\} .PP You can define your own custom checks\&. in addition to the predefined checks\&. These are passed in a dictionary to the Configure function\&. This dictionary maps the names of the checks to user defined Python callables (either Python functions or class instances implementing the \fI__call__\fR method)\&. The first argument of the call is always a \fICheckContext\fR instance followed by the arguments, which must be supplied by the user of the check\&. These CheckContext instances define the following methods: .PP CheckContext\&.Message(\fIself\fR, \fItext\fR) .RS 4 Usually called before the check is started\&. \fItext\fR will be displayed to the user, e\&.g\&. \*(AqChecking for library X\&.\&.\&.\*(Aq .RE .PP CheckContext\&.Result(\fIself,\fR, \fIres\fR) .RS 4 Usually called after the check is done\&. \fIres\fR can be either an integer or a string\&. In the former case, \*(Aqyes\*(Aq (res != 0) or \*(Aqno\*(Aq (res == 0) is displayed to the user, in the latter case the given string is displayed\&. .RE .PP CheckContext\&.TryCompile(\fIself\fR, \fItext\fR, \fIextension\fR) .RS 4 Checks if a file with the specified \fIextension\fR (e\&.g\&. \*(Aq\&.c\*(Aq) containing \fItext\fR can be compiled using the environment\*(Aqs \fBObject\fR builder\&. Returns 1 on success and 0 on failure\&. .RE .PP CheckContext\&.TryLink(\fIself\fR, \fItext\fR, \fIextension\fR) .RS 4 Checks, if a file with the specified \fIextension\fR (e\&.g\&. \*(Aq\&.c\*(Aq) containing \fItext\fR can be compiled using the environment\*(Aqs \fBProgram\fR builder\&. Returns 1 on success and 0 on failure\&. .RE .PP CheckContext\&.TryRun(\fIself\fR, \fItext\fR, \fIextension\fR) .RS 4 Checks, if a file with the specified \fIextension\fR (e\&.g\&. \*(Aq\&.c\*(Aq) containing \fItext\fR can be compiled using the environment\*(Aqs \fBProgram\fR builder\&. On success, the program is run\&. If the program executes successfully (that is, its return status is 0), a tuple \fI(1, outputStr)\fR is returned, where \fIoutputStr\fR is the standard output of the program\&. If the program fails execution (its return status is non\-zero), then (0, \*(Aq\*(Aq) is returned\&. .RE .PP CheckContext\&.TryAction(\fIself\fR, \fIaction\fR, [\fItext\fR, \fIextension\fR]) .RS 4 Checks if the specified \fIaction\fR with an optional source file (contents \fItext\fR , extension \fIextension\fR = \*(Aq\*(Aq ) can be executed\&. \fIaction\fR may be anything which can be converted to a \fBscons\fR Action\&. On success, \fI(1, outputStr)\fR is returned, where \fIoutputStr\fR is the content of the target file\&. On failure \fI(0, \*(Aq\*(Aq)\fR is returned\&. .RE .PP CheckContext\&.TryBuild(\fIself\fR, \fIbuilder\fR, [\fItext\fR, \fIextension\fR]) .RS 4 Low level implementation for testing specific builds; the methods above are based on this method\&. Given the Builder instance \fIbuilder\fR and the optional \fItext\fR of a source file with optional \fIextension\fR, this method returns 1 on success and 0 on failure\&. In addition, \fIself\&.lastTarget\fR is set to the build target node, if the build was successful\&. .RE .PP Example for implementing and using custom tests: .sp .if n \{\ .RS 4 .\} .nf def CheckQt(context, qtdir): context\&.Message( \*(AqChecking for qt \&.\&.\&.\*(Aq ) lastLIBS = context\&.env[\*(AqLIBS\*(Aq] lastLIBPATH = context\&.env[\*(AqLIBPATH\*(Aq] lastCPPPATH= context\&.env[\*(AqCPPPATH\*(Aq] context\&.env\&.Append(LIBS = \*(Aqqt\*(Aq, LIBPATH = qtdir + \*(Aq/lib\*(Aq, CPPPATH = qtdir + \*(Aq/include\*(Aq ) ret = context\&.TryLink(""" #include int main(int argc, char **argv) { QApplication qapp(argc, argv); return 0; } """) if not ret: context\&.env\&.Replace(LIBS = lastLIBS, LIBPATH=lastLIBPATH, CPPPATH=lastCPPPATH) context\&.Result( ret ) return ret env = Environment() conf = Configure( env, custom_tests = { \*(AqCheckQt\*(Aq : CheckQt } ) if not conf\&.CheckQt(\*(Aq/usr/lib/qt\*(Aq): print(\*(AqWe really need qt!\*(Aq) Exit(1) env = conf\&.Finish() .fi .if n \{\ .RE .\} .SS "Command\-Line Construction Variables" .PP Often when building software, some variables must be specified at build time\&. For example, libraries needed for the build may be in non\-standard locations, or site\-specific compiler options may need to be passed to the compiler\&. \fBscons\fR provides a \fBVariables\fR object to support overriding construction variables on the command line: .sp .if n \{\ .RS 4 .\} .nf $ scons VARIABLE=foo .fi .if n \{\ .RE .\} .PP The variable values can also be specified in a text\-based SConscript file\&. To create a Variables object, call the Variables() function: .PP Variables([\fIfiles\fR], [\fIargs\fR]) .RS 4 This creates a Variables object that will read construction variables from the file or list of filenames specified in \fIfiles\fR\&. If no files are specified, or the \fIfiles\fR argument is \fBNone\fR, then no files will be read\&. The optional argument \fIargs\fR is a dictionary of values that will override anything read from the specified files; it is primarily intended to be passed the \fBARGUMENTS\fR dictionary that holds variables specified on the command line\&. Example: .sp .if n \{\ .RS 4 .\} .nf vars = Variables(\*(Aqcustom\&.py\*(Aq) vars = Variables(\*(Aqoverrides\&.py\*(Aq, ARGUMENTS) vars = Variables(None, {FOO:\*(Aqexpansion\*(Aq, BAR:7}) .fi .if n \{\ .RE .\} .sp Variables objects have the following methods: .RE .PP Add(\fIkey\fR, [\fIhelp\fR, \fIdefault\fR, \fIvalidator\fR, \fIconverter\fR]) .RS 4 This adds a customizable construction variable to the Variables object\&. \fIkey\fR is the name of the variable\&. \fIhelp\fR is the help text for the variable\&. \fIdefault\fR is the default value of the variable; if the default value is \fBNone\fR and there is no explicit value specified, the construction variable will \fInot\fR be added to the construction environment\&. \fIvalidator\fR is called to validate the value of the variable, and should take three arguments: key, value, and environment\&. The recommended way to handle an invalid value is to raise an exception (see example below)\&. \fIconverter\fR is called to convert the value before putting it in the environment, and should take either a value, or the value and environment, as parameters\&. The \fIconverter\fR must return a value, which will be converted into a string before being validated by the \fIvalidator\fR (if any) and then added to the environment\&. .sp Examples: .sp .if n \{\ .RS 4 .\} .nf vars\&.Add(\*(AqCC\*(Aq, \*(AqThe C compiler\*(Aq) def validate_color(key, val, env): if not val in [\*(Aqred\*(Aq, \*(Aqblue\*(Aq, \*(Aqyellow\*(Aq]: raise Exception("Invalid color value \*(Aq%s\*(Aq" % val) vars\&.Add(\*(AqCOLOR\*(Aq, validator=valid_color) .fi .if n \{\ .RE .\} .RE .PP AddVariables(\fIlist\fR) .RS 4 A wrapper script that adds multiple customizable construction variables to a Variables object\&. \fIlist\fR is a list of tuple or list objects that contain the arguments for an individual call to the \fBAdd\fR method\&. .sp .if n \{\ .RS 4 .\} .nf opt\&.AddVariables( (\*(Aqdebug\*(Aq, \*(Aq\*(Aq, 0), (\*(AqCC\*(Aq, \*(AqThe C compiler\*(Aq), (\*(AqVALIDATE\*(Aq, \*(AqAn option for testing validation\*(Aq, \*(Aqnotset\*(Aq, validator, None), ) .fi .if n \{\ .RE .\} .RE .PP Update(\fIenv\fR, [\fIargs\fR]) .RS 4 This updates a construction environment \fIenv\fR with the customized construction variables\&. Any specified variables that are \fInot\fR configured for the Variables object will be saved and may be retrieved with the \fBUnknownVariables\fR() method, below\&. .sp Normally this method is not called directly, but is called indirectly by passing the Variables object to the Environment() function: .sp .if n \{\ .RS 4 .\} .nf env = Environment(variables=vars) .fi .if n \{\ .RE .\} .RE .PP The text file(s) that were specified when the Variables object was created are executed as Python scripts, and the values of (global) Python variables set in the file are added to the construction environment\&. .PP Example: .sp .if n \{\ .RS 4 .\} .nf CC = \*(Aqmy_cc\*(Aq .fi .if n \{\ .RE .\} .PP UnknownVariables(\fI)\fR .RS 4 Returns a dictionary containing any variables that were specified either in the files or the dictionary with which the Variables object was initialized, but for which the Variables object was not configured\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(variables=vars) for key, value in vars\&.UnknownVariables(): print("unknown variable: %s=%s" % (key, value)) .fi .if n \{\ .RE .\} .RE .PP Save(\fIfilename\fR, \fIenv\fR) .RS 4 This saves the currently set variables into a script file named \fIfilename\fR that can be used on the next invocation to automatically load the current settings\&. This method combined with the Variables method can be used to support caching of variables between runs\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment() vars = Variables([\*(Aqvariables\&.cache\*(Aq, \*(Aqcustom\&.py\*(Aq]) vars\&.Add(\&.\&.\&.) vars\&.Update(env) vars\&.Save(\*(Aqvariables\&.cache\*(Aq, env) .fi .if n \{\ .RE .\} .RE .PP GenerateHelpText(\fIenv\fR, [\fIsort\fR]) .RS 4 This generates help text documenting the customizable construction variables suitable to passing in to the Help() function\&. \fIenv\fR is the construction environment that will be used to get the actual values of customizable variables\&. Calling with an optional \fIsort\fR function will cause the output to be sorted by the specified argument\&. The specific \fIsort\fR function should take two arguments and return \-1, 0 or 1 (like the standard Python \fIcmp\fR function)\&. Optionally a Boolean value of True for \fIsort\fR will cause a standard alphabetical sort to be performed .sp .if n \{\ .RS 4 .\} .nf Help(vars\&.GenerateHelpText(env)) Help(vars\&.GenerateHelpText(env, sort=cmp)) .fi .if n \{\ .RE .\} .RE .PP FormatVariableHelpText(\fIenv\fR, \fIopt\fR, \fIhelp\fR, \fIdefault\fR, \fIactual\fR) .RS 4 This method returns a formatted string containing the printable help text for one option\&. It is normally not called directly, but is called by the \fIGenerateHelpText\fR() method to create the returned help text\&. It may be overridden with your own function that takes the arguments specified above and returns a string of help text formatted to your liking\&. Note that the \fIGenerateHelpText\fR() will not put any blank lines or extra characters in between the entries, so you must add those characters to the returned string if you want the entries separated\&. .sp .if n \{\ .RS 4 .\} .nf def my_format(env, opt, help, default, actual): fmt = "\en%s: default=%s actual=%s (%s)\en" return fmt % (opt, default\&. actual, help) vars\&.FormatVariableHelpText = my_format .fi .if n \{\ .RE .\} .sp To make it more convenient to work with customizable Variables, \fBscons\fR provides a number of functions that make it easy to set up various types of Variables: .RE .PP BoolVariable(\fIkey\fR, \fIhelp\fR, \fIdefault\fR) .RS 4 Return a tuple of arguments to set up a Boolean option\&. The option will use the specified name \fIkey\fR, have a default value of \fIdefault\fR, and display the specified \fIhelp\fR text\&. The option will interpret the values \fBy\fR, \fByes\fR, \fBt\fR, \fBtrue\fR, 1, \fBon\fR and \fBall\fR as true, and the values \fBn\fR, \fBno\fR, \fBf\fR, \fBfalse\fR, 0, \fBoff\fR and \fBnone\fR as false\&. .RE .PP EnumVariable(\fIkey\fR, \fIhelp\fR, \fIdefault\fR, \fIallowed_values\fR, [\fImap\fR, \fIignorecase\fR]) .RS 4 Return a tuple of arguments to set up an option whose value may be one of a specified list of legal enumerated values\&. The option will use the specified name \fIkey\fR, have a default value of \fIdefault\fR, and display the specified \fIhelp\fR text\&. The option will only support those values in the \fIallowed_values\fR list\&. The optional \fImap\fR argument is a dictionary that can be used to convert input values into specific legal values in the \fIallowed_values\fR list\&. If the value of \fIignore_case\fR is 0 (the default), then the values are case\-sensitive\&. If the value of \fIignore_case\fR is 1, then values will be matched case\-insensitive\&. If the value of \fIignore_case\fR is 2, then values will be matched case\-insensitive, and all input values will be converted to lower case\&. .RE .PP ListVariable(\fIkey\fR, \fIhelp\fR, \fIdefault\fR, \fInames\fR, [\fI,\fRmap\fI])\fR .RS 4 Return a tuple of arguments to set up an option whose value may be one or more of a specified list of legal enumerated values\&. The option will use the specified name \fIkey\fR, have a default value of \fIdefault\fR, and display the specified \fIhelp\fR text\&. The option will only support the values \fBall\fR, \fBnone\fR, or the values in the \fInames\fR list\&. More than one value may be specified, with all values separated by commas\&. The default may be a string of comma\-separated default values, or a list of the default values\&. The optional \fImap\fR argument is a dictionary that can be used to convert input values into specific legal values in the \fInames\fR list\&. .RE .PP PackageVariable(\fIkey\fR, \fIhelp\fR, \fIdefault\fR) .RS 4 Return a tuple of arguments to set up an option whose value is a path name of a package that may be enabled, disabled or given an explicit path name\&. The option will use the specified name \fIkey\fR, have a default value of \fIdefault\fR, and display the specified \fIhelp\fR text\&. The option will support the values \fByes\fR, \fBtrue\fR, \fBon\fR, \fBenable\fR or \fBsearch\fR, in which case the specified \fIdefault\fR will be used, or the option may be set to an arbitrary string (typically the path name to a package that is being enabled)\&. The option will also support the values \fBno\fR, \fBfalse\fR, \fBoff\fR or \fBdisable\fR to disable use of the specified option\&. .RE .PP PathVariable(\fIkey\fR, \fIhelp\fR, \fIdefault\fR, [\fIvalidator\fR]) .RS 4 Return a tuple of arguments to set up an option whose value is expected to be a path name\&. The option will use the specified name \fIkey\fR, have a default value of \fIdefault\fR, and display the specified \fIhelp\fR text\&. An additional \fIvalidator\fR may be specified that will be called to verify that the specified path is acceptable\&. SCons supplies the following ready\-made validators: \fBPathVariable\&.PathExists\fR (the default), which verifies that the specified path exists; \fBPathVariable\&.PathIsFile\fR, which verifies that the specified path is an existing file; \fBPathVariable\&.PathIsDir\fR, which verifies that the specified path is an existing directory; \fBPathVariable\&.PathIsDirCreate\fR, which verifies that the specified path is a directory and will create the specified directory if the path does not exist; and \fBPathVariable\&.PathAccept\fR, which simply accepts the specific path name argument without validation, and which is suitable if you want your users to be able to specify a directory path that will be created as part of the build process, for example\&. You may supply your own \fIvalidator\fR function, which must take three arguments (\fIkey\fR, the name of the variable to be set; \fIval\fR, the specified value being checked; and \fIenv\fR, the construction environment) and should raise an exception if the specified value is not acceptable\&. .RE .PP These functions make it convenient to create a number of variables with consistent behavior in a single call to the \fBAddVariables\fR method: .sp .if n \{\ .RS 4 .\} .nf vars\&.AddVariables( BoolVariable(\*(Aqwarnings\*(Aq, \*(Aqcompilation with \-Wall and similiar\*(Aq, 1), EnumVariable(\*(Aqdebug\*(Aq, \*(Aqdebug output and symbols\*(Aq, \*(Aqno\*(Aq allowed_values=(\*(Aqyes\*(Aq, \*(Aqno\*(Aq, \*(Aqfull\*(Aq), map={}, ignorecase=0), # case sensitive ListVariable(\*(Aqshared\*(Aq, \*(Aqlibraries to build as shared libraries\*(Aq, \*(Aqall\*(Aq, names = list_of_libs), PackageVariable(\*(Aqx11\*(Aq, \*(Aquse X11 installed here (yes = search some places)\*(Aq, \*(Aqyes\*(Aq), PathVariable(\*(Aqqtdir\*(Aq, \*(Aqwhere the root of Qt is installed\*(Aq, qtdir), PathVariable(\*(Aqfoopath\*(Aq, \*(Aqwhere the foo library is installed\*(Aq, foopath, PathVariable\&.PathIsDir), ) .fi .if n \{\ .RE .\} .SS "File and Directory Nodes" .PP The \fIFile\fR() and \fIDir\fR() functions return \fIFile\fR and \fIDir\fR Nodes, respectively\&. python objects, respectively\&. Those objects have several user\-visible attributes and methods that are often useful: .PP path .RS 4 The build path of the given file or directory\&. This path is relative to the top\-level directory (where the \fBSConstruct\fR file is found)\&. The build path is the same as the source path if \fIvariant_dir\fR is not being used\&. .RE .PP abspath .RS 4 The absolute build path of the given file or directory\&. .RE .PP srcnode() .RS 4 The \fIsrcnode\fR() method returns another \fIFile\fR or \fIDir\fR object representing the \fIsource\fR path of the given \fIFile\fR or \fIDir\fR\&. The .sp .if n \{\ .RS 4 .\} .nf # Get the current build dir\*(Aqs path, relative to top\&. Dir(\*(Aq\&.\*(Aq)\&.path # Current dir\*(Aqs absolute path Dir(\*(Aq\&.\*(Aq)\&.abspath # Next line is always \*(Aq\&.\*(Aq, because it is the top dir\*(Aqs path relative to itself\&. Dir(\*(Aq#\&.\*(Aq)\&.path File(\*(Aqfoo\&.c\*(Aq)\&.srcnode()\&.path # source path of the given source file\&. # Builders also return File objects: foo = env\&.Program(\*(Aqfoo\&.c\*(Aq) print("foo will be built in %s"%foo\&.path) .fi .if n \{\ .RE .\} .sp A \fIDir\fR Node or \fIFile\fR Node can also be used to create file and subdirectory Nodes relative to the generating Node\&. A \fIDir\fR Node will place the new Nodes within the directory it represents\&. A \fIFile\fR node will place the new Nodes within its parent directory (that is, "beside" the file in question)\&. If \fId\fR is a \fIDir\fR (directory) Node and \fIf\fR is a \fIFile\fR (file) Node, then these methods are available: .RE .PP \fId\fR\&.Dir(\fIname\fR) .RS 4 Returns a directory Node for a subdirectory of \fId\fR named \fIname\fR\&. .RE .PP \fId\fR\&.File(\fIname\fR) .RS 4 Returns a file Node for a file within \fId\fR named \fIname\fR\&. .RE .PP \fId\fR\&.Entry(\fIname\fR) .RS 4 Returns an unresolved Node within \fId\fR named \fIname\fR\&. .RE .PP \fIf\fR\&.Dir(\fIname\fR) .RS 4 Returns a directory named \fIname\fR within the parent directory of \fIf\fR\&. .RE .PP \fIf\fR\&.File(\fIname\fR) .RS 4 Returns a file named \fIname\fR within the parent directory of \fIf\fR\&. .RE .PP \fIf\fR\&.Entry(\fIname\fR) .RS 4 Returns an unresolved Node named \fIname\fR within the parent directory of \fIf\fR\&. .RE .PP For example: .sp .if n \{\ .RS 4 .\} .nf # Get a Node for a file within a directory incl = Dir(\*(Aqinclude\*(Aq) f = incl\&.File(\*(Aqheader\&.h\*(Aq) # Get a Node for a subdirectory within a directory dist = Dir(\*(Aqproject\-3\&.2\&.1) src = dist\&.Dir(\*(Aqsrc\*(Aq) # Get a Node for a file in the same directory cfile = File(\*(Aqsample\&.c\*(Aq) hfile = cfile\&.File(\*(Aqsample\&.h\*(Aq) # Combined example docs = Dir(\*(Aqdocs\*(Aq) html = docs\&.Dir(\*(Aqhtml\*(Aq) index = html\&.File(\*(Aqindex\&.html\*(Aq) css = index\&.File(\*(Aqapp\&.css\*(Aq) .fi .if n \{\ .RE .\} .SH "EXTENDING SCONS" .SS "Builder Objects" .PP \fBscons\fR can be extended to build different types of targets by adding new Builder objects to a construction environment\&. \fIIn general\fR, you should only need to add a new Builder object when you want to build a new type of file or other external target\&. If you just want to invoke a different compiler or other tool to build a Program, Object, Library, or any other type of output file for which \fBscons\fR already has an existing Builder, it is generally much easier to use those existing Builders in a construction environment that sets the appropriate construction variables (CC, LINK, etc\&.)\&. .PP Builder objects are created using the \fBBuilder\fR function\&. The \fBBuilder\fR function accepts the following arguments: .PP action .RS 4 The command line string used to build the target from the source\&. \fBaction\fR can also be: a list of strings representing the command to be executed and its arguments (suitable for enclosing white space in an argument), a dictionary mapping source file name suffixes to any combination of command line strings (if the builder should accept multiple source file extensions), a Python function; an Action object (see the next section); or a list of any of the above\&. .sp An action function takes three arguments: \fIsource\fR \- a list of source nodes, \fItarget\fR \- a list of target nodes, \fIenv\fR \- the construction environment\&. .RE .PP prefix .RS 4 The prefix that will be prepended to the target file name\&. This may be specified as a: * \fIstring\fR, .sp * \fIcallable object\fR \- a function or other callable that takes two arguments (a construction environment and a list of sources) and returns a prefix, .sp * \fIdictionary\fR \- specifies a mapping from a specific source suffix (of the first source specified) to a corresponding target prefix\&. Both the source suffix and target prefix specifications may use environment variable substitution, and the target prefix (the \*(Aqvalue\*(Aq entries in the dictionary) may also be a callable object\&. The default target prefix may be indicated by a dictionary entry with a key value of None\&. .RE .sp .if n \{\ .RS 4 .\} .nf b = Builder("build_it < $SOURCE > $TARGET", prefix = "file\-") def gen_prefix(env, sources): return "file\-" + env[\*(AqPLATFORM\*(Aq] + \*(Aq\-\*(Aq b = Builder("build_it < $SOURCE > $TARGET", prefix = gen_prefix) b = Builder("build_it < $SOURCE > $TARGET", suffix = { None: "file\-", "$SRC_SFX_A": gen_prefix }) .fi .if n \{\ .RE .\} .PP suffix .RS 4 The suffix that will be appended to the target file name\&. This may be specified in the same manner as the prefix above\&. If the suffix is a string, then \fBscons\fR will append a \*(Aq\&.\*(Aq to the beginning of the suffix if it\*(Aqs not already there\&. The string returned by callable object (or obtained from the dictionary) is untouched and must append its own \*(Aq\&.\*(Aq to the beginning if one is desired\&. .sp .if n \{\ .RS 4 .\} .nf b = Builder("build_it < $SOURCE > $TARGET" suffix = "\-file") def gen_suffix(env, sources): return "\&." + env[\*(AqPLATFORM\*(Aq] + "\-file" b = Builder("build_it < $SOURCE > $TARGET", suffix = gen_suffix) b = Builder("build_it < $SOURCE > $TARGET", suffix = { None: "\&.sfx1", "$SRC_SFX_A": gen_suffix }) .fi .if n \{\ .RE .\} .RE .PP ensure_suffix .RS 4 When set to any true value, causes \fBscons\fR to add the target suffix specified by the \fIsuffix\fR keyword to any target strings that have a different suffix\&. (The default behavior is to leave untouched any target file name that looks like it already has any suffix\&.) .sp .if n \{\ .RS 4 .\} .nf b1 = Builder("build_it < $SOURCE > $TARGET" suffix = "\&.out") b2 = Builder("build_it < $SOURCE > $TARGET" suffix = "\&.out", ensure_suffix) env = Environment() env[\*(AqBUILDERS\*(Aq][\*(AqB1\*(Aq] = b1 env[\*(AqBUILDERS\*(Aq][\*(AqB2\*(Aq] = b2 # Builds "foo\&.txt" because ensure_suffix is not set\&. env\&.B1(\*(Aqfoo\&.txt\*(Aq, \*(Aqfoo\&.in\*(Aq) # Builds "bar\&.txt\&.out" because ensure_suffix is set\&. env\&.B2(\*(Aqbar\&.txt\*(Aq, \*(Aqbar\&.in\*(Aq) .fi .if n \{\ .RE .\} .RE .PP src_suffix .RS 4 The expected source file name suffix\&. This may be a string or a list of strings\&. .RE .PP target_scanner .RS 4 A Scanner object that will be invoked to find implicit dependencies for this target file\&. This keyword argument should be used for Scanner objects that find implicit dependencies based only on the target file and the construction environment, \fInot\fR for implicit dependencies based on source files\&. (See the section "Scanner Objects" below, for information about creating Scanner objects\&.) .RE .PP source_scanner .RS 4 A Scanner object that will be invoked to find implicit dependencies in any source files used to build this target file\&. This is where you would specify a scanner to find things like \fB#include\fR lines in source files\&. The pre\-built \fBDirScanner\fR Scanner object may be used to indicate that this Builder should scan directory trees for on\-disk changes to files that \fBscons\fR does not know about from other Builder or function calls\&. (See the section "Scanner Objects" below, for information about creating your own Scanner objects\&.) .RE .PP target_factory .RS 4 A factory function that the Builder will use to turn any targets specified as strings into SCons Nodes\&. By default, SCons assumes that all targets are files\&. Other useful target_factory values include \fBDir\fR, for when a Builder creates a directory target, and \fBEntry\fR, for when a Builder can create either a file or directory target\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf MakeDirectoryBuilder = Builder(action=my_mkdir, target_factory=Dir) env = Environment() env\&.Append(BUILDERS = {\*(AqMakeDirectory\*(Aq:MakeDirectoryBuilder}) env\&.MakeDirectory(\*(Aqnew_directory\*(Aq, []) .fi .if n \{\ .RE .\} .sp Note that the call to the MakeDirectory Builder needs to specify an empty source list to make the string represent the builder\*(Aqs target; without that, it would assume the argument is the source, and would try to deduce the target name from it, which in the absence of an automatically\-added prefix or suffix would lead to a matching target and source name and a circular dependency\&. .RE .PP source_factory .RS 4 A factory function that the Builder will use to turn any sources specified as strings into SCons Nodes\&. By default, SCons assumes that all source are files\&. Other useful source_factory values include \fBDir\fR, for when a Builder uses a directory as a source, and \fBEntry\fR, for when a Builder can use files or directories (or both) as sources\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf CollectBuilder = Builder(action=my_mkdir, source_factory=Entry) env = Environment() env\&.Append(BUILDERS = {\*(AqCollect\*(Aq:CollectBuilder}) env\&.Collect(\*(Aqarchive\*(Aq, [\*(Aqdirectory_name\*(Aq, \*(Aqfile_name\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP emitter .RS 4 A function or list of functions to manipulate the target and source lists before dependencies are established and the target(s) are actually built\&. \fBemitter\fR can also be a string containing a construction variable to expand to an emitter function or list of functions, or a dictionary mapping source file suffixes to emitter functions\&. (Only the suffix of the first source file is used to select the actual emitter function from an emitter dictionary\&.) .sp An emitter function takes three arguments: \fIsource\fR \- a list of source nodes, \fItarget\fR \- a list of target nodes, \fIenv\fR \- the construction environment\&. An emitter must return a tuple containing two lists, the list of targets to be built by this builder, and the list of sources for this builder\&. .sp Example: .sp .if n \{\ .RS 4 .\} .nf def e(target, source, env): return (target + [\*(Aqfoo\&.foo\*(Aq], source + [\*(Aqfoo\&.src\*(Aq]) # Simple association of an emitter function with a Builder\&. b = Builder("my_build < $TARGET > $SOURCE", emitter = e) def e2(target, source, env): return (target + [\*(Aqbar\&.foo\*(Aq], source + [\*(Aqbar\&.src\*(Aq]) # Simple association of a list of emitter functions with a Builder\&. b = Builder("my_build < $TARGET > $SOURCE", emitter = [e, e2]) # Calling an emitter function through a construction variable\&. env = Environment(MY_EMITTER = e) b = Builder("my_build < $TARGET > $SOURCE", emitter = \*(Aq$MY_EMITTER\*(Aq) # Calling a list of emitter functions through a construction variable\&. env = Environment(EMITTER_LIST = [e, e2]) b = Builder("my_build < $TARGET > $SOURCE", emitter = \*(Aq$EMITTER_LIST\*(Aq) # Associating multiple emitters with different file # suffixes using a dictionary\&. def e_suf1(target, source, env): return (target + [\*(Aqanother_target_file\*(Aq], source) def e_suf2(target, source, env): return (target, source + [\*(Aqanother_source_file\*(Aq]) b = Builder("my_build < $TARGET > $SOURCE", emitter = {\*(Aq\&.suf1\*(Aq : e_suf1, \*(Aq\&.suf2\*(Aq : e_suf2}) .fi .if n \{\ .RE .\} .RE .PP multi .RS 4 Specifies whether this builder is allowed to be called multiple times for the same target file(s)\&. The default is 0, which means the builder can not be called multiple times for the same target file(s)\&. Calling a builder multiple times for the same target simply adds additional source files to the target; it is not allowed to change the environment associated with the target, specify addition environment overrides, or associate a different builder with the target\&. .RE .PP env .RS 4 A construction environment that can be used to fetch source code using this Builder\&. (Note that this environment is \fInot\fR used for normal builds of normal target files, which use the environment that was used to call the Builder for the target file\&.) .RE .PP generator .RS 4 A function that returns a list of actions that will be executed to build the target(s) from the source(s)\&. The returned action(s) may be an Action object, or anything that can be converted into an Action object (see the next section)\&. .sp The generator function takes four arguments: \fIsource\fR \- a list of source nodes, \fItarget\fR \- a list of target nodes, \fIenv\fR \- the construction environment, \fIfor_signature\fR \- a Boolean value that specifies whether the generator is being called for generating a build signature (as opposed to actually executing the command)\&. Example: .sp .if n \{\ .RS 4 .\} .nf def g(source, target, env, for_signature): return [["gcc", "\-c", "\-o"] + target + source] b = Builder(generator=g) .fi .if n \{\ .RE .\} .sp The \fIgenerator\fR and \fIaction\fR arguments must not both be used for the same Builder\&. .RE .PP src_builder .RS 4 Specifies a builder to use when a source file name suffix does not match any of the suffixes of the builder\&. Using this argument produces a multi\-stage builder\&. .RE .PP single_source .RS 4 Specifies that this builder expects exactly one source file per call\&. Giving more than one source file without target files results in implicitly calling the builder multiple times (once for each source given)\&. Giving multiple source files together with target files results in a UserError exception\&. .RE .PP The \fIgenerator\fR and \fIaction\fR arguments must not both be used for the same Builder\&. .PP source_ext_match .RS 4 When the specified \fIaction\fR argument is a dictionary, the default behavior when a builder is passed multiple source files is to make sure that the extensions of all the source files match\&. If it is legal for this builder to be called with a list of source files with different extensions, this check can be suppressed by setting \fBsource_ext_match\fR to \fBNone\fR or some other non\-true value\&. When \fBsource_ext_match\fR is disable, \fBscons\fR will use the suffix of the first specified source file to select the appropriate action from the \fIaction\fR dictionary\&. .sp In the following example, the setting of \fBsource_ext_match\fR prevents \fBscons\fR from exiting with an error due to the mismatched suffixes of \fBfoo\&.in\fR and \fBfoo\&.extra\fR\&. .sp .if n \{\ .RS 4 .\} .nf b = Builder(action={\*(Aq\&.in\*(Aq : \*(Aqbuild $SOURCES > $TARGET\*(Aq}, source_ext_match = None) env = Environment(BUILDERS = {\*(AqMyBuild\*(Aq:b}) env\&.MyBuild(\*(Aqfoo\&.out\*(Aq, [\*(Aqfoo\&.in\*(Aq, \*(Aqfoo\&.extra\*(Aq]) .fi .if n \{\ .RE .\} .RE .PP env .RS 4 A construction environment that can be used to fetch source code using this Builder\&. (Note that this environment is \fInot\fR used for normal builds of normal target files, which use the environment that was used to call the Builder for the target file\&.) .sp .if n \{\ .RS 4 .\} .nf b = Builder(action="build < $SOURCE > $TARGET") env = Environment(BUILDERS = {\*(AqMyBuild\*(Aq : b}) env\&.MyBuild(\*(Aqfoo\&.out\*(Aq, \*(Aqfoo\&.in\*(Aq, my_arg = \*(Aqxyzzy\*(Aq) .fi .if n \{\ .RE .\} .RE .PP chdir .RS 4 A directory from which scons will execute the action(s) specified for this Builder\&. If the \fBchdir\fR argument is a string or a directory Node, scons will change to the specified directory\&. If the \fBchdir\fR is not a string or Node and is non\-zero, then scons will change to the target file\*(Aqs directory\&. .sp Note that scons will \fInot\fR automatically modify its expansion of construction variables like \fB$TARGET\fR and \fB$SOURCE\fR when using the chdir keyword argument\-\-that is, the expanded file names will still be relative to the top\-level SConstruct directory, and consequently incorrect relative to the chdir directory\&. Builders created using chdir keyword argument, will need to use construction variable expansions like \fB${TARGET\&.file}\fR and \fB${SOURCE\&.file}\fR to use just the filename portion of the targets and source\&. .sp .if n \{\ .RS 4 .\} .nf b = Builder(action="build < ${SOURCE\&.file} > ${TARGET\&.file}", chdir=1) env = Environment(BUILDERS = {\*(AqMyBuild\*(Aq : b}) env\&.MyBuild(\*(Aqsub/dir/foo\&.out\*(Aq, \*(Aqsub/dir/foo\&.in\*(Aq) .fi .if n \{\ .RE .\} .sp \fBWARNING:\fR Python only keeps one current directory location for all of the threads\&. This means that use of the \fBchdir\fR argument will \fInot\fR work with the SCons \fB\-j\fR option, because individual worker threads spawned by SCons interfere with each other when they start changing directory\&. .RE .PP Any additional keyword arguments supplied when a Builder object is created (that is, when the Builder() function is called) will be set in the executing construction environment when the Builder object is called\&. The canonical example here would be to set a construction variable to the repository of a source code system\&. .PP Any additional keyword arguments supplied when a Builder \fIobject\fR is called will only be associated with the target created by that particular Builder call (and any other files built as a result of the call)\&. .PP These extra keyword arguments are passed to the following functions: command generator functions, function Actions, and emitter functions\&. .SS "Action Objects" .PP The \fBBuilder\fR() function will turn its \fBaction\fR keyword argument into an appropriate internal Action object\&. You can also explicitly create Action objects using the \fBAction\fR() global function, which can then be passed to the \fBBuilder\fR() function\&. This can be used to configure an Action object more flexibly, or it may simply be more efficient than letting each separate Builder object create a separate Action when multiple Builder objects need to do the same thing\&. .PP The \fBAction\fR() global function returns an appropriate object for the action represented by the type of the first argument: .PP Action .RS 4 If the first argument is already an Action object, the object is simply returned\&. .RE .PP String .RS 4 If the first argument is a string, a command\-line Action is returned\&. Note that the command\-line string may be preceded by an \fB@\fR (at\-sign) to suppress printing of the specified command line, or by a \fB\-\fR (hyphen) to ignore the exit status from the specified command: .sp .if n \{\ .RS 4 .\} .nf Action(\*(Aq$CC \-c \-o $TARGET $SOURCES\*(Aq) # Doesn\*(Aqt print the line being executed\&. Action(\*(Aq@build $TARGET $SOURCES\*(Aq) # Ignores return value Action(\*(Aq\-build $TARGET $SOURCES\*(Aq) .fi .if n \{\ .RE .\} .RE .PP List .RS 4 If the first argument is a list, then a list of Action objects is returned\&. An Action object is created as necessary for each element in the list\&. If an element \fIwithin\fR the list is itself a list, the internal list is the command and arguments to be executed via the command line\&. This allows white space to be enclosed in an argument by defining a command in a list within a list: .sp .if n \{\ .RS 4 .\} .nf Action([[\*(Aqcc\*(Aq, \*(Aq\-c\*(Aq, \*(Aq\-DWHITE SPACE\*(Aq, \*(Aq\-o\*(Aq, \*(Aq$TARGET\*(Aq, \*(Aq$SOURCES\*(Aq]]) .fi .if n \{\ .RE .\} .RE .PP Function .RS 4 If the first argument is a Python function, a function Action is returned\&. The Python function must take three keyword arguments, \fBtarget\fR (a Node object representing the target file), \fBsource\fR (a Node object representing the source file) and \fBenv\fR (the construction environment used for building the target file)\&. The \fBtarget\fR and \fBsource\fR arguments may be lists of Node objects if there is more than one target file or source file\&. The actual target and source file name(s) may be retrieved from their Node objects via the built\-in Python str() function: .sp .if n \{\ .RS 4 .\} .nf target_file_name = str(target) source_file_names = map(lambda x: str(x), source) .fi .if n \{\ .RE .\} .sp The function should return 0 or \fBNone\fR to indicate a successful build of the target file(s)\&. The function may raise an exception or return a non\-zero exit status to indicate an unsuccessful build\&. .sp .if n \{\ .RS 4 .\} .nf def build_it(target = None, source = None, env = None): # build the target from the source return 0 a = Action(build_it) .fi .if n \{\ .RE .\} .sp If the action argument is not one of the above, None is returned\&. .RE .PP The second argument is optional and is used to define the output which is printed when the Action is actually performed\&. In the absence of this parameter, or if it\*(Aqs an empty string, a default output depending on the type of the action is used\&. For example, a command\-line action will print the executed command\&. The argument must be either a Python function or a string\&. .PP In the first case, it\*(Aqs a function that returns a string to be printed to describe the action being executed\&. The function may also be specified by the \fIstrfunction\fR= keyword argument\&. Like a function to build a file, this function must take three keyword arguments: \fBtarget\fR (a Node object representing the target file), \fBsource\fR (a Node object representing the source file) and \fBenv\fR (a construction environment)\&. The \fBtarget\fR and \fBsource\fR arguments may be lists of Node objects if there is more than one target file or source file\&. .PP In the second case, you provide the string itself\&. The string may also be specified by the \fIcmdstr\fR= keyword argument\&. The string typically contains variables, notably $TARGET(S) and $SOURCE(S), or consists of just a single variable, which is optionally defined somewhere else\&. SCons itself heavily uses the latter variant\&. .PP Examples: .sp .if n \{\ .RS 4 .\} .nf def build_it(target, source, env): # build the target from the source return 0 def string_it(target, source, env): return "building \*(Aq%s\*(Aq from \*(Aq%s\*(Aq" % (target[0], source[0]) # Use a positional argument\&. f = Action(build_it, string_it) s = Action(build_it, "building \*(Aq$TARGET\*(Aq from \*(Aq$SOURCE\*(Aq") # Alternatively, use a keyword argument\&. f = Action(build_it, strfunction=string_it) s = Action(build_it, cmdstr="building \*(Aq$TARGET\*(Aq from \*(Aq$SOURCE\*(Aq") # You can provide a configurable variable\&. l = Action(build_it, \*(Aq$STRINGIT\*(Aq) .fi .if n \{\ .RE .\} .PP The third and succeeding arguments, if present, may either be a construction variable or a list of construction variables whose values will be included in the signature of the Action when deciding whether a target should be rebuilt because the action changed\&. The variables may also be specified by a \fIvarlist\fR= keyword parameter; if both are present, they are combined\&. This is necessary whenever you want a target to be rebuilt when a specific construction variable changes\&. This is not often needed for a string action, as the expanded variables will normally be part of the command line, but may be needed if a Python function action uses the value of a construction variable when generating the command line\&. .sp .if n \{\ .RS 4 .\} .nf def build_it(target, source, env): # build the target from the \*(AqXXX\*(Aq construction variable open(target[0], \*(Aqw\*(Aq)\&.write(env[\*(AqXXX\*(Aq]) return 0 # Use positional arguments\&. a = Action(build_it, \*(Aq$STRINGIT\*(Aq, [\*(AqXXX\*(Aq]) # Alternatively, use a keyword argument\&. a = Action(build_it, varlist=[\*(AqXXX\*(Aq]) .fi .if n \{\ .RE .\} .PP The \fBAction\fR() global function can be passed the following optional keyword arguments to modify the Action object\*(Aqs behavior: .PP \fBchdir\fR The \fBchdir\fR keyword argument specifies that scons will execute the action after changing to the specified directory\&. If the \fBchdir\fR argument is a string or a directory Node, scons will change to the specified directory\&. If the \fBchdir\fR argument is not a string or Node and is non\-zero, then scons will change to the target file\*(Aqs directory\&. .PP Note that scons will \fInot\fR automatically modify its expansion of construction variables like \fB$TARGET\fR and \fB$SOURCE\fR when using the chdir keyword argument\-\-that is, the expanded file names will still be relative to the top\-level SConstruct directory, and consequently incorrect relative to the chdir directory\&. Builders created using chdir keyword argument, will need to use construction variable expansions like \fB${TARGET\&.file}\fR and \fB${SOURCE\&.file}\fR to use just the filename portion of the targets and source\&. .sp .if n \{\ .RS 4 .\} .nf a = Action("build < ${SOURCE\&.file} > ${TARGET\&.file}", chdir=1) .fi .if n \{\ .RE .\} .PP \fBexitstatfunc\fR The \fBAction\fR() global function also takes an \fBexitstatfunc\fR keyword argument which specifies a function that is passed the exit status (or return value) from the specified action and can return an arbitrary or modified value\&. This can be used, for example, to specify that an Action object\*(Aqs return value should be ignored under special conditions and SCons should, therefore, consider that the action always suceeds: .sp .if n \{\ .RS 4 .\} .nf def always_succeed(s): # Always return 0, which indicates success\&. return 0 a = Action("build < ${SOURCE\&.file} > ${TARGET\&.file}", exitstatfunc=always_succeed) .fi .if n \{\ .RE .\} .PP \fBbatch_key\fR The \fBbatch_key\fR keyword argument can be used to specify that the Action can create multiple target files by processing multiple independent source files simultaneously\&. (The canonical example is "batch compilation" of multiple object files by passing multiple source files to a single invocation of a compiler such as Microsoft\*(Aqs Visual C / C++ compiler\&.) If the \fBbatch_key\fR argument is any non\-False, non\-callable Python value, the configured Action object will cause \fBscons\fR to collect all targets built with the Action object and configured with the same construction environment into single invocations of the Action object\*(Aqs command line or function\&. Command lines will typically want to use the \fBCHANGED_SOURCES\fR construction variable (and possibly \fBCHANGED_TARGETS\fR as well) to only pass to the command line those sources that have actually changed since their targets were built\&. .PP Example: .sp .if n \{\ .RS 4 .\} .nf a = Action(\*(Aqbuild $CHANGED_SOURCES\*(Aq, batch_key=True) .fi .if n \{\ .RE .\} .PP The \fBbatch_key\fR argument may also be a callable function that returns a key that will be used to identify different "batches" of target files to be collected for batch building\&. A \fBbatch_key\fR function must take the following arguments: .PP action .RS 4 The action object\&. .RE .PP env .RS 4 The construction environment configured for the target\&. .RE .PP target .RS 4 The list of targets for a particular configured action\&. .RE .PP source .RS 4 The list of source for a particular configured action\&. .sp The returned key should typically be a tuple of values derived from the arguments, using any appropriate logic to decide how multiple invocations should be batched\&. For example, a \fBbatch_key\fR function may decide to return the value of a specific construction variable from the \fBenv\fR argument which will cause \fBscons\fR to batch\-build targets with matching values of that variable, or perhaps return the \fBid\fR() of the entire construction environment, in which case \fBscons\fR will batch\-build all targets configured with the same construction environment\&. Returning \fBNone\fR indicates that the particular target should \fInot\fR be part of any batched build, but instead will be built by a separate invocation of action\*(Aqs command or function\&. Example: .sp .if n \{\ .RS 4 .\} .nf def batch_key(action, env, target, source): tdir = target[0]\&.dir if tdir\&.name == \*(Aqspecial\*(Aq: # Don\*(Aqt batch\-build any target # in the special/ subdirectory\&. return None return (id(action), id(env), tdir) a = Action(\*(Aqbuild $CHANGED_SOURCES\*(Aq, batch_key=batch_key) .fi .if n \{\ .RE .\} .RE .SS "Miscellaneous Action Functions" .PP \fBscons\fR supplies a number of functions that arrange for various common file and directory manipulations to be performed\&. These are similar in concept to "tasks" in the Ant build tool, although the implementation is slightly different\&. These functions do not actually perform the specified action at the time the function is called, but instead return an Action object that can be executed at the appropriate time\&. (In Object\-Oriented terminology, these are actually Action \fIFactory\fR functions that return Action objects\&.) .PP In practice, there are two natural ways that these Action Functions are intended to be used\&. .PP First, if you need to perform the action at the time the SConscript file is being read, you can use the \fBExecute\fR global function to do so: .sp .if n \{\ .RS 4 .\} .nf Execute(Touch(\*(Aqfile\*(Aq)) .fi .if n \{\ .RE .\} .PP Second, you can use these functions to supply Actions in a list for use by the \fBCommand\fR method\&. This can allow you to perform more complicated sequences of file manipulation without relying on platform\-specific external commands: that .sp .if n \{\ .RS 4 .\} .nf env = Environment(TMPBUILD = \*(Aq/tmp/builddir\*(Aq) env\&.Command(\*(Aqfoo\&.out\*(Aq, \*(Aqfoo\&.in\*(Aq, [Mkdir(\*(Aq$TMPBUILD\*(Aq), Copy(\*(Aq$TMPBUILD\*(Aq, \*(Aq${SOURCE\&.dir}\*(Aq), "cd $TMPBUILD && make", Delete(\*(Aq$TMPBUILD\*(Aq)]) .fi .if n \{\ .RE .\} .PP Chmod(\fIdest\fR, \fImode\fR) .RS 4 Returns an Action object that changes the permissions on the specified \fIdest\fR file or directory to the specified \fImode\fR which can be octal or string, similar to the bash command\&. Examples: .sp .if n \{\ .RS 4 .\} .nf Execute(Chmod(\*(Aqfile\*(Aq, 0755)) env\&.Command(\*(Aqfoo\&.out\*(Aq, \*(Aqfoo\&.in\*(Aq, [Copy(\*(Aq$TARGET\*(Aq, \*(Aq$SOURCE\*(Aq), Chmod(\*(Aq$TARGET\*(Aq, 0755)]) Execute(Chmod(\*(Aqfile\*(Aq, "ugo+w")) env\&.Command(\*(Aqfoo\&.out\*(Aq, \*(Aqfoo\&.in\*(Aq, [Copy(\*(Aq$TARGET\*(Aq, \*(Aq$SOURCE\*(Aq), Chmod(\*(Aq$TARGET\*(Aq, "ugo+w")]) .fi .if n \{\ .RE .\} .RE .PP Copy(\fIdest\fR, \fIsrc\fR) .RS 4 Returns an Action object that will copy the \fIsrc\fR source file or directory to the \fIdest\fR destination file or directory\&. Examples: .sp .if n \{\ .RS 4 .\} .nf Execute(Copy(\*(Aqfoo\&.output\*(Aq, \*(Aqfoo\&.input\*(Aq)) env\&.Command(\*(Aqbar\&.out\*(Aq, \*(Aqbar\&.in\*(Aq, Copy(\*(Aq$TARGET\*(Aq, \*(Aq$SOURCE\*(Aq)) .fi .if n \{\ .RE .\} .RE .PP Delete(\fIentry\fR, [\fImust_exist\fR]) .RS 4 Returns an Action that deletes the specified \fIentry\fR, which may be a file or a directory tree\&. If a directory is specified, the entire directory tree will be removed\&. If the \fImust_exist\fR flag is set, then a Python error will be thrown if the specified entry does not exist; the default is \fBmust_exist=0\fR, that is, the Action will silently do nothing if the entry does not exist\&. Examples: .sp .if n \{\ .RS 4 .\} .nf Execute(Delete(\*(Aq/tmp/buildroot\*(Aq)) env\&.Command(\*(Aqfoo\&.out\*(Aq, \*(Aqfoo\&.in\*(Aq, [Delete(\*(Aq${TARGET\&.dir}\*(Aq), MyBuildAction]) Execute(Delete(\*(Aqfile_that_must_exist\*(Aq, must_exist=1)) .fi .if n \{\ .RE .\} .RE .PP Mkdir(\fIdir\fR) .RS 4 Returns an Action that creates the specified directory \fIdir \&.\fR Examples: .sp .if n \{\ .RS 4 .\} .nf Execute(Mkdir(\*(Aq/tmp/outputdir\*(Aq)) env\&.Command(\*(Aqfoo\&.out\*(Aq, \*(Aqfoo\&.in\*(Aq, [Mkdir(\*(Aq/tmp/builddir\*(Aq), Copy(\*(Aq/tmp/builddir/foo\&.in\*(Aq, \*(Aq$SOURCE\*(Aq), "cd /tmp/builddir && make", Copy(\*(Aq$TARGET\*(Aq, \*(Aq/tmp/builddir/foo\&.out\*(Aq)]) .fi .if n \{\ .RE .\} .RE .PP Move(\fIdest\fR, \fIsrc\fR) .RS 4 Returns an Action that moves the specified \fIsrc\fR file or directory to the specified \fIdest\fR file or directory\&. Examples: .sp .if n \{\ .RS 4 .\} .nf Execute(Move(\*(Aqfile\&.destination\*(Aq, \*(Aqfile\&.source\*(Aq)) env\&.Command(\*(Aqoutput_file\*(Aq, \*(Aqinput_file\*(Aq, [MyBuildAction, Move(\*(Aq$TARGET\*(Aq, \*(Aqfile_created_by_MyBuildAction\*(Aq)]) .fi .if n \{\ .RE .\} .RE .PP Touch(\fIfile\fR) .RS 4 Returns an Action that updates the modification time on the specified \fIfile\fR\&. Examples: .sp .if n \{\ .RS 4 .\} .nf Execute(Touch(\*(Aqfile_to_be_touched\*(Aq)) env\&.Command(\*(Aqmarker\*(Aq, \*(Aqinput_file\*(Aq, [MyBuildAction, Touch(\*(Aq$TARGET\*(Aq)]) .fi .if n \{\ .RE .\} .RE .SS "Variable Substitution" .PP Before executing a command, \fBscons\fR performs construction variable interpolation on the strings that make up the command line of builders\&. Variables are introduced by a \fB$\fR prefix\&. Besides construction variables, scons provides the following variables for each command execution: .PP CHANGED_SOURCES .RS 4 The file names of all sources of the build command that have changed since the target was last built\&. .RE .PP CHANGED_TARGETS .RS 4 The file names of all targets that would be built from sources that have changed since the target was last built\&. .RE .PP SOURCE .RS 4 The file name of the source of the build command, or the file name of the first source if multiple sources are being built\&. .RE .PP SOURCES .RS 4 The file names of the sources of the build command\&. .RE .PP TARGET .RS 4 The file name of the target being built, or the file name of the first target if multiple targets are being built\&. .RE .PP TARGETS .RS 4 The file names of all targets being built\&. .RE .PP UNCHANGED_SOURCES .RS 4 The file names of all sources of the build command that have \fInot\fR changed since the target was last built\&. .RE .PP UNCHANGED_TARGETS .RS 4 The file names of all targets that would be built from sources that have \fInot\fR changed since the target was last built\&. .sp (Note that the above variables are reserved and may not be set in a construction environment\&.) .RE .PP For example, given the construction variable CC=\*(Aqcc\*(Aq, targets=[\*(Aqfoo\*(Aq], and sources=[\*(Aqfoo\&.c\*(Aq, \*(Aqbar\&.c\*(Aq]: .sp .if n \{\ .RS 4 .\} .nf action=\*(Aq$CC \-c \-o $TARGET $SOURCES\*(Aq .fi .if n \{\ .RE .\} .PP would produce the command line: .sp .if n \{\ .RS 4 .\} .nf cc \-c \-o foo foo\&.c bar\&.c .fi .if n \{\ .RE .\} .PP Variable names may be surrounded by curly braces ({}) to separate the name from the trailing characters\&. Within the curly braces, a variable name may have a Python slice subscript appended to select one or more items from a list\&. In the previous example, the string: .sp .if n \{\ .RS 4 .\} .nf ${SOURCES[1]} .fi .if n \{\ .RE .\} .PP would produce: .sp .if n \{\ .RS 4 .\} .nf bar\&.c .fi .if n \{\ .RE .\} .PP Additionally, a variable name may have the following special modifiers appended within the enclosing curly braces to modify the interpolated string: .PP base .RS 4 The base path of the file name, including the directory path but excluding any suffix\&. .RE .PP dir .RS 4 The name of the directory in which the file exists\&. .RE .PP file .RS 4 The file name, minus any directory portion\&. .RE .PP filebase .RS 4 Just the basename of the file, minus any suffix and minus the directory\&. .RE .PP suffix .RS 4 Just the file suffix\&. .RE .PP abspath .RS 4 The absolute path name of the file\&. .RE .PP posix .RS 4 The POSIX form of the path, with directories separated by \fB/\fR (forward slashes) not backslashes\&. This is sometimes necessary on Windows systems when a path references a file on other (POSIX) systems\&. .RE .PP srcpath .RS 4 The directory and file name to the source file linked to this file through \fBVariantDir\fR()\&. If this file isn\*(Aqt linked, it just returns the directory and filename unchanged\&. .RE .PP srcdir .RS 4 The directory containing the source file linked to this file through \fBVariantDir\fR()\&. If this file isn\*(Aqt linked, it just returns the directory part of the filename\&. .RE .PP rsrcpath .RS 4 The directory and file name to the source file linked to this file through \fBVariantDir\fR()\&. If the file does not exist locally but exists in a Repository, the path in the Repository is returned\&. If this file isn\*(Aqt linked, it just returns the directory and filename unchanged\&. .RE .PP rsrcdir .RS 4 The Repository directory containing the source file linked to this file through \fBVariantDir\fR()\&. If this file isn\*(Aqt linked, it just returns the directory part of the filename\&. .RE .PP For example, the specified target will expand as follows for the corresponding modifiers: .sp .if n \{\ .RS 4 .\} .nf $TARGET => sub/dir/file\&.x ${TARGET\&.base} => sub/dir/file ${TARGET\&.dir} => sub/dir ${TARGET\&.file} => file\&.x ${TARGET\&.filebase} => file ${TARGET\&.suffix} => \&.x ${TARGET\&.abspath} => /top/dir/sub/dir/file\&.x SConscript(\*(Aqsrc/SConscript\*(Aq, variant_dir=\*(Aqsub/dir\*(Aq) $SOURCE => sub/dir/file\&.x ${SOURCE\&.srcpath} => src/file\&.x ${SOURCE\&.srcdir} => src Repository(\*(Aq/usr/repository\*(Aq) $SOURCE => sub/dir/file\&.x ${SOURCE\&.rsrcpath} => /usr/repository/src/file\&.x ${SOURCE\&.rsrcdir} => /usr/repository/src .fi .if n \{\ .RE .\} .PP Note that curly braces braces may also be used to enclose arbitrary Python code to be evaluated\&. (In fact, this is how the above modifiers are substituted, they are simply attributes of the Python objects that represent TARGET, SOURCES, etc\&.) See the section "Python Code Substitution" below, for more thorough examples of how this can be used\&. .PP Lastly, a variable name may be a callable Python function associated with a construction variable in the environment\&. The function should take four arguments: \fItarget\fR \- a list of target nodes, \fIsource\fR \- a list of source nodes, \fIenv\fR \- the construction environment, \fIfor_signature\fR \- a Boolean value that specifies whether the function is being called for generating a build signature\&. SCons will insert whatever the called function returns into the expanded string: .sp .if n \{\ .RS 4 .\} .nf def foo(target, source, env, for_signature): return "bar" # Will expand $BAR to "bar baz" env=Environment(FOO=foo, BAR="$FOO baz") .fi .if n \{\ .RE .\} .PP You can use this feature to pass arguments to a Python function by creating a callable class that stores one or more arguments in an object, and then uses them when the \fB__call__()\fR method is called\&. Note that in this case, the entire variable expansion must be enclosed by curly braces so that the arguments will be associated with the instantiation of the class: .sp .if n \{\ .RS 4 .\} .nf class foo(object): def __init__(self, arg): self\&.arg = arg def __call__(self, target, source, env, for_signature): return self\&.arg + " bar" # Will expand $BAR to "my argument bar baz" env=Environment(FOO=foo, BAR="${FOO(\*(Aqmy argument\*(Aq)} baz") .fi .if n \{\ .RE .\} .PP The special pseudo\-variables \fB$(\fR and \fB$)\fR may be used to surround parts of a command line that may change \fIwithout\fR causing a rebuild\-\-that is, which are not included in the signature of target files built with this command\&. All text between \fB$(\fR and \fB$)\fR will be removed from the command line before it is added to file signatures, and the \fB$(\fR and \fB$)\fR will be removed before the command is executed\&. For example, the command line: .sp .if n \{\ .RS 4 .\} .nf echo Last build occurred $( $TODAY $)\&. > $TARGET .fi .if n \{\ .RE .\} .PP would execute the command: .sp .if n \{\ .RS 4 .\} .nf echo Last build occurred $TODAY\&. > $TARGET .fi .if n \{\ .RE .\} .PP but the command signature added to any target files would be: .sp .if n \{\ .RS 4 .\} .nf echo Last build occurred \&. > $TARGET .fi .if n \{\ .RE .\} .SS "Python Code Substitution" .PP Any python code within \fB${\fR\-\fB}\fR pairs gets evaluated by python \*(Aqeval\*(Aq, with the python globals set to the current environment\*(Aqs set of construction variables\&. So in the following case: .sp .if n \{\ .RS 4 .\} .nf env[\*(AqCOND\*(Aq] = 0 env\&.Command(\*(Aqfoo\&.out\*(Aq, \*(Aqfoo\&.in\*(Aq, \*(Aq\*(Aq\*(Aqecho ${COND==1 and \*(AqFOO\*(Aq or \*(AqBAR\*(Aq} > $TARGET\*(Aq\*(Aq\*(Aq) .fi .if n \{\ .RE .\} .PP the command executed will be either .sp .if n \{\ .RS 4 .\} .nf echo FOO > foo\&.out .fi .if n \{\ .RE .\} .PP or .sp .if n \{\ .RS 4 .\} .nf echo BAR > foo\&.out .fi .if n \{\ .RE .\} .PP according to the current value of env[\*(AqCOND\*(Aq] when the command is executed\&. The evaluation occurs when the target is being built, not when the SConscript is being read\&. So if env[\*(AqCOND\*(Aq] is changed later in the SConscript, the final value will be used\&. .PP Here\*(Aqs a more interesting example\&. Note that all of COND, FOO, and BAR are environment variables, and their values are substituted into the final command\&. FOO is a list, so its elements are interpolated separated by spaces\&. .sp .if n \{\ .RS 4 .\} .nf env=Environment() env[\*(AqCOND\*(Aq] = 0 env[\*(AqFOO\*(Aq] = [\*(Aqfoo1\*(Aq, \*(Aqfoo2\*(Aq] env[\*(AqBAR\*(Aq] = \*(Aqbarbar\*(Aq env\&.Command(\*(Aqfoo\&.out\*(Aq, \*(Aqfoo\&.in\*(Aq, \*(Aqecho ${COND==1 and FOO or BAR} > $TARGET\*(Aq) # Will execute this: # echo foo1 foo2 > foo\&.out .fi .if n \{\ .RE .\} .PP SCons uses the following rules when converting construction variables into command lines: .PP String .RS 4 When the value is a string it is interpreted as a space delimited list of command line arguments\&. .RE .PP List .RS 4 When the value is a list it is interpreted as a list of command line arguments\&. Each element of the list is converted to a string\&. .RE .PP Other .RS 4 Anything that is not a list or string is converted to a string and interpreted as a single command line argument\&. .RE .PP Newline .RS 4 Newline characters (\en) delimit lines\&. The newline parsing is done after all other parsing, so it is not possible for arguments (e\&.g\&. file names) to contain embedded newline characters\&. This limitation will likely go away in a future version of SCons\&. .RE .SS "Scanner Objects" .PP You can use the \fBScanner\fR function to define objects to scan new file types for implicit dependencies\&. The \fBScanner\fR function accepts the following arguments: .PP function .RS 4 This can be either: 1) a Python function that will process the Node (file) and return a list of File Nodes representing the implicit dependencies (file names) found in the contents; or: 2) a dictionary that maps keys (typically the file suffix, but see below for more discussion) to other Scanners that should be called\&. .sp If the argument is actually a Python function, the function must take three or four arguments: .sp def scanner_function(node, env, path): .sp def scanner_function(node, env, path, arg=None): .sp The \fBnode\fR argument is the internal SCons node representing the file\&. Use \fBstr(node)\fR to fetch the name of the file, and \fBnode\&.get_contents()\fR to fetch contents of the file\&. Note that the file is \fInot\fR guaranteed to exist before the scanner is called, so the scanner function should check that if there\*(Aqs any chance that the scanned file might not exist (for example, if it\*(Aqs built from other files)\&. .sp The \fBenv\fR argument is the construction environment for the scan\&. Fetch values from it using the \fBenv\&.Dictionary()\fR method\&. .sp The \fBpath\fR argument is a tuple (or list) of directories that can be searched for files\&. This will usually be the tuple returned by the \fBpath_function\fR argument (see below)\&. .sp The \fBarg\fR argument is the argument supplied when the scanner was created, if any\&. .RE .PP name .RS 4 The name of the Scanner\&. This is mainly used to identify the Scanner internally\&. .RE .PP argument .RS 4 An optional argument that, if specified, will be passed to the scanner function (described above) and the path function (specified below)\&. .RE .PP skeys .RS 4 An optional list that can be used to determine which scanner should be used for a given Node\&. In the usual case of scanning for file names, this argument will be a list of suffixes for the different file types that this Scanner knows how to scan\&. If the argument is a string, then it will be expanded into a list by the current environment\&. .RE .PP path_function .RS 4 A Python function that takes four or five arguments: a construction environment, a Node for the directory containing the SConscript file in which the first target was defined, a list of target nodes, a list of source nodes, and an optional argument supplied when the scanner was created\&. The \fBpath_function\fR returns a tuple of directories that can be searched for files to be returned by this Scanner object\&. (Note that the \fBFindPathDirs\fR() function can be used to return a ready\-made \fBpath_function\fR for a given construction variable name, instead of having to write your own function from scratch\&.) .RE .PP node_class .RS 4 The class of Node that should be returned by this Scanner object\&. Any strings or other objects returned by the scanner function that are not of this class will be run through the \fBnode_factory\fR function\&. .RE .PP node_factory .RS 4 A Python function that will take a string or other object and turn it into the appropriate class of Node to be returned by this Scanner object\&. .RE .PP scan_check .RS 4 An optional Python function that takes two arguments, a Node (file) and a construction environment, and returns whether the Node should, in fact, be scanned for dependencies\&. This check can be used to eliminate unnecessary calls to the scanner function when, for example, the underlying file represented by a Node does not yet exist\&. .RE .PP recursive .RS 4 An optional flag that specifies whether this scanner should be re\-invoked on the dependency files returned by the scanner\&. When this flag is not set, the Node subsystem will only invoke the scanner on the file being scanned, and not (for example) also on the files specified by the #include lines in the file being scanned\&. \fIrecursive\fR may be a callable function, in which case it will be called with a list of Nodes found and should return a list of Nodes that should be scanned recursively; this can be used to select a specific subset of Nodes for additional scanning\&. .RE .PP Note that \fBscons\fR has a global \fBSourceFileScanner\fR object that is used by the \fBObject\fR(), \fBSharedObject\fR(), and \fBStaticObject\fR() builders to decide which scanner should be used for different file extensions\&. You can using the \fBSourceFileScanner\&.add_scanner\fR() method to add your own Scanner object to the \fBscons\fR infrastructure that builds target programs or libraries from a list of source files of different types: .sp .if n \{\ .RS 4 .\} .nf def xyz_scan(node, env, path): contents = node\&.get_text_contents() # Scan the contents and return the included files\&. XYZScanner = Scanner(xyz_scan) SourceFileScanner\&.add_scanner(\*(Aq\&.xyz\*(Aq, XYZScanner) env\&.Program(\*(Aqmy_prog\*(Aq, [\*(Aqfile1\&.c\*(Aq, \*(Aqfile2\&.f\*(Aq, \*(Aqfile3\&.xyz\*(Aq]) .fi .if n \{\ .RE .\} .SH "SYSTEM-SPECIFIC BEHAVIOR" .PP SCons and its configuration files are very portable, due largely to its implementation in Python\&. There are, however, a few portability issues waiting to trap the unwary\&. .SS "\&.C file suffix" .PP SCons handles the upper\-case \fB\&.C\fR file suffix differently, depending on the capabilities of the underlying system\&. On a case\-sensitive system such as Linux or UNIX, SCons treats a file with a \fB\&.C\fR suffix as a C++ source file\&. On a case\-insensitive system such as Windows, SCons treats a file with a \fB\&.C\fR suffix as a C source file\&. .SS "\&.F file suffix" .PP SCons handles the upper\-case \fB\&.F\fR file suffix differently, depending on the capabilities of the underlying system\&. On a case\-sensitive system such as Linux or UNIX, SCons treats a file with a \fB\&.F\fR suffix as a Fortran source file that is to be first run through the standard C preprocessor\&. On a case\-insensitive system such as Windows, SCons treats a file with a \fB\&.F\fR suffix as a Fortran source file that should \fInot\fR be run through the C preprocessor\&. .SS "Windows: Cygwin Tools and Cygwin Python vs\&. Windows Pythons" .PP Cygwin supplies a set of tools and utilities that let users work on a Windows system using a more POSIX\-like environment\&. The Cygwin tools, including Cygwin Python, do this, in part, by sharing an ability to interpret UNIX\-like path names\&. For example, the Cygwin tools will internally translate a Cygwin path name like /cygdrive/c/mydir to an equivalent Windows pathname of C:/mydir (equivalent to C:\emydir)\&. .PP Versions of Python that are built for native Windows execution, such as the python\&.org and ActiveState versions, do not have the Cygwin path name semantics\&. This means that using a native Windows version of Python to build compiled programs using Cygwin tools (such as gcc, bison, and flex) may yield unpredictable results\&. "Mixing and matching" in this way can be made to work, but it requires careful attention to the use of path names in your SConscript files\&. .PP In practice, users can sidestep the issue by adopting the following rules: When using gcc, use the Cygwin\-supplied Python interpreter to run SCons; when using Microsoft Visual C/C++ (or some other Windows compiler) use the python\&.org or ActiveState version of Python to run SCons\&. .SS "Windows: scons\&.bat file" .PP On Windows systems, SCons is executed via a wrapper \fBscons\&.bat\fR file\&. This has (at least) two ramifications: .PP First, Windows command\-line users that want to use variable assignment on the command line may have to put double quotes around the assignments: .sp .if n \{\ .RS 4 .\} .nf scons "FOO=BAR" "BAZ=BLEH" .fi .if n \{\ .RE .\} .PP Second, the Cygwin shell does not recognize this file as being the same as an \fBscons\fR command issued at the command\-line prompt\&. You can work around this either by executing \fBscons\&.bat\fR from the Cygwin command line, or by creating a wrapper shell script named \fBscons \&.\fR .SS "MinGW" .PP The MinGW bin directory must be in your PATH environment variable or the PATH variable under the ENV construction variable for SCons to detect and use the MinGW tools\&. When running under the native Windows Python interpreter, SCons will prefer the MinGW tools over the Cygwin tools, if they are both installed, regardless of the order of the bin directories in the PATH variable\&. If you have both MSVC and MinGW installed and you want to use MinGW instead of MSVC, then you must explicitly tell SCons to use MinGW by passing .sp .if n \{\ .RS 4 .\} .nf tools=[\*(Aqmingw\*(Aq] .fi .if n \{\ .RE .\} .PP to the Environment() function, because SCons will prefer the MSVC tools over the MinGW tools\&. .SH "EXAMPLES" .PP To help you get started using SCons, this section contains a brief overview of some common tasks\&. .SS "Basic Compilation From a Single Source File" .sp .if n \{\ .RS 4 .\} .nf env = Environment() env\&.Program(target = \*(Aqfoo\*(Aq, source = \*(Aqfoo\&.c\*(Aq) .fi .if n \{\ .RE .\} .PP Note: Build the file by specifying the target as an argument ("scons foo" or "scons foo\&.exe")\&. or by specifying a dot ("scons \&.")\&. .SS "Basic Compilation From Multiple Source Files" .sp .if n \{\ .RS 4 .\} .nf env = Environment() env\&.Program(target = \*(Aqfoo\*(Aq, source = Split(\*(Aqf1\&.c f2\&.c f3\&.c\*(Aq)) .fi .if n \{\ .RE .\} .SS "Setting a Compilation Flag" .sp .if n \{\ .RS 4 .\} .nf env = Environment(CCFLAGS = \*(Aq\-g\*(Aq) env\&.Program(target = \*(Aqfoo\*(Aq, source = \*(Aqfoo\&.c\*(Aq) .fi .if n \{\ .RE .\} .SS "Search The Local Directory For \&.h Files" .PP Note: You do \fInot\fR need to set CCFLAGS to specify \-I options by hand\&. SCons will construct the right \-I options from CPPPATH\&. .sp .if n \{\ .RS 4 .\} .nf env = Environment(CPPPATH = [\*(Aq\&.\*(Aq]) env\&.Program(target = \*(Aqfoo\*(Aq, source = \*(Aqfoo\&.c\*(Aq) .fi .if n \{\ .RE .\} .SS "Search Multiple Directories For \&.h Files" .sp .if n \{\ .RS 4 .\} .nf env = Environment(CPPPATH = [\*(Aqinclude1\*(Aq, \*(Aqinclude2\*(Aq]) env\&.Program(target = \*(Aqfoo\*(Aq, source = \*(Aqfoo\&.c\*(Aq) .fi .if n \{\ .RE .\} .SS "Building a Static Library" .sp .if n \{\ .RS 4 .\} .nf env = Environment() env\&.StaticLibrary(target = \*(Aqfoo\*(Aq, source = Split(\*(Aql1\&.c l2\&.c\*(Aq)) env\&.StaticLibrary(target = \*(Aqbar\*(Aq, source = [\*(Aql3\&.c\*(Aq, \*(Aql4\&.c\*(Aq]) .fi .if n \{\ .RE .\} .SS "Building a Shared Library" .sp .if n \{\ .RS 4 .\} .nf env = Environment() env\&.SharedLibrary(target = \*(Aqfoo\*(Aq, source = [\*(Aql5\&.c\*(Aq, \*(Aql6\&.c\*(Aq]) env\&.SharedLibrary(target = \*(Aqbar\*(Aq, source = Split(\*(Aql7\&.c l8\&.c\*(Aq)) .fi .if n \{\ .RE .\} .SS "Linking a Local Library Into a Program" .sp .if n \{\ .RS 4 .\} .nf env = Environment(LIBS = \*(Aqmylib\*(Aq, LIBPATH = [\*(Aq\&.\*(Aq]) env\&.Library(target = \*(Aqmylib\*(Aq, source = Split(\*(Aql1\&.c l2\&.c\*(Aq)) env\&.Program(target = \*(Aqprog\*(Aq, source = [\*(Aqp1\&.c\*(Aq, \*(Aqp2\&.c\*(Aq]) .fi .if n \{\ .RE .\} .SS "Defining Your Own Builder Object" .PP Notice that when you invoke the Builder, you can leave off the target file suffix, and SCons will add it automatically\&. .sp .if n \{\ .RS 4 .\} .nf bld = Builder(action = \*(Aqpdftex < $SOURCES > $TARGET\*(Aq suffix = \*(Aq\&.pdf\*(Aq, src_suffix = \*(Aq\&.tex\*(Aq) env = Environment(BUILDERS = {\*(AqPDFBuilder\*(Aq : bld}) env\&.PDFBuilder(target = \*(Aqfoo\&.pdf\*(Aq, source = \*(Aqfoo\&.tex\*(Aq) # The following creates "bar\&.pdf" from "bar\&.tex" env\&.PDFBuilder(target = \*(Aqbar\*(Aq, source = \*(Aqbar\*(Aq) .fi .if n \{\ .RE .\} .PP Note also that the above initialization overwrites the default Builder objects, so the Environment created above can not be used call Builders like env\&.Program(), env\&.Object(), env\&.StaticLibrary(), etc\&. .SS "Adding Your Own Builder Object to an Environment" .sp .if n \{\ .RS 4 .\} .nf bld = Builder(action = \*(Aqpdftex < $SOURCES > $TARGET\*(Aq suffix = \*(Aq\&.pdf\*(Aq, src_suffix = \*(Aq\&.tex\*(Aq) env = Environment() env\&.Append(BUILDERS = {\*(AqPDFBuilder\*(Aq : bld}) env\&.PDFBuilder(target = \*(Aqfoo\&.pdf\*(Aq, source = \*(Aqfoo\&.tex\*(Aq) env\&.Program(target = \*(Aqbar\*(Aq, source = \*(Aqbar\&.c\*(Aq) .fi .if n \{\ .RE .\} .PP You also can use other Pythonic techniques to add to the BUILDERS construction variable, such as: .sp .if n \{\ .RS 4 .\} .nf env = Environment() env[\*(AqBUILDERS][\*(AqPDFBuilder\*(Aq] = bld .fi .if n \{\ .RE .\} .SS "Defining Your Own Scanner Object" .PP The following example shows an extremely simple scanner (the \fBkfile_scan\fR() function) that doesn\*(Aqt use a search path at all and simply returns the file names present on any \fBinclude\fR lines in the scanned file\&. This would implicitly assume that all included files live in the top\-level directory: .sp .if n \{\ .RS 4 .\} .nf import re include_re = re\&.compile(r\*(Aq^include\es+(\eS+)$\*(Aq, re\&.M) def kfile_scan(node, env, path, arg): contents = node\&.get_text_contents() includes = include_re\&.findall(contents) return env\&.File(includes) kscan = Scanner(name = \*(Aqkfile\*(Aq, function = kfile_scan, argument = None, skeys = [\*(Aq\&.k\*(Aq]) scanners = Environment()\&.Dictionary(\*(AqSCANNERS\*(Aq) env = Environment(SCANNERS = scanners + [kscan]) env\&.Command(\*(Aqfoo\*(Aq, \*(Aqfoo\&.k\*(Aq, \*(Aqkprocess < $SOURCES > $TARGET\*(Aq) bar_in = File(\*(Aqbar\&.in\*(Aq) env\&.Command(\*(Aqbar\*(Aq, bar_in, \*(Aqkprocess $SOURCES > $TARGET\*(Aq) bar_in\&.target_scanner = kscan .fi .if n \{\ .RE .\} .PP It is important to note that you have to return a list of File nodes from the scan function, simple strings for the file names won\*(Aqt do\&. As in the examples we are showing here, you can use the \fBFile()\fR function of your current Environment in order to create nodes on the fly from a sequence of file names with relative paths\&. .PP Here is a similar but more complete example that searches a path of directories (specified as the \fBMYPATH\fR construction variable) for files that actually exist: .sp .if n \{\ .RS 4 .\} .nf import re import os include_re = re\&.compile(r\*(Aq^include\es+(\eS+)$\*(Aq, re\&.M) def my_scan(node, env, path, arg): contents = node\&.get_text_contents() includes = include_re\&.findall(contents) if includes == []: return [] results = [] for inc in includes: for dir in path: file = str(dir) + os\&.sep + inc if os\&.path\&.exists(file): results\&.append(file) break return env\&.File(results) scanner = Scanner(name = \*(Aqmyscanner\*(Aq, function = my_scan, argument = None, skeys = [\*(Aq\&.x\*(Aq], path_function = FindPathDirs(\*(AqMYPATH\*(Aq) ) scanners = Environment()\&.Dictionary(\*(AqSCANNERS\*(Aq) env = Environment(SCANNERS = scanners + [scanner], MYPATH = [\*(Aqincs\*(Aq]) env\&.Command(\*(Aqfoo\*(Aq, \*(Aqfoo\&.x\*(Aq, \*(Aqxprocess < $SOURCES > $TARGET\*(Aq) .fi .if n \{\ .RE .\} .PP The \fBFindPathDirs\fR() function used in the previous example returns a function (actually a callable Python object) that will return a list of directories specified in the \fB$MYPATH\fR construction variable\&. It lets SCons detect the file \fBincs/foo\&.inc\fR , even if \fBfoo\&.x\fR contains the line \fBinclude foo\&.inc\fR only\&. If you need to customize how the search path is derived, you would provide your own \fBpath_function\fR argument when creating the Scanner object, as follows: .sp .if n \{\ .RS 4 .\} .nf # MYPATH is a list of directories to search for files in def pf(env, dir, target, source, arg): top_dir = Dir(\*(Aq#\*(Aq)\&.abspath results = [] if \*(AqMYPATH\*(Aq in env: for p in env[\*(AqMYPATH\*(Aq]: results\&.append(top_dir + os\&.sep + p) return results scanner = Scanner(name = \*(Aqmyscanner\*(Aq, function = my_scan, argument = None, skeys = [\*(Aq\&.x\*(Aq], path_function = pf ) .fi .if n \{\ .RE .\} .SS "Creating a Hierarchical Build" .PP Notice that the file names specified in a subdirectory\*(Aqs SConscript file are relative to that subdirectory\&. .sp .if n \{\ .RS 4 .\} .nf SConstruct: env = Environment() env\&.Program(target = \*(Aqfoo\*(Aq, source = \*(Aqfoo\&.c\*(Aq) SConscript(\*(Aqsub/SConscript\*(Aq) sub/SConscript: env = Environment() # Builds sub/foo from sub/foo\&.c env\&.Program(target = \*(Aqfoo\*(Aq, source = \*(Aqfoo\&.c\*(Aq) SConscript(\*(Aqdir/SConscript\*(Aq) sub/dir/SConscript: env = Environment() # Builds sub/dir/foo from sub/dir/foo\&.c env\&.Program(target = \*(Aqfoo\*(Aq, source = \*(Aqfoo\&.c\*(Aq) .fi .if n \{\ .RE .\} .SS "Sharing Variables Between SConscript Files" .PP You must explicitly Export() and Import() variables that you want to share between SConscript files\&. .sp .if n \{\ .RS 4 .\} .nf SConstruct: env = Environment() env\&.Program(target = \*(Aqfoo\*(Aq, source = \*(Aqfoo\&.c\*(Aq) Export("env") SConscript(\*(Aqsubdirectory/SConscript\*(Aq) subdirectory/SConscript: Import("env") env\&.Program(target = \*(Aqfoo\*(Aq, source = \*(Aqfoo\&.c\*(Aq) .fi .if n \{\ .RE .\} .SS "Building Multiple Variants From the Same Source" .PP Use the variant_dir keyword argument to the SConscript function to establish one or more separate variant build directory trees for a given source directory: .sp .if n \{\ .RS 4 .\} .nf SConstruct: cppdefines = [\*(AqFOO\*(Aq] Export("cppdefines") SConscript(\*(Aqsrc/SConscript\*(Aq, variant_dir=\*(Aqfoo\*(Aq) cppdefines = [\*(AqBAR\*(Aq] Export("cppdefines") SConscript(\*(Aqsrc/SConscript\*(Aq, variant_dir=\*(Aqbar\*(Aq) src/SConscript: Import("cppdefines") env = Environment(CPPDEFINES = cppdefines) env\&.Program(target = \*(Aqsrc\*(Aq, source = \*(Aqsrc\&.c\*(Aq) .fi .if n \{\ .RE .\} .PP Note the use of the Export() method to set the "cppdefines" variable to a different value each time we call the SConscript function\&. .SS "Hierarchical Build of Two Libraries Linked With a Program" .sp .if n \{\ .RS 4 .\} .nf SConstruct: env = Environment(LIBPATH = [\*(Aq#libA\*(Aq, \*(Aq#libB\*(Aq]) Export(\*(Aqenv\*(Aq) SConscript(\*(AqlibA/SConscript\*(Aq) SConscript(\*(AqlibB/SConscript\*(Aq) SConscript(\*(AqMain/SConscript\*(Aq) libA/SConscript: Import(\*(Aqenv\*(Aq) env\&.Library(\*(Aqa\*(Aq, Split(\*(Aqa1\&.c a2\&.c a3\&.c\*(Aq)) libB/SConscript: Import(\*(Aqenv\*(Aq) env\&.Library(\*(Aqb\*(Aq, Split(\*(Aqb1\&.c b2\&.c b3\&.c\*(Aq)) Main/SConscript: Import(\*(Aqenv\*(Aq) e = env\&.Copy(LIBS = [\*(Aqa\*(Aq, \*(Aqb\*(Aq]) e\&.Program(\*(Aqfoo\*(Aq, Split(\*(Aqm1\&.c m2\&.c m3\&.c\*(Aq)) .fi .if n \{\ .RE .\} .PP The \*(Aq#\*(Aq in the LIBPATH directories specify that they\*(Aqre relative to the top\-level directory, so they don\*(Aqt turn into "Main/libA" when they\*(Aqre used in Main/SConscript\&. .PP Specifying only \*(Aqa\*(Aq and \*(Aqb\*(Aq for the library names allows SCons to append the appropriate library prefix and suffix for the current platform (for example, \*(Aqliba\&.a\*(Aq on POSIX systems, \*(Aqa\&.lib\*(Aq on Windows)\&. .SS "Customizing construction variables from the command line\&." .PP The following would allow the C compiler to be specified on the command line or in the file custom\&.py\&. .sp .if n \{\ .RS 4 .\} .nf vars = Variables(\*(Aqcustom\&.py\*(Aq) vars\&.Add(\*(AqCC\*(Aq, \*(AqThe C compiler\&.\*(Aq) env = Environment(variables=vars) Help(vars\&.GenerateHelpText(env)) .fi .if n \{\ .RE .\} .PP The user could specify the C compiler on the command line: .sp .if n \{\ .RS 4 .\} .nf scons "CC=my_cc" .fi .if n \{\ .RE .\} .PP or in the custom\&.py file: .sp .if n \{\ .RS 4 .\} .nf CC = \*(Aqmy_cc\*(Aq .fi .if n \{\ .RE .\} .PP or get documentation on the options: .sp .if n \{\ .RS 4 .\} .nf $ scons \-h CC: The C compiler\&. default: None actual: cc .fi .if n \{\ .RE .\} .SS "Using Microsoft Visual C++ precompiled headers" .PP Since windows\&.h includes everything and the kitchen sink, it can take quite some time to compile it over and over again for a bunch of object files, so Microsoft provides a mechanism to compile a set of headers once and then include the previously compiled headers in any object file\&. This technology is called precompiled headers\&. The general recipe is to create a file named "StdAfx\&.cpp" that includes a single header named "StdAfx\&.h", and then include every header you want to precompile in "StdAfx\&.h", and finally include "StdAfx\&.h" as the first header in all the source files you are compiling to object files\&. For example: .PP StdAfx\&.h: .sp .if n \{\ .RS 4 .\} .nf #include #include .fi .if n \{\ .RE .\} .PP StdAfx\&.cpp: .sp .if n \{\ .RS 4 .\} .nf #include .fi .if n \{\ .RE .\} .PP Foo\&.cpp: .sp .if n \{\ .RS 4 .\} .nf #include /* do some stuff */ .fi .if n \{\ .RE .\} .PP Bar\&.cpp: .sp .if n \{\ .RS 4 .\} .nf #include /* do some other stuff */ .fi .if n \{\ .RE .\} .PP SConstruct: .sp .if n \{\ .RS 4 .\} .nf env=Environment() env[\*(AqPCHSTOP\*(Aq] = \*(AqStdAfx\&.h\*(Aq env[\*(AqPCH\*(Aq] = env\&.PCH(\*(AqStdAfx\&.cpp\*(Aq)[0] env\&.Program(\*(AqMyApp\*(Aq, [\*(AqFoo\&.cpp\*(Aq, \*(AqBar\&.cpp\*(Aq]) .fi .if n \{\ .RE .\} .PP For more information see the document for the PCH builder, and the PCH and PCHSTOP construction variables\&. To learn about the details of precompiled headers consult the MSDN documentation for /Yc, /Yu, and /Yp\&. .SS "Using Microsoft Visual C++ external debugging information" .PP Since including debugging information in programs and shared libraries can cause their size to increase significantly, Microsoft provides a mechanism for including the debugging information in an external file called a PDB file\&. SCons supports PDB files through the PDB construction variable\&. .PP SConstruct: .sp .if n \{\ .RS 4 .\} .nf env=Environment() env[\*(AqPDB\*(Aq] = \*(AqMyApp\&.pdb\*(Aq env\&.Program(\*(AqMyApp\*(Aq, [\*(AqFoo\&.cpp\*(Aq, \*(AqBar\&.cpp\*(Aq]) .fi .if n \{\ .RE .\} .PP For more information see the document for the PDB construction variable\&. .SH "ENVIRONMENT" .PP SCONS_LIB_DIR .RS 4 Specifies the directory that contains the SCons Python module directory (e\&.g\&. /home/aroach/scons\-src\-0\&.01/src/engine)\&. .RE .PP SCONSFLAGS .RS 4 A string of options that will be used by scons in addition to those passed on the command line\&. .RE .SH "SEE ALSO" .PP \fBscons\fR User Manual, \fBscons\fR Design Document, \fBscons\fR source code\&. .SH "AUTHORS" .PP Originally: Steven Knight and Anthony Roach Since 2010: The SCons Development Team .SH "AUTHORS" .PP \fBSteven Knight\fR .RS 4 Author. .RE .PP \fBSteven Knight and the SCons Development Team\fR .SH "COPYRIGHT" .br Copyright \(co 2004 - 2016 The SCons Foundation .br scons-3.0.1/setup.py0000664000175000017500000005217013202656642015665 0ustar bdbaddogbdbaddog00000000000000# # Copyright (c) 2001 - 2017 The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. """ NOTE: Installed SCons is not importable like usual Python packages. It is executed explicitly with command line scripts. This allows multiple SCons versions to coexist within single Python installation, which is critical for enterprise build cases. Explicit invokation is necessary to avoid confusion over which version of SCons is active. By default SCons is installed into versioned directory, e.g. site-packages/scons-2.1.0.alpha.20101125 and much of the stuff below is dedicated to make it happen on various platforms. """ from __future__ import print_function __revision__ = "src/setup.py 74b2c53bc42290e911b334a6b44f187da698a668 2017/11/14 13:16:53 bdbaddog" import os import stat import sys Version = "3.0.1" man_pages = [ 'scons.1', 'sconsign.1', 'scons-time.1', ] # change to setup.py directory if it was executed from other dir (head, tail) = os.path.split(sys.argv[0]) if head: os.chdir(head) sys.argv[0] = tail # flag if setup.py is run on win32 or _for_ win32 platform, # (when building windows installer on linux, for example) is_win32 = 0 if not sys.platform == 'win32': try: if sys.argv[1] == 'bdist_wininst': is_win32 = 1 except IndexError: pass else: is_win32 = 1 import distutils import distutils.core import distutils.command.install import distutils.command.install_data import distutils.command.install_lib import distutils.command.install_scripts import distutils.command.build_scripts import distutils.msvccompiler _install = distutils.command.install.install _install_data = distutils.command.install_data.install_data _install_lib = distutils.command.install_lib.install_lib _install_scripts = distutils.command.install_scripts.install_scripts _build_scripts = distutils.command.build_scripts.build_scripts class _options(object): pass Options = _options() Installed = [] def set_explicitly(name, args): """ Return if the installation directory was set explicitly by the user on the command line. This is complicated by the fact that "install --install-lib=/foo" gets turned into "install_lib --install-dir=/foo" internally. """ if args[0] == "install_" + name: s = "--install-dir=" else: # The command is something else (usually "install") s = "--install-%s=" % name set = 0 length = len(s) for a in args[1:]: if a[:length] == s: set = 1 break return set class install(_install): user_options = _install.user_options + [ ('no-scons-script', None, "don't install 'scons', only install 'scons-%s'" % Version), ('no-version-script', None, "don't install 'scons-%s', only install 'scons'" % Version), ('install-bat', None, "install 'scons.bat' script"), ('no-install-bat', None, "do not install 'scons.bat' script"), ('install-man', None, "install SCons man pages"), ('no-install-man', None, "do not install SCons man pages"), ('standard-lib', None, "install SCons library in standard Python location"), ('standalone-lib', None, "install SCons library in separate standalone directory"), ('version-lib', None, "install SCons library in version-numbered directory"), ] boolean_options = _install.boolean_options + [ 'no-scons-script', 'no-version-script', 'install-bat', 'no-install-bat', 'install-man', 'no-install-man', 'standard-lib', 'standalone-lib', 'version-lib' ] if hasattr(os, 'link'): user_options.append( ('hardlink-scons', None, "hard link 'scons' to the version-numbered script, don't make a separate 'scons' copy"), ) boolean_options.append('hardlink-script') if hasattr(os, 'symlink'): user_options.append( ('symlink-scons', None, "make 'scons' a symbolic link to the version-numbered script, don't make a separate 'scons' copy"), ) boolean_options.append('symlink-script') def initialize_options(self): _install.initialize_options(self) self.no_scons_script = 0 self.no_version_script = 0 self.install_bat = 0 self.no_install_bat = not is_win32 self.install_man = 0 self.no_install_man = is_win32 self.standard_lib = 0 self.standalone_lib = 0 self.version_lib = 0 self.hardlink_scons = 0 self.symlink_scons = 0 # Don't warn about having to put the library directory in the # search path. self.warn_dir = 0 def finalize_options(self): _install.finalize_options(self) if self.install_bat: Options.install_bat = 1 else: Options.install_bat = not self.no_install_bat if self.install_man: Options.install_man = 1 else: Options.install_man = not self.no_install_man Options.standard_lib = self.standard_lib Options.standalone_lib = self.standalone_lib Options.version_lib = self.version_lib Options.install_scons_script = not self.no_scons_script Options.install_version_script = not self.no_version_script Options.hardlink_scons = self.hardlink_scons Options.symlink_scons = self.symlink_scons def get_scons_prefix(libdir, is_win32): """ Return the right prefix for SCons library installation. Find this by starting with the library installation directory (.../site-packages, most likely) and crawling back up until we reach a directory name beginning with "python" (or "Python"). """ drive, head = os.path.splitdrive(libdir) while head: if head == os.sep: break head, tail = os.path.split(head) if tail.lower()[:6] == "python": # Found the Python library directory... if is_win32: # ...on Win32 systems, "scons" goes in the directory: # C:\PythonXX => C:\PythonXX\scons return os.path.join(drive + head, tail) else: # ...on other systems, "scons" goes above the directory: # /usr/lib/pythonX.X => /usr/lib/scons return os.path.join(drive + head) return libdir def force_to_usr_local(self): """ A hack to decide if we need to "force" the installation directories to be under /usr/local. This is because Mac Os X Tiger and Leopard, by default, put the libraries and scripts in their own directories under /Library or /System/Library. """ return (sys.platform[:6] == 'darwin' and (self.install_dir[:9] == '/Library/' or self.install_dir[:16] == '/System/Library/')) class install_lib(_install_lib): def finalize_options(self): _install_lib.finalize_options(self) if force_to_usr_local(self): self.install_dir = '/usr/local/lib' args = self.distribution.script_args if not set_explicitly("lib", args): # They didn't explicitly specify the installation # directory for libraries... is_win32 = sys.platform == "win32" or args[0] == 'bdist_wininst' prefix = get_scons_prefix(self.install_dir, is_win32) if Options.standalone_lib: # ...but they asked for a standalone directory. self.install_dir = os.path.join(prefix, "scons") elif Options.version_lib or not Options.standard_lib: # ...they asked for a version-specific directory, # or they get it by default. self.install_dir = os.path.join(prefix, "scons-%s" % Version) msg = "Installed SCons library modules into %s" % self.install_dir Installed.append(msg) class install_scripts(_install_scripts): def finalize_options(self): _install_scripts.finalize_options(self) if force_to_usr_local(self): self.install_dir = '/usr/local/bin' self.build_dir = os.path.join('build', 'scripts') msg = "Installed SCons scripts into %s" % self.install_dir Installed.append(msg) def do_nothing(self, *args, **kw): pass def hardlink_scons(self, src, dst, ver): try: os.unlink(dst) except OSError: pass os.link(ver, dst) def symlink_scons(self, src, dst, ver): try: os.unlink(dst) except OSError: pass os.symlink(os.path.split(ver)[1], dst) def copy_scons(self, src, dst, *args): try: os.unlink(dst) except OSError: pass self.copy_file(src, dst) self.outfiles.append(dst) def run(self): # --- distutils copy/paste --- if not self.skip_build: self.run_command('build_scripts') # --- /distutils copy/paste --- # Custom SCons installation stuff. if Options.hardlink_scons: create_basename_script = self.hardlink_scons elif Options.symlink_scons: create_basename_script = self.symlink_scons elif Options.install_scons_script: create_basename_script = self.copy_scons else: create_basename_script = self.do_nothing if Options.install_version_script: create_version_script = self.copy_scons else: create_version_script = self.do_nothing inputs = self.get_inputs() bat_scripts = [x for x in inputs if x[-4:] == '.bat'] non_bat_scripts = [x for x in inputs if x[-4:] != '.bat'] self.outfiles = [] self.mkpath(self.install_dir) for src in non_bat_scripts: base = os.path.basename(src) scons = os.path.join(self.install_dir, base) scons_ver = scons + '-' + Version if is_win32: scons += '.py' scons_ver += '.py' create_version_script(src, scons_ver) create_basename_script(src, scons, scons_ver) if Options.install_bat: if is_win32: bat_install_dir = get_scons_prefix(self.install_dir, is_win32) else: bat_install_dir = self.install_dir for src in bat_scripts: scons_bat = os.path.join(bat_install_dir, 'scons.bat') scons_version_bat = os.path.join(bat_install_dir, 'scons-' + Version + '.bat') self.copy_scons(src, scons_bat) self.copy_scons(src, scons_version_bat) # --- distutils copy/paste --- if hasattr(os, 'chmod') and hasattr(os, 'stat'): # Set the executable bits (owner, group, and world) on # all the scripts we just installed. for file in self.get_outputs(): if self.dry_run: # log.info("changing mode of %s", file) pass else: # Use symbolic versions of permissions so this script doesn't fail to parse under python3.x exec_and_read_permission = stat.S_IXOTH | stat.S_IXUSR | stat.S_IXGRP | stat.S_IROTH | stat.S_IRUSR | stat.S_IRGRP mode_mask = 4095 # Octal 07777 used because python3 has different octal syntax than python 2 mode = ((os.stat(file)[stat.ST_MODE]) | exec_and_read_permission) & mode_mask # log.info("changing mode of %s to %o", file, mode) os.chmod(file, mode) # --- /distutils copy/paste --- class build_scripts(_build_scripts): def finalize_options(self): _build_scripts.finalize_options(self) self.build_dir = os.path.join('build', 'scripts') class install_data(_install_data): def initialize_options(self): _install_data.initialize_options(self) def finalize_options(self): _install_data.finalize_options(self) if force_to_usr_local(self): self.install_dir = '/usr/local' if Options.install_man: if is_win32: dir = 'Doc' else: dir = os.path.join('man', 'man1') self.data_files = [(dir, man_pages)] man_dir = os.path.join(self.install_dir, dir) msg = "Installed SCons man pages into %s" % man_dir Installed.append(msg) else: self.data_files = [] description = "Open Source next-generation build tool." long_description = """Open Source next-generation build tool. Improved, cross-platform substitute for the classic Make utility. In short, SCons is an easier, more reliable and faster way to build software.""" scripts = [ 'script/scons', 'script/sconsign', 'script/scons-time', 'script/scons-configure-cache', # We include scons.bat in the list of scripts, even on UNIX systems, # because we provide an option to allow it be installed explicitly, # for example if you're installing from UNIX on a share that's # accessible to Windows and you want the scons.bat. 'script/scons.bat', ] arguments = { 'name': "scons", 'version': Version, 'description': description, 'long_description': long_description, 'author': 'Steven Knight', 'author_email': 'knight@baldmt.com', 'url': "http://www.scons.org/", 'packages': ["SCons", "SCons.compat", "SCons.Node", "SCons.Options", "SCons.Platform", "SCons.Scanner", "SCons.Script", "SCons.Tool", "SCons.Tool.docbook", "SCons.Tool.MSCommon", "SCons.Tool.packaging", "SCons.Variables", ], 'package_dir': {'': 'engine', 'SCons.Tool.docbook': 'engine/SCons/Tool/docbook'}, 'package_data': {'SCons.Tool.docbook': ['docbook-xsl-1.76.1/*', 'docbook-xsl-1.76.1/common/*', 'docbook-xsl-1.76.1/docsrc/*', 'docbook-xsl-1.76.1/eclipse/*', 'docbook-xsl-1.76.1/epub/*', 'docbook-xsl-1.76.1/epub/bin/*', 'docbook-xsl-1.76.1/epub/bin/lib/*', 'docbook-xsl-1.76.1/epub/bin/xslt/*', 'docbook-xsl-1.76.1/extensions/*', 'docbook-xsl-1.76.1/fo/*', 'docbook-xsl-1.76.1/highlighting/*', 'docbook-xsl-1.76.1/html/*', 'docbook-xsl-1.76.1/htmlhelp/*', 'docbook-xsl-1.76.1/images/*', 'docbook-xsl-1.76.1/images/callouts/*', 'docbook-xsl-1.76.1/images/colorsvg/*', 'docbook-xsl-1.76.1/javahelp/*', 'docbook-xsl-1.76.1/lib/*', 'docbook-xsl-1.76.1/manpages/*', 'docbook-xsl-1.76.1/params/*', 'docbook-xsl-1.76.1/profiling/*', 'docbook-xsl-1.76.1/roundtrip/*', 'docbook-xsl-1.76.1/slides/browser/*', 'docbook-xsl-1.76.1/slides/fo/*', 'docbook-xsl-1.76.1/slides/graphics/*', 'docbook-xsl-1.76.1/slides/graphics/active/*', 'docbook-xsl-1.76.1/slides/graphics/inactive/*', 'docbook-xsl-1.76.1/slides/graphics/toc/*', 'docbook-xsl-1.76.1/slides/html/*', 'docbook-xsl-1.76.1/slides/htmlhelp/*', 'docbook-xsl-1.76.1/slides/keynote/*', 'docbook-xsl-1.76.1/slides/keynote/xsltsl/*', 'docbook-xsl-1.76.1/slides/svg/*', 'docbook-xsl-1.76.1/slides/xhtml/*', 'docbook-xsl-1.76.1/template/*', 'docbook-xsl-1.76.1/tests/*', 'docbook-xsl-1.76.1/tools/bin/*', 'docbook-xsl-1.76.1/tools/make/*', 'docbook-xsl-1.76.1/webhelp/*', 'docbook-xsl-1.76.1/webhelp/docs/*', 'docbook-xsl-1.76.1/webhelp/docs/common/*', 'docbook-xsl-1.76.1/webhelp/docs/common/css/*', 'docbook-xsl-1.76.1/webhelp/docs/common/images/*', 'docbook-xsl-1.76.1/webhelp/docs/common/jquery/*', 'docbook-xsl-1.76.1/webhelp/docs/common/jquery/theme-redmond/*', 'docbook-xsl-1.76.1/webhelp/docs/common/jquery/theme-redmond/images/*', 'docbook-xsl-1.76.1/webhelp/docs/common/jquery/treeview/*', 'docbook-xsl-1.76.1/webhelp/docs/common/jquery/treeview/images/*', 'docbook-xsl-1.76.1/webhelp/docs/content/*', 'docbook-xsl-1.76.1/webhelp/docs/content/search/*', 'docbook-xsl-1.76.1/webhelp/docs/content/search/stemmers/*', 'docbook-xsl-1.76.1/webhelp/docsrc/*', 'docbook-xsl-1.76.1/webhelp/template/*', 'docbook-xsl-1.76.1/webhelp/template/common/*', 'docbook-xsl-1.76.1/webhelp/template/common/css/*', 'docbook-xsl-1.76.1/webhelp/template/common/images/*', 'docbook-xsl-1.76.1/webhelp/template/common/jquery/*', 'docbook-xsl-1.76.1/webhelp/template/common/jquery/theme-redmond/*', 'docbook-xsl-1.76.1/webhelp/template/common/jquery/theme-redmond/images/*', 'docbook-xsl-1.76.1/webhelp/template/common/jquery/treeview/*', 'docbook-xsl-1.76.1/webhelp/template/common/jquery/treeview/images/*', 'docbook-xsl-1.76.1/webhelp/template/content/search/*', 'docbook-xsl-1.76.1/webhelp/template/content/search/stemmers/*', 'docbook-xsl-1.76.1/webhelp/xsl/*', 'docbook-xsl-1.76.1/website/*', 'docbook-xsl-1.76.1/xhtml/*', 'docbook-xsl-1.76.1/xhtml-1_1/*', 'utils/*']}, 'data_files': [('man/man1', man_pages)], 'scripts': scripts, 'cmdclass': {'install': install, 'install_lib': install_lib, 'install_data': install_data, 'install_scripts': install_scripts, 'build_scripts': build_scripts} } distutils.core.setup(**arguments) if Installed: for i in Installed: print(i) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: scons-3.0.1/PKG-INFO0000664000175000017500000000067213202656646015254 0ustar bdbaddogbdbaddog00000000000000Metadata-Version: 1.0 Name: scons Version: 3.0.1 Summary: Open Source next-generation build tool. Home-page: http://www.scons.org/ Author: Steven Knight Author-email: knight@baldmt.com License: UNKNOWN Description: Open Source next-generation build tool. Improved, cross-platform substitute for the classic Make utility. In short, SCons is an easier, more reliable and faster way to build software. Platform: UNKNOWN scons-3.0.1/LICENSE.txt0000664000175000017500000000205713202656512015771 0ustar bdbaddogbdbaddog00000000000000Copyright (c) 2001 - 2017 The SCons Foundation Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.