protobuf-c-0.15/0000777000175000017500000000000011536221215010522 500000000000000protobuf-c-0.15/ltmain.sh0000755000175000017500000073306011401754734012302 00000000000000# Generated from ltmain.m4sh. # ltmain.sh (GNU libtool) 2.2.6b # Written by Gordon Matzigkeit , 1996 # Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001, 2003, 2004, 2005, 2006, 2007 2008 Free Software Foundation, Inc. # This is free software; see the source for copying conditions. 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[MODE-ARG]... # # Provide generalized library-building support services. # # --config show all configuration variables # --debug enable verbose shell tracing # -n, --dry-run display commands without modifying any files # --features display basic configuration information and exit # --mode=MODE use operation mode MODE # --preserve-dup-deps don't remove duplicate dependency libraries # --quiet, --silent don't print informational messages # --tag=TAG use configuration variables from tag TAG # -v, --verbose print informational messages (default) # --version print version information # -h, --help print short or long help message # # MODE must be one of the following: # # clean remove files from the build directory # compile compile a source file into a libtool object # execute automatically set library path, then run a program # finish complete the installation of libtool libraries # install install libraries or executables # link create a library or an executable # uninstall remove libraries from an installed directory # # MODE-ARGS vary depending on the MODE. # Try `$progname --help --mode=MODE' for a more detailed description of MODE. # # When reporting a bug, please describe a test case to reproduce it and # include the following information: # # host-triplet: $host # shell: $SHELL # compiler: $LTCC # compiler flags: $LTCFLAGS # linker: $LD (gnu? $with_gnu_ld) # $progname: (GNU libtool) 2.2.6b # automake: $automake_version # autoconf: $autoconf_version # # Report bugs to . PROGRAM=ltmain.sh PACKAGE=libtool VERSION=2.2.6b TIMESTAMP="" package_revision=1.3017 # Be Bourne compatible if test -n "${ZSH_VERSION+set}" && (emulate sh) >/dev/null 2>&1; then emulate sh NULLCMD=: # Zsh 3.x and 4.x performs word splitting on ${1+"$@"}, which # is contrary to our usage. Disable this feature. alias -g '${1+"$@"}'='"$@"' setopt NO_GLOB_SUBST else case `(set -o) 2>/dev/null` in *posix*) set -o posix;; esac fi BIN_SH=xpg4; export BIN_SH # for Tru64 DUALCASE=1; export DUALCASE # for MKS sh # NLS nuisances: We save the old values to restore during execute mode. # Only set LANG and LC_ALL to C if already set. # These must not be set unconditionally because not all systems understand # e.g. LANG=C (notably SCO). lt_user_locale= lt_safe_locale= for lt_var in LANG LANGUAGE LC_ALL LC_CTYPE LC_COLLATE LC_MESSAGES do eval "if test \"\${$lt_var+set}\" = set; then save_$lt_var=\$$lt_var $lt_var=C export $lt_var lt_user_locale=\"$lt_var=\\\$save_\$lt_var; \$lt_user_locale\" lt_safe_locale=\"$lt_var=C; \$lt_safe_locale\" fi" done $lt_unset CDPATH : ${CP="cp -f"} : ${ECHO="echo"} : ${EGREP="/bin/grep -E"} : ${FGREP="/bin/grep -F"} : ${GREP="/bin/grep"} : ${LN_S="ln -s"} : ${MAKE="make"} : ${MKDIR="mkdir"} : ${MV="mv -f"} : ${RM="rm -f"} : ${SED="/bin/sed"} : ${SHELL="${CONFIG_SHELL-/bin/sh}"} : ${Xsed="$SED -e 1s/^X//"} # Global variables: EXIT_SUCCESS=0 EXIT_FAILURE=1 EXIT_MISMATCH=63 # $? = 63 is used to indicate version mismatch to missing. EXIT_SKIP=77 # $? = 77 is used to indicate a skipped test to automake. exit_status=$EXIT_SUCCESS # Make sure IFS has a sensible default lt_nl=' ' IFS=" $lt_nl" dirname="s,/[^/]*$,," basename="s,^.*/,," # func_dirname_and_basename file append nondir_replacement # perform func_basename and func_dirname in a single function # call: # dirname: Compute the dirname of FILE. If nonempty, # add APPEND to the result, otherwise set result # to NONDIR_REPLACEMENT. # value returned in "$func_dirname_result" # basename: Compute filename of FILE. # value retuned in "$func_basename_result" # Implementation must be kept synchronized with func_dirname # and func_basename. For efficiency, we do not delegate to # those functions but instead duplicate the functionality here. func_dirname_and_basename () { # Extract subdirectory from the argument. func_dirname_result=`$ECHO "X${1}" | $Xsed -e "$dirname"` if test "X$func_dirname_result" = "X${1}"; then func_dirname_result="${3}" else func_dirname_result="$func_dirname_result${2}" fi func_basename_result=`$ECHO "X${1}" | $Xsed -e "$basename"` } # Generated shell functions inserted here. # Work around backward compatibility issue on IRIX 6.5. On IRIX 6.4+, sh # is ksh but when the shell is invoked as "sh" and the current value of # the _XPG environment variable is not equal to 1 (one), the special # positional parameter $0, within a function call, is the name of the # function. progpath="$0" # The name of this program: # In the unlikely event $progname began with a '-', it would play havoc with # func_echo (imagine progname=-n), so we prepend ./ in that case: func_dirname_and_basename "$progpath" progname=$func_basename_result case $progname in -*) progname=./$progname ;; esac # Make sure we have an absolute path for reexecution: case $progpath in [\\/]*|[A-Za-z]:\\*) ;; *[\\/]*) progdir=$func_dirname_result progdir=`cd "$progdir" && pwd` progpath="$progdir/$progname" ;; *) save_IFS="$IFS" IFS=: for progdir in $PATH; do IFS="$save_IFS" test -x "$progdir/$progname" && break done IFS="$save_IFS" test -n "$progdir" || progdir=`pwd` progpath="$progdir/$progname" ;; esac # Sed substitution that helps us do robust quoting. It backslashifies # metacharacters that are still active within double-quoted strings. Xsed="${SED}"' -e 1s/^X//' sed_quote_subst='s/\([`"$\\]\)/\\\1/g' # Same as above, but do not quote variable references. double_quote_subst='s/\(["`\\]\)/\\\1/g' # Re-`\' parameter expansions in output of double_quote_subst that were # `\'-ed in input to the same. If an odd number of `\' preceded a '$' # in input to double_quote_subst, that '$' was protected from expansion. # Since each input `\' is now two `\'s, look for any number of runs of # four `\'s followed by two `\'s and then a '$'. `\' that '$'. bs='\\' bs2='\\\\' bs4='\\\\\\\\' dollar='\$' sed_double_backslash="\ s/$bs4/&\\ /g s/^$bs2$dollar/$bs&/ s/\\([^$bs]\\)$bs2$dollar/\\1$bs2$bs$dollar/g s/\n//g" # Standard options: opt_dry_run=false opt_help=false opt_quiet=false opt_verbose=false opt_warning=: # func_echo arg... # Echo program name prefixed message, along with the current mode # name if it has been set yet. func_echo () { $ECHO "$progname${mode+: }$mode: $*" } # func_verbose arg... # Echo program name prefixed message in verbose mode only. func_verbose () { $opt_verbose && func_echo ${1+"$@"} # A bug in bash halts the script if the last line of a function # fails when set -e is in force, so we need another command to # work around that: : } # func_error arg... # Echo program name prefixed message to standard error. func_error () { $ECHO "$progname${mode+: }$mode: "${1+"$@"} 1>&2 } # func_warning arg... # Echo program name prefixed warning message to standard error. func_warning () { $opt_warning && $ECHO "$progname${mode+: }$mode: warning: "${1+"$@"} 1>&2 # bash bug again: : } # func_fatal_error arg... # Echo program name prefixed message to standard error, and exit. func_fatal_error () { func_error ${1+"$@"} exit $EXIT_FAILURE } # func_fatal_help arg... # Echo program name prefixed message to standard error, followed by # a help hint, and exit. func_fatal_help () { func_error ${1+"$@"} func_fatal_error "$help" } help="Try \`$progname --help' for more information." ## default # func_grep expression filename # Check whether EXPRESSION matches any line of FILENAME, without output. func_grep () { $GREP "$1" "$2" >/dev/null 2>&1 } # func_mkdir_p directory-path # Make sure the entire path to DIRECTORY-PATH is available. func_mkdir_p () { my_directory_path="$1" my_dir_list= if test -n "$my_directory_path" && test "$opt_dry_run" != ":"; then # Protect directory names starting with `-' case $my_directory_path in -*) my_directory_path="./$my_directory_path" ;; esac # While some portion of DIR does not yet exist... while test ! -d "$my_directory_path"; do # ...make a list in topmost first order. Use a colon delimited # list incase some portion of path contains whitespace. my_dir_list="$my_directory_path:$my_dir_list" # If the last portion added has no slash in it, the list is done case $my_directory_path in */*) ;; *) break ;; esac # ...otherwise throw away the child directory and loop my_directory_path=`$ECHO "X$my_directory_path" | $Xsed -e "$dirname"` done my_dir_list=`$ECHO "X$my_dir_list" | $Xsed -e 's,:*$,,'` save_mkdir_p_IFS="$IFS"; IFS=':' for my_dir in $my_dir_list; do IFS="$save_mkdir_p_IFS" # mkdir can fail with a `File exist' error if two processes # try to create one of the directories concurrently. Don't # stop in that case! $MKDIR "$my_dir" 2>/dev/null || : done IFS="$save_mkdir_p_IFS" # Bail out if we (or some other process) failed to create a directory. test -d "$my_directory_path" || \ func_fatal_error "Failed to create \`$1'" fi } # func_mktempdir [string] # Make a temporary directory that won't clash with other running # libtool processes, and avoids race conditions if possible. If # given, STRING is the basename for that directory. func_mktempdir () { my_template="${TMPDIR-/tmp}/${1-$progname}" if test "$opt_dry_run" = ":"; then # Return a directory name, but don't create it in dry-run mode my_tmpdir="${my_template}-$$" else # If mktemp works, use that first and foremost my_tmpdir=`mktemp -d "${my_template}-XXXXXXXX" 2>/dev/null` if test ! -d "$my_tmpdir"; then # Failing that, at least try and use $RANDOM to avoid a race my_tmpdir="${my_template}-${RANDOM-0}$$" save_mktempdir_umask=`umask` umask 0077 $MKDIR "$my_tmpdir" umask $save_mktempdir_umask fi # If we're not in dry-run mode, bomb out on failure test -d "$my_tmpdir" || \ func_fatal_error "cannot create temporary directory \`$my_tmpdir'" fi $ECHO "X$my_tmpdir" | $Xsed } # func_quote_for_eval arg # Aesthetically quote ARG to be evaled later. # This function returns two values: FUNC_QUOTE_FOR_EVAL_RESULT # is double-quoted, suitable for a subsequent eval, whereas # FUNC_QUOTE_FOR_EVAL_UNQUOTED_RESULT has merely all characters # which are still active within double quotes backslashified. func_quote_for_eval () { case $1 in *[\\\`\"\$]*) func_quote_for_eval_unquoted_result=`$ECHO "X$1" | $Xsed -e "$sed_quote_subst"` ;; *) func_quote_for_eval_unquoted_result="$1" ;; esac case $func_quote_for_eval_unquoted_result in # Double-quote args containing shell metacharacters to delay # word splitting, command substitution and and variable # expansion for a subsequent eval. # Many Bourne shells cannot handle close brackets correctly # in scan sets, so we specify it separately. *[\[\~\#\^\&\*\(\)\{\}\|\;\<\>\?\'\ \ ]*|*]*|"") func_quote_for_eval_result="\"$func_quote_for_eval_unquoted_result\"" ;; *) func_quote_for_eval_result="$func_quote_for_eval_unquoted_result" esac } # func_quote_for_expand arg # Aesthetically quote ARG to be evaled later; same as above, # but do not quote variable references. func_quote_for_expand () { case $1 in *[\\\`\"]*) my_arg=`$ECHO "X$1" | $Xsed \ -e "$double_quote_subst" -e "$sed_double_backslash"` ;; *) my_arg="$1" ;; esac case $my_arg in # Double-quote args containing shell metacharacters to delay # word splitting and command substitution for a subsequent eval. # Many Bourne shells cannot handle close brackets correctly # in scan sets, so we specify it separately. *[\[\~\#\^\&\*\(\)\{\}\|\;\<\>\?\'\ \ ]*|*]*|"") my_arg="\"$my_arg\"" ;; esac func_quote_for_expand_result="$my_arg" } # func_show_eval cmd [fail_exp] # Unless opt_silent is true, then output CMD. Then, if opt_dryrun is # not true, evaluate CMD. If the evaluation of CMD fails, and FAIL_EXP # is given, then evaluate it. func_show_eval () { my_cmd="$1" my_fail_exp="${2-:}" ${opt_silent-false} || { func_quote_for_expand "$my_cmd" eval "func_echo $func_quote_for_expand_result" } if ${opt_dry_run-false}; then :; else eval "$my_cmd" my_status=$? if test "$my_status" -eq 0; then :; else eval "(exit $my_status); $my_fail_exp" fi fi } # func_show_eval_locale cmd [fail_exp] # Unless opt_silent is true, then output CMD. Then, if opt_dryrun is # not true, evaluate CMD. If the evaluation of CMD fails, and FAIL_EXP # is given, then evaluate it. Use the saved locale for evaluation. func_show_eval_locale () { my_cmd="$1" my_fail_exp="${2-:}" ${opt_silent-false} || { func_quote_for_expand "$my_cmd" eval "func_echo $func_quote_for_expand_result" } if ${opt_dry_run-false}; then :; else eval "$lt_user_locale $my_cmd" my_status=$? eval "$lt_safe_locale" if test "$my_status" -eq 0; then :; else eval "(exit $my_status); $my_fail_exp" fi fi } # func_version # Echo version message to standard output and exit. func_version () { $SED -n '/^# '$PROGRAM' (GNU /,/# warranty; / { s/^# // s/^# *$// s/\((C)\)[ 0-9,-]*\( [1-9][0-9]*\)/\1\2/ p }' < "$progpath" exit $? } # func_usage # Echo short help message to standard output and exit. func_usage () { $SED -n '/^# Usage:/,/# -h/ { s/^# // s/^# *$// s/\$progname/'$progname'/ p }' < "$progpath" $ECHO $ECHO "run \`$progname --help | more' for full usage" exit $? } # func_help # Echo long help message to standard output and exit. func_help () { $SED -n '/^# Usage:/,/# Report bugs to/ { s/^# // s/^# *$// s*\$progname*'$progname'* s*\$host*'"$host"'* s*\$SHELL*'"$SHELL"'* s*\$LTCC*'"$LTCC"'* s*\$LTCFLAGS*'"$LTCFLAGS"'* s*\$LD*'"$LD"'* s/\$with_gnu_ld/'"$with_gnu_ld"'/ s/\$automake_version/'"`(automake --version) 2>/dev/null |$SED 1q`"'/ s/\$autoconf_version/'"`(autoconf --version) 2>/dev/null |$SED 1q`"'/ p }' < "$progpath" exit $? } # func_missing_arg argname # Echo program name prefixed message to standard error and set global # exit_cmd. func_missing_arg () { func_error "missing argument for $1" exit_cmd=exit } exit_cmd=: # Check that we have a working $ECHO. if test "X$1" = X--no-reexec; then # Discard the --no-reexec flag, and continue. shift elif test "X$1" = X--fallback-echo; then # Avoid inline document here, it may be left over : elif test "X`{ $ECHO '\t'; } 2>/dev/null`" = 'X\t'; then # Yippee, $ECHO works! : else # Restart under the correct shell, and then maybe $ECHO will work. exec $SHELL "$progpath" --no-reexec ${1+"$@"} fi if test "X$1" = X--fallback-echo; then # used as fallback echo shift cat </dev/null 2>&1; then taglist="$taglist $tagname" # Evaluate the configuration. Be careful to quote the path # and the sed script, to avoid splitting on whitespace, but # also don't use non-portable quotes within backquotes within # quotes we have to do it in 2 steps: extractedcf=`$SED -n -e "$sed_extractcf" < "$progpath"` eval "$extractedcf" else func_error "ignoring unknown tag $tagname" fi ;; esac } # Parse options once, thoroughly. This comes as soon as possible in # the script to make things like `libtool --version' happen quickly. { # Shorthand for --mode=foo, only valid as the first argument case $1 in clean|clea|cle|cl) shift; set dummy --mode clean ${1+"$@"}; shift ;; compile|compil|compi|comp|com|co|c) shift; set dummy --mode compile ${1+"$@"}; shift ;; execute|execut|execu|exec|exe|ex|e) shift; set dummy --mode execute ${1+"$@"}; shift ;; finish|finis|fini|fin|fi|f) shift; set dummy --mode finish ${1+"$@"}; shift ;; install|instal|insta|inst|ins|in|i) shift; set dummy --mode install ${1+"$@"}; shift ;; link|lin|li|l) shift; set dummy --mode link ${1+"$@"}; shift ;; uninstall|uninstal|uninsta|uninst|unins|unin|uni|un|u) shift; set dummy --mode uninstall ${1+"$@"}; shift ;; esac # Parse non-mode specific arguments: while test "$#" -gt 0; do opt="$1" shift case $opt in --config) func_config ;; --debug) preserve_args="$preserve_args $opt" func_echo "enabling shell trace mode" opt_debug='set -x' $opt_debug ;; -dlopen) test "$#" -eq 0 && func_missing_arg "$opt" && break execute_dlfiles="$execute_dlfiles $1" shift ;; --dry-run | -n) opt_dry_run=: ;; --features) func_features ;; --finish) mode="finish" ;; --mode) test "$#" -eq 0 && func_missing_arg "$opt" && break case $1 in # Valid mode arguments: clean) ;; compile) ;; execute) ;; finish) ;; install) ;; link) ;; relink) ;; uninstall) ;; # Catch anything else as an error *) func_error "invalid argument for $opt" exit_cmd=exit break ;; esac mode="$1" shift ;; --preserve-dup-deps) opt_duplicate_deps=: ;; --quiet|--silent) preserve_args="$preserve_args $opt" opt_silent=: ;; --verbose| -v) preserve_args="$preserve_args $opt" opt_silent=false ;; --tag) test "$#" -eq 0 && func_missing_arg "$opt" && break preserve_args="$preserve_args $opt $1" func_enable_tag "$1" # tagname is set here shift ;; # Separate optargs to long options: -dlopen=*|--mode=*|--tag=*) func_opt_split "$opt" set dummy "$func_opt_split_opt" "$func_opt_split_arg" ${1+"$@"} shift ;; -\?|-h) func_usage ;; --help) opt_help=: ;; --version) func_version ;; -*) func_fatal_help "unrecognized option \`$opt'" ;; *) nonopt="$opt" break ;; esac done case $host in *cygwin* | *mingw* | *pw32* | *cegcc*) # don't eliminate duplications in $postdeps and $predeps opt_duplicate_compiler_generated_deps=: ;; *) opt_duplicate_compiler_generated_deps=$opt_duplicate_deps ;; esac # Having warned about all mis-specified options, bail out if # anything was wrong. $exit_cmd $EXIT_FAILURE } # func_check_version_match # Ensure that we are using m4 macros, and libtool script from the same # release of libtool. func_check_version_match () { if test "$package_revision" != "$macro_revision"; then if test "$VERSION" != "$macro_version"; then if test -z "$macro_version"; then cat >&2 <<_LT_EOF $progname: Version mismatch error. This is $PACKAGE $VERSION, but the $progname: definition of this LT_INIT comes from an older release. $progname: You should recreate aclocal.m4 with macros from $PACKAGE $VERSION $progname: and run autoconf again. _LT_EOF else cat >&2 <<_LT_EOF $progname: Version mismatch error. This is $PACKAGE $VERSION, but the $progname: definition of this LT_INIT comes from $PACKAGE $macro_version. $progname: You should recreate aclocal.m4 with macros from $PACKAGE $VERSION $progname: and run autoconf again. _LT_EOF fi else cat >&2 <<_LT_EOF $progname: Version mismatch error. This is $PACKAGE $VERSION, revision $package_revision, $progname: but the definition of this LT_INIT comes from revision $macro_revision. $progname: You should recreate aclocal.m4 with macros from revision $package_revision $progname: of $PACKAGE $VERSION and run autoconf again. _LT_EOF fi exit $EXIT_MISMATCH fi } ## ----------- ## ## Main. ## ## ----------- ## $opt_help || { # Sanity checks first: func_check_version_match if test "$build_libtool_libs" != yes && test "$build_old_libs" != yes; then func_fatal_configuration "not configured to build any kind of library" fi test -z "$mode" && func_fatal_error "error: you must specify a MODE." # Darwin sucks eval std_shrext=\"$shrext_cmds\" # Only execute mode is allowed to have -dlopen flags. if test -n "$execute_dlfiles" && test "$mode" != execute; then func_error "unrecognized option \`-dlopen'" $ECHO "$help" 1>&2 exit $EXIT_FAILURE fi # Change the help message to a mode-specific one. generic_help="$help" help="Try \`$progname --help --mode=$mode' for more information." } # func_lalib_p file # True iff FILE is a libtool `.la' library or `.lo' object file. # This function is only a basic sanity check; it will hardly flush out # determined imposters. func_lalib_p () { test -f "$1" && $SED -e 4q "$1" 2>/dev/null \ | $GREP "^# Generated by .*$PACKAGE" > /dev/null 2>&1 } # func_lalib_unsafe_p file # True iff FILE is a libtool `.la' library or `.lo' object file. # This function implements the same check as func_lalib_p without # resorting to external programs. To this end, it redirects stdin and # closes it afterwards, without saving the original file descriptor. # As a safety measure, use it only where a negative result would be # fatal anyway. Works if `file' does not exist. func_lalib_unsafe_p () { lalib_p=no if test -f "$1" && test -r "$1" && exec 5<&0 <"$1"; then for lalib_p_l in 1 2 3 4 do read lalib_p_line case "$lalib_p_line" in \#\ Generated\ by\ *$PACKAGE* ) lalib_p=yes; break;; esac done exec 0<&5 5<&- fi test "$lalib_p" = yes } # func_ltwrapper_script_p file # True iff FILE is a libtool wrapper script # This function is only a basic sanity check; it will hardly flush out # determined imposters. func_ltwrapper_script_p () { func_lalib_p "$1" } # func_ltwrapper_executable_p file # True iff FILE is a libtool wrapper executable # This function is only a basic sanity check; it will hardly flush out # determined imposters. func_ltwrapper_executable_p () { func_ltwrapper_exec_suffix= case $1 in *.exe) ;; *) func_ltwrapper_exec_suffix=.exe ;; esac $GREP "$magic_exe" "$1$func_ltwrapper_exec_suffix" >/dev/null 2>&1 } # func_ltwrapper_scriptname file # Assumes file is an ltwrapper_executable # uses $file to determine the appropriate filename for a # temporary ltwrapper_script. func_ltwrapper_scriptname () { func_ltwrapper_scriptname_result="" if func_ltwrapper_executable_p "$1"; then func_dirname_and_basename "$1" "" "." func_stripname '' '.exe' "$func_basename_result" func_ltwrapper_scriptname_result="$func_dirname_result/$objdir/${func_stripname_result}_ltshwrapper" fi } # func_ltwrapper_p file # True iff FILE is a libtool wrapper script or wrapper executable # This function is only a basic sanity check; it will hardly flush out # determined imposters. func_ltwrapper_p () { func_ltwrapper_script_p "$1" || func_ltwrapper_executable_p "$1" } # func_execute_cmds commands fail_cmd # Execute tilde-delimited COMMANDS. # If FAIL_CMD is given, eval that upon failure. # FAIL_CMD may read-access the current command in variable CMD! func_execute_cmds () { $opt_debug save_ifs=$IFS; IFS='~' for cmd in $1; do IFS=$save_ifs eval cmd=\"$cmd\" func_show_eval "$cmd" "${2-:}" done IFS=$save_ifs } # func_source file # Source FILE, adding directory component if necessary. # Note that it is not necessary on cygwin/mingw to append a dot to # FILE even if both FILE and FILE.exe exist: automatic-append-.exe # behavior happens only for exec(3), not for open(2)! Also, sourcing # `FILE.' does not work on cygwin managed mounts. func_source () { $opt_debug case $1 in */* | *\\*) . "$1" ;; *) . "./$1" ;; esac } # func_infer_tag arg # Infer tagged configuration to use if any are available and # if one wasn't chosen via the "--tag" command line option. # Only attempt this if the compiler in the base compile # command doesn't match the default compiler. # arg is usually of the form 'gcc ...' func_infer_tag () { $opt_debug if test -n "$available_tags" && test -z "$tagname"; then CC_quoted= for arg in $CC; do func_quote_for_eval "$arg" CC_quoted="$CC_quoted $func_quote_for_eval_result" done case $@ in # Blanks in the command may have been stripped by the calling shell, # but not from the CC environment variable when configure was run. " $CC "* | "$CC "* | " `$ECHO $CC` "* | "`$ECHO $CC` "* | " $CC_quoted"* | "$CC_quoted "* | " `$ECHO $CC_quoted` "* | "`$ECHO $CC_quoted` "*) ;; # Blanks at the start of $base_compile will cause this to fail # if we don't check for them as well. *) for z in $available_tags; do if $GREP "^# ### BEGIN LIBTOOL TAG CONFIG: $z$" < "$progpath" > /dev/null; then # Evaluate the configuration. eval "`${SED} -n -e '/^# ### BEGIN LIBTOOL TAG CONFIG: '$z'$/,/^# ### END LIBTOOL TAG CONFIG: '$z'$/p' < $progpath`" CC_quoted= for arg in $CC; do # Double-quote args containing other shell metacharacters. func_quote_for_eval "$arg" CC_quoted="$CC_quoted $func_quote_for_eval_result" done case "$@ " in " $CC "* | "$CC "* | " `$ECHO $CC` "* | "`$ECHO $CC` "* | " $CC_quoted"* | "$CC_quoted "* | " `$ECHO $CC_quoted` "* | "`$ECHO $CC_quoted` "*) # The compiler in the base compile command matches # the one in the tagged configuration. # Assume this is the tagged configuration we want. tagname=$z break ;; esac fi done # If $tagname still isn't set, then no tagged configuration # was found and let the user know that the "--tag" command # line option must be used. if test -z "$tagname"; then func_echo "unable to infer tagged configuration" func_fatal_error "specify a tag with \`--tag'" # else # func_verbose "using $tagname tagged configuration" fi ;; esac fi } # func_write_libtool_object output_name pic_name nonpic_name # Create a libtool object file (analogous to a ".la" file), # but don't create it if we're doing a dry run. func_write_libtool_object () { write_libobj=${1} if test "$build_libtool_libs" = yes; then write_lobj=\'${2}\' else write_lobj=none fi if test "$build_old_libs" = yes; then write_oldobj=\'${3}\' else write_oldobj=none fi $opt_dry_run || { cat >${write_libobj}T <?"'"'"' &()|`$[]' \ && func_warning "libobj name \`$libobj' may not contain shell special characters." func_dirname_and_basename "$obj" "/" "" objname="$func_basename_result" xdir="$func_dirname_result" lobj=${xdir}$objdir/$objname test -z "$base_compile" && \ func_fatal_help "you must specify a compilation command" # Delete any leftover library objects. if test "$build_old_libs" = yes; then removelist="$obj $lobj $libobj ${libobj}T" else removelist="$lobj $libobj ${libobj}T" fi # On Cygwin there's no "real" PIC flag so we must build both object types case $host_os in cygwin* | mingw* | pw32* | os2* | cegcc*) pic_mode=default ;; esac if test "$pic_mode" = no && test "$deplibs_check_method" != pass_all; then # non-PIC code in shared libraries is not supported pic_mode=default fi # Calculate the filename of the output object if compiler does # not support -o with -c if test "$compiler_c_o" = no; then output_obj=`$ECHO "X$srcfile" | $Xsed -e 's%^.*/%%' -e 's%\.[^.]*$%%'`.${objext} lockfile="$output_obj.lock" else output_obj= need_locks=no lockfile= fi # Lock this critical section if it is needed # We use this script file to make the link, it avoids creating a new file if test "$need_locks" = yes; then until $opt_dry_run || ln "$progpath" "$lockfile" 2>/dev/null; do func_echo "Waiting for $lockfile to be removed" sleep 2 done elif test "$need_locks" = warn; then if test -f "$lockfile"; then $ECHO "\ *** ERROR, $lockfile exists and contains: `cat $lockfile 2>/dev/null` This indicates that another process is trying to use the same temporary object file, and libtool could not work around it because your compiler does not support \`-c' and \`-o' together. If you repeat this compilation, it may succeed, by chance, but you had better avoid parallel builds (make -j) in this platform, or get a better compiler." $opt_dry_run || $RM $removelist exit $EXIT_FAILURE fi removelist="$removelist $output_obj" $ECHO "$srcfile" > "$lockfile" fi $opt_dry_run || $RM $removelist removelist="$removelist $lockfile" trap '$opt_dry_run || $RM $removelist; exit $EXIT_FAILURE' 1 2 15 if test -n "$fix_srcfile_path"; then eval srcfile=\"$fix_srcfile_path\" fi func_quote_for_eval "$srcfile" qsrcfile=$func_quote_for_eval_result # Only build a PIC object if we are building libtool libraries. if test "$build_libtool_libs" = yes; then # Without this assignment, base_compile gets emptied. fbsd_hideous_sh_bug=$base_compile if test "$pic_mode" != no; then command="$base_compile $qsrcfile $pic_flag" else # Don't build PIC code command="$base_compile $qsrcfile" fi func_mkdir_p "$xdir$objdir" if test -z "$output_obj"; then # Place PIC objects in $objdir command="$command -o $lobj" fi func_show_eval_locale "$command" \ 'test -n "$output_obj" && $RM $removelist; exit $EXIT_FAILURE' if test "$need_locks" = warn && test "X`cat $lockfile 2>/dev/null`" != "X$srcfile"; then $ECHO "\ *** ERROR, $lockfile contains: `cat $lockfile 2>/dev/null` but it should contain: $srcfile This indicates that another process is trying to use the same temporary object file, and libtool could not work around it because your compiler does not support \`-c' and \`-o' together. If you repeat this compilation, it may succeed, by chance, but you had better avoid parallel builds (make -j) in this platform, or get a better compiler." $opt_dry_run || $RM $removelist exit $EXIT_FAILURE fi # Just move the object if needed, then go on to compile the next one if test -n "$output_obj" && test "X$output_obj" != "X$lobj"; then func_show_eval '$MV "$output_obj" "$lobj"' \ 'error=$?; $opt_dry_run || $RM $removelist; exit $error' fi # Allow error messages only from the first compilation. if test "$suppress_opt" = yes; then suppress_output=' >/dev/null 2>&1' fi fi # Only build a position-dependent object if we build old libraries. if test "$build_old_libs" = yes; then if test "$pic_mode" != yes; then # Don't build PIC code command="$base_compile $qsrcfile$pie_flag" else command="$base_compile $qsrcfile $pic_flag" fi if test "$compiler_c_o" = yes; then command="$command -o $obj" fi # Suppress compiler output if we already did a PIC compilation. command="$command$suppress_output" func_show_eval_locale "$command" \ '$opt_dry_run || $RM $removelist; exit $EXIT_FAILURE' if test "$need_locks" = warn && test "X`cat $lockfile 2>/dev/null`" != "X$srcfile"; then $ECHO "\ *** ERROR, $lockfile contains: `cat $lockfile 2>/dev/null` but it should contain: $srcfile This indicates that another process is trying to use the same temporary object file, and libtool could not work around it because your compiler does not support \`-c' and \`-o' together. If you repeat this compilation, it may succeed, by chance, but you had better avoid parallel builds (make -j) in this platform, or get a better compiler." $opt_dry_run || $RM $removelist exit $EXIT_FAILURE fi # Just move the object if needed if test -n "$output_obj" && test "X$output_obj" != "X$obj"; then func_show_eval '$MV "$output_obj" "$obj"' \ 'error=$?; $opt_dry_run || $RM $removelist; exit $error' fi fi $opt_dry_run || { func_write_libtool_object "$libobj" "$objdir/$objname" "$objname" # Unlock the critical section if it was locked if test "$need_locks" != no; then removelist=$lockfile $RM "$lockfile" fi } exit $EXIT_SUCCESS } $opt_help || { test "$mode" = compile && func_mode_compile ${1+"$@"} } func_mode_help () { # We need to display help for each of the modes. case $mode in "") # Generic help is extracted from the usage comments # at the start of this file. func_help ;; clean) $ECHO \ "Usage: $progname [OPTION]... --mode=clean RM [RM-OPTION]... FILE... Remove files from the build directory. RM is the name of the program to use to delete files associated with each FILE (typically \`/bin/rm'). RM-OPTIONS are options (such as \`-f') to be passed to RM. If FILE is a libtool library, object or program, all the files associated with it are deleted. Otherwise, only FILE itself is deleted using RM." ;; compile) $ECHO \ "Usage: $progname [OPTION]... --mode=compile COMPILE-COMMAND... SOURCEFILE Compile a source file into a libtool library object. This mode accepts the following additional options: -o OUTPUT-FILE set the output file name to OUTPUT-FILE -no-suppress do not suppress compiler output for multiple passes -prefer-pic try to building PIC objects only -prefer-non-pic try to building non-PIC objects only -shared do not build a \`.o' file suitable for static linking -static only build a \`.o' file suitable for static linking COMPILE-COMMAND is a command to be used in creating a \`standard' object file from the given SOURCEFILE. The output file name is determined by removing the directory component from SOURCEFILE, then substituting the C source code suffix \`.c' with the library object suffix, \`.lo'." ;; execute) $ECHO \ "Usage: $progname [OPTION]... --mode=execute COMMAND [ARGS]... Automatically set library path, then run a program. This mode accepts the following additional options: -dlopen FILE add the directory containing FILE to the library path This mode sets the library path environment variable according to \`-dlopen' flags. If any of the ARGS are libtool executable wrappers, then they are translated into their corresponding uninstalled binary, and any of their required library directories are added to the library path. Then, COMMAND is executed, with ARGS as arguments." ;; finish) $ECHO \ "Usage: $progname [OPTION]... --mode=finish [LIBDIR]... Complete the installation of libtool libraries. Each LIBDIR is a directory that contains libtool libraries. The commands that this mode executes may require superuser privileges. Use the \`--dry-run' option if you just want to see what would be executed." ;; install) $ECHO \ "Usage: $progname [OPTION]... --mode=install INSTALL-COMMAND... Install executables or libraries. INSTALL-COMMAND is the installation command. The first component should be either the \`install' or \`cp' program. The following components of INSTALL-COMMAND are treated specially: -inst-prefix PREFIX-DIR Use PREFIX-DIR as a staging area for installation The rest of the components are interpreted as arguments to that command (only BSD-compatible install options are recognized)." ;; link) $ECHO \ "Usage: $progname [OPTION]... --mode=link LINK-COMMAND... Link object files or libraries together to form another library, or to create an executable program. LINK-COMMAND is a command using the C compiler that you would use to create a program from several object files. The following components of LINK-COMMAND are treated specially: -all-static do not do any dynamic linking at all -avoid-version do not add a version suffix if possible -dlopen FILE \`-dlpreopen' FILE if it cannot be dlopened at runtime -dlpreopen FILE link in FILE and add its symbols to lt_preloaded_symbols -export-dynamic allow symbols from OUTPUT-FILE to be resolved with dlsym(3) -export-symbols SYMFILE try to export only the symbols listed in SYMFILE -export-symbols-regex REGEX try to export only the symbols matching REGEX -LLIBDIR search LIBDIR for required installed libraries -lNAME OUTPUT-FILE requires the installed library libNAME -module build a library that can dlopened -no-fast-install disable the fast-install mode -no-install link a not-installable executable -no-undefined declare that a library does not refer to external symbols -o OUTPUT-FILE create OUTPUT-FILE from the specified objects -objectlist FILE Use a list of object files found in FILE to specify objects -precious-files-regex REGEX don't remove output files matching REGEX -release RELEASE specify package release information -rpath LIBDIR the created library will eventually be installed in LIBDIR -R[ ]LIBDIR add LIBDIR to the runtime path of programs and libraries -shared only do dynamic linking of libtool libraries -shrext SUFFIX override the standard shared library file extension -static do not do any dynamic linking of uninstalled libtool libraries -static-libtool-libs do not do any dynamic linking of libtool libraries -version-info CURRENT[:REVISION[:AGE]] specify library version info [each variable defaults to 0] -weak LIBNAME declare that the target provides the LIBNAME interface All other options (arguments beginning with \`-') are ignored. Every other argument is treated as a filename. Files ending in \`.la' are treated as uninstalled libtool libraries, other files are standard or library object files. If the OUTPUT-FILE ends in \`.la', then a libtool library is created, only library objects (\`.lo' files) may be specified, and \`-rpath' is required, except when creating a convenience library. If OUTPUT-FILE ends in \`.a' or \`.lib', then a standard library is created using \`ar' and \`ranlib', or on Windows using \`lib'. If OUTPUT-FILE ends in \`.lo' or \`.${objext}', then a reloadable object file is created, otherwise an executable program is created." ;; uninstall) $ECHO \ "Usage: $progname [OPTION]... --mode=uninstall RM [RM-OPTION]... FILE... Remove libraries from an installation directory. RM is the name of the program to use to delete files associated with each FILE (typically \`/bin/rm'). RM-OPTIONS are options (such as \`-f') to be passed to RM. If FILE is a libtool library, all the files associated with it are deleted. Otherwise, only FILE itself is deleted using RM." ;; *) func_fatal_help "invalid operation mode \`$mode'" ;; esac $ECHO $ECHO "Try \`$progname --help' for more information about other modes." exit $? } # Now that we've collected a possible --mode arg, show help if necessary $opt_help && func_mode_help # func_mode_execute arg... func_mode_execute () { $opt_debug # The first argument is the command name. cmd="$nonopt" test -z "$cmd" && \ func_fatal_help "you must specify a COMMAND" # Handle -dlopen flags immediately. for file in $execute_dlfiles; do test -f "$file" \ || func_fatal_help "\`$file' is not a file" dir= case $file in *.la) # Check to see that this really is a libtool archive. func_lalib_unsafe_p "$file" \ || func_fatal_help "\`$lib' is not a valid libtool archive" # Read the libtool library. dlname= library_names= func_source "$file" # Skip this library if it cannot be dlopened. if test -z "$dlname"; then # Warn if it was a shared library. test -n "$library_names" && \ func_warning "\`$file' was not linked with \`-export-dynamic'" continue fi func_dirname "$file" "" "." dir="$func_dirname_result" if test -f "$dir/$objdir/$dlname"; then dir="$dir/$objdir" else if test ! -f "$dir/$dlname"; then func_fatal_error "cannot find \`$dlname' in \`$dir' or \`$dir/$objdir'" fi fi ;; *.lo) # Just add the directory containing the .lo file. func_dirname "$file" "" "." dir="$func_dirname_result" ;; *) func_warning "\`-dlopen' is ignored for non-libtool libraries and objects" continue ;; esac # Get the absolute pathname. absdir=`cd "$dir" && pwd` test -n "$absdir" && dir="$absdir" # Now add the directory to shlibpath_var. if eval "test -z \"\$$shlibpath_var\""; then eval "$shlibpath_var=\"\$dir\"" else eval "$shlibpath_var=\"\$dir:\$$shlibpath_var\"" fi done # This variable tells wrapper scripts just to set shlibpath_var # rather than running their programs. libtool_execute_magic="$magic" # Check if any of the arguments is a wrapper script. args= for file do case $file in -*) ;; *) # Do a test to see if this is really a libtool program. if func_ltwrapper_script_p "$file"; then func_source "$file" # Transform arg to wrapped name. file="$progdir/$program" elif func_ltwrapper_executable_p "$file"; then func_ltwrapper_scriptname "$file" func_source "$func_ltwrapper_scriptname_result" # Transform arg to wrapped name. file="$progdir/$program" fi ;; esac # Quote arguments (to preserve shell metacharacters). func_quote_for_eval "$file" args="$args $func_quote_for_eval_result" done if test "X$opt_dry_run" = Xfalse; then if test -n "$shlibpath_var"; then # Export the shlibpath_var. eval "export $shlibpath_var" fi # Restore saved environment variables for lt_var in LANG LANGUAGE LC_ALL LC_CTYPE LC_COLLATE LC_MESSAGES do eval "if test \"\${save_$lt_var+set}\" = set; then $lt_var=\$save_$lt_var; export $lt_var else $lt_unset $lt_var fi" done # Now prepare to actually exec the command. exec_cmd="\$cmd$args" else # Display what would be done. if test -n "$shlibpath_var"; then eval "\$ECHO \"\$shlibpath_var=\$$shlibpath_var\"" $ECHO "export $shlibpath_var" fi $ECHO "$cmd$args" exit $EXIT_SUCCESS fi } test "$mode" = execute && func_mode_execute ${1+"$@"} # func_mode_finish arg... func_mode_finish () { $opt_debug libdirs="$nonopt" admincmds= if test -n "$finish_cmds$finish_eval" && test -n "$libdirs"; then for dir do libdirs="$libdirs $dir" done for libdir in $libdirs; do if test -n "$finish_cmds"; then # Do each command in the finish commands. func_execute_cmds "$finish_cmds" 'admincmds="$admincmds '"$cmd"'"' fi if test -n "$finish_eval"; then # Do the single finish_eval. eval cmds=\"$finish_eval\" $opt_dry_run || eval "$cmds" || admincmds="$admincmds $cmds" fi done fi # Exit here if they wanted silent mode. $opt_silent && exit $EXIT_SUCCESS $ECHO "X----------------------------------------------------------------------" | $Xsed $ECHO "Libraries have been installed in:" for libdir in $libdirs; do $ECHO " $libdir" done $ECHO $ECHO "If you ever happen to want to link against installed libraries" $ECHO "in a given directory, LIBDIR, you must either use libtool, and" $ECHO "specify the full pathname of the library, or use the \`-LLIBDIR'" $ECHO "flag during linking and do at least one of the following:" if test -n "$shlibpath_var"; then $ECHO " - add LIBDIR to the \`$shlibpath_var' environment variable" $ECHO " during execution" fi if test -n "$runpath_var"; then $ECHO " - add LIBDIR to the \`$runpath_var' environment variable" $ECHO " during linking" fi if test -n "$hardcode_libdir_flag_spec"; then libdir=LIBDIR eval flag=\"$hardcode_libdir_flag_spec\" $ECHO " - use the \`$flag' linker flag" fi if test -n "$admincmds"; then $ECHO " - have your system administrator run these commands:$admincmds" fi if test -f /etc/ld.so.conf; then $ECHO " - have your system administrator add LIBDIR to \`/etc/ld.so.conf'" fi $ECHO $ECHO "See any operating system documentation about shared libraries for" case $host in solaris2.[6789]|solaris2.1[0-9]) $ECHO "more information, such as the ld(1), crle(1) and ld.so(8) manual" $ECHO "pages." ;; *) $ECHO "more information, such as the ld(1) and ld.so(8) manual pages." ;; esac $ECHO "X----------------------------------------------------------------------" | $Xsed exit $EXIT_SUCCESS } test "$mode" = finish && func_mode_finish ${1+"$@"} # func_mode_install arg... func_mode_install () { $opt_debug # There may be an optional sh(1) argument at the beginning of # install_prog (especially on Windows NT). if test "$nonopt" = "$SHELL" || test "$nonopt" = /bin/sh || # Allow the use of GNU shtool's install command. $ECHO "X$nonopt" | $GREP shtool >/dev/null; then # Aesthetically quote it. func_quote_for_eval "$nonopt" install_prog="$func_quote_for_eval_result " arg=$1 shift else install_prog= arg=$nonopt fi # The real first argument should be the name of the installation program. # Aesthetically quote it. func_quote_for_eval "$arg" install_prog="$install_prog$func_quote_for_eval_result" # We need to accept at least all the BSD install flags. dest= files= opts= prev= install_type= isdir=no stripme= for arg do if test -n "$dest"; then files="$files $dest" dest=$arg continue fi case $arg in -d) isdir=yes ;; -f) case " $install_prog " in *[\\\ /]cp\ *) ;; *) prev=$arg ;; esac ;; -g | -m | -o) prev=$arg ;; -s) stripme=" -s" continue ;; -*) ;; *) # If the previous option needed an argument, then skip it. if test -n "$prev"; then prev= else dest=$arg continue fi ;; esac # Aesthetically quote the argument. func_quote_for_eval "$arg" install_prog="$install_prog $func_quote_for_eval_result" done test -z "$install_prog" && \ func_fatal_help "you must specify an install program" test -n "$prev" && \ func_fatal_help "the \`$prev' option requires an argument" if test -z "$files"; then if test -z "$dest"; then func_fatal_help "no file or destination specified" else func_fatal_help "you must specify a destination" fi fi # Strip any trailing slash from the destination. func_stripname '' '/' "$dest" dest=$func_stripname_result # Check to see that the destination is a directory. test -d "$dest" && isdir=yes if test "$isdir" = yes; then destdir="$dest" destname= else func_dirname_and_basename "$dest" "" "." destdir="$func_dirname_result" destname="$func_basename_result" # Not a directory, so check to see that there is only one file specified. set dummy $files; shift test "$#" -gt 1 && \ func_fatal_help "\`$dest' is not a directory" fi case $destdir in [\\/]* | [A-Za-z]:[\\/]*) ;; *) for file in $files; do case $file in *.lo) ;; *) func_fatal_help "\`$destdir' must be an absolute directory name" ;; esac done ;; esac # This variable tells wrapper scripts just to set variables rather # than running their programs. libtool_install_magic="$magic" staticlibs= future_libdirs= current_libdirs= for file in $files; do # Do each installation. case $file in *.$libext) # Do the static libraries later. staticlibs="$staticlibs $file" ;; *.la) # Check to see that this really is a libtool archive. func_lalib_unsafe_p "$file" \ || func_fatal_help "\`$file' is not a valid libtool archive" library_names= old_library= relink_command= func_source "$file" # Add the libdir to current_libdirs if it is the destination. if test "X$destdir" = "X$libdir"; then case "$current_libdirs " in *" $libdir "*) ;; *) current_libdirs="$current_libdirs $libdir" ;; esac else # Note the libdir as a future libdir. case "$future_libdirs " in *" $libdir "*) ;; *) future_libdirs="$future_libdirs $libdir" ;; esac fi func_dirname "$file" "/" "" dir="$func_dirname_result" dir="$dir$objdir" if test -n "$relink_command"; then # Determine the prefix the user has applied to our future dir. inst_prefix_dir=`$ECHO "X$destdir" | $Xsed -e "s%$libdir\$%%"` # Don't allow the user to place us outside of our expected # location b/c this prevents finding dependent libraries that # are installed to the same prefix. # At present, this check doesn't affect windows .dll's that # are installed into $libdir/../bin (currently, that works fine) # but it's something to keep an eye on. test "$inst_prefix_dir" = "$destdir" && \ func_fatal_error "error: cannot install \`$file' to a directory not ending in $libdir" if test -n "$inst_prefix_dir"; then # Stick the inst_prefix_dir data into the link command. relink_command=`$ECHO "X$relink_command" | $Xsed -e "s%@inst_prefix_dir@%-inst-prefix-dir $inst_prefix_dir%"` else relink_command=`$ECHO "X$relink_command" | $Xsed -e "s%@inst_prefix_dir@%%"` fi func_warning "relinking \`$file'" func_show_eval "$relink_command" \ 'func_fatal_error "error: relink \`$file'\'' with the above command before installing it"' fi # See the names of the shared library. set dummy $library_names; shift if test -n "$1"; then realname="$1" shift srcname="$realname" test -n "$relink_command" && srcname="$realname"T # Install the shared library and build the symlinks. func_show_eval "$install_prog $dir/$srcname $destdir/$realname" \ 'exit $?' tstripme="$stripme" case $host_os in cygwin* | mingw* | pw32* | cegcc*) case $realname in *.dll.a) tstripme="" ;; esac ;; esac if test -n "$tstripme" && test -n "$striplib"; then func_show_eval "$striplib $destdir/$realname" 'exit $?' fi if test "$#" -gt 0; then # Delete the old symlinks, and create new ones. # Try `ln -sf' first, because the `ln' binary might depend on # the symlink we replace! Solaris /bin/ln does not understand -f, # so we also need to try rm && ln -s. for linkname do test "$linkname" != "$realname" \ && func_show_eval "(cd $destdir && { $LN_S -f $realname $linkname || { $RM $linkname && $LN_S $realname $linkname; }; })" done fi # Do each command in the postinstall commands. lib="$destdir/$realname" func_execute_cmds "$postinstall_cmds" 'exit $?' fi # Install the pseudo-library for information purposes. func_basename "$file" name="$func_basename_result" instname="$dir/$name"i func_show_eval "$install_prog $instname $destdir/$name" 'exit $?' # Maybe install the static library, too. test -n "$old_library" && staticlibs="$staticlibs $dir/$old_library" ;; *.lo) # Install (i.e. copy) a libtool object. # Figure out destination file name, if it wasn't already specified. if test -n "$destname"; then destfile="$destdir/$destname" else func_basename "$file" destfile="$func_basename_result" destfile="$destdir/$destfile" fi # Deduce the name of the destination old-style object file. case $destfile in *.lo) func_lo2o "$destfile" staticdest=$func_lo2o_result ;; *.$objext) staticdest="$destfile" destfile= ;; *) func_fatal_help "cannot copy a libtool object to \`$destfile'" ;; esac # Install the libtool object if requested. test -n "$destfile" && \ func_show_eval "$install_prog $file $destfile" 'exit $?' # Install the old object if enabled. if test "$build_old_libs" = yes; then # Deduce the name of the old-style object file. func_lo2o "$file" staticobj=$func_lo2o_result func_show_eval "$install_prog \$staticobj \$staticdest" 'exit $?' fi exit $EXIT_SUCCESS ;; *) # Figure out destination file name, if it wasn't already specified. if test -n "$destname"; then destfile="$destdir/$destname" else func_basename "$file" destfile="$func_basename_result" destfile="$destdir/$destfile" fi # If the file is missing, and there is a .exe on the end, strip it # because it is most likely a libtool script we actually want to # install stripped_ext="" case $file in *.exe) if test ! -f "$file"; then func_stripname '' '.exe' "$file" file=$func_stripname_result stripped_ext=".exe" fi ;; esac # Do a test to see if this is really a libtool program. case $host in *cygwin* | *mingw*) if func_ltwrapper_executable_p "$file"; then func_ltwrapper_scriptname "$file" wrapper=$func_ltwrapper_scriptname_result else func_stripname '' '.exe' "$file" wrapper=$func_stripname_result fi ;; *) wrapper=$file ;; esac if func_ltwrapper_script_p "$wrapper"; then notinst_deplibs= relink_command= func_source "$wrapper" # Check the variables that should have been set. test -z "$generated_by_libtool_version" && \ func_fatal_error "invalid libtool wrapper script \`$wrapper'" finalize=yes for lib in $notinst_deplibs; do # Check to see that each library is installed. libdir= if test -f "$lib"; then func_source "$lib" fi libfile="$libdir/"`$ECHO "X$lib" | $Xsed -e 's%^.*/%%g'` ### testsuite: skip nested quoting test if test -n "$libdir" && test ! -f "$libfile"; then func_warning "\`$lib' has not been installed in \`$libdir'" finalize=no fi done relink_command= func_source "$wrapper" outputname= if test "$fast_install" = no && test -n "$relink_command"; then $opt_dry_run || { if test "$finalize" = yes; then tmpdir=`func_mktempdir` func_basename "$file$stripped_ext" file="$func_basename_result" outputname="$tmpdir/$file" # Replace the output file specification. relink_command=`$ECHO "X$relink_command" | $Xsed -e 's%@OUTPUT@%'"$outputname"'%g'` $opt_silent || { func_quote_for_expand "$relink_command" eval "func_echo $func_quote_for_expand_result" } if eval "$relink_command"; then : else func_error "error: relink \`$file' with the above command before installing it" $opt_dry_run || ${RM}r "$tmpdir" continue fi file="$outputname" else func_warning "cannot relink \`$file'" fi } else # Install the binary that we compiled earlier. file=`$ECHO "X$file$stripped_ext" | $Xsed -e "s%\([^/]*\)$%$objdir/\1%"` fi fi # remove .exe since cygwin /usr/bin/install will append another # one anyway case $install_prog,$host in */usr/bin/install*,*cygwin*) case $file:$destfile in *.exe:*.exe) # this is ok ;; *.exe:*) destfile=$destfile.exe ;; *:*.exe) func_stripname '' '.exe' "$destfile" destfile=$func_stripname_result ;; esac ;; esac func_show_eval "$install_prog\$stripme \$file \$destfile" 'exit $?' $opt_dry_run || if test -n "$outputname"; then ${RM}r "$tmpdir" fi ;; esac done for file in $staticlibs; do func_basename "$file" name="$func_basename_result" # Set up the ranlib parameters. oldlib="$destdir/$name" func_show_eval "$install_prog \$file \$oldlib" 'exit $?' if test -n "$stripme" && test -n "$old_striplib"; then func_show_eval "$old_striplib $oldlib" 'exit $?' fi # Do each command in the postinstall commands. func_execute_cmds "$old_postinstall_cmds" 'exit $?' done test -n "$future_libdirs" && \ func_warning "remember to run \`$progname --finish$future_libdirs'" if test -n "$current_libdirs"; then # Maybe just do a dry run. $opt_dry_run && current_libdirs=" -n$current_libdirs" exec_cmd='$SHELL $progpath $preserve_args --finish$current_libdirs' else exit $EXIT_SUCCESS fi } test "$mode" = install && func_mode_install ${1+"$@"} # func_generate_dlsyms outputname originator pic_p # Extract symbols from dlprefiles and create ${outputname}S.o with # a dlpreopen symbol table. func_generate_dlsyms () { $opt_debug my_outputname="$1" my_originator="$2" my_pic_p="${3-no}" my_prefix=`$ECHO "$my_originator" | sed 's%[^a-zA-Z0-9]%_%g'` my_dlsyms= if test -n "$dlfiles$dlprefiles" || test "$dlself" != no; then if test -n "$NM" && test -n "$global_symbol_pipe"; then my_dlsyms="${my_outputname}S.c" else func_error "not configured to extract global symbols from dlpreopened files" fi fi if test -n "$my_dlsyms"; then case $my_dlsyms in "") ;; *.c) # Discover the nlist of each of the dlfiles. nlist="$output_objdir/${my_outputname}.nm" func_show_eval "$RM $nlist ${nlist}S ${nlist}T" # Parse the name list into a source file. func_verbose "creating $output_objdir/$my_dlsyms" $opt_dry_run || $ECHO > "$output_objdir/$my_dlsyms" "\ /* $my_dlsyms - symbol resolution table for \`$my_outputname' dlsym emulation. */ /* Generated by $PROGRAM (GNU $PACKAGE$TIMESTAMP) $VERSION */ #ifdef __cplusplus extern \"C\" { #endif /* External symbol declarations for the compiler. */\ " if test "$dlself" = yes; then func_verbose "generating symbol list for \`$output'" $opt_dry_run || echo ': @PROGRAM@ ' > "$nlist" # Add our own program objects to the symbol list. progfiles=`$ECHO "X$objs$old_deplibs" | $SP2NL | $Xsed -e "$lo2o" | $NL2SP` for progfile in $progfiles; do func_verbose "extracting global C symbols from \`$progfile'" $opt_dry_run || eval "$NM $progfile | $global_symbol_pipe >> '$nlist'" done if test -n "$exclude_expsyms"; then $opt_dry_run || { eval '$EGREP -v " ($exclude_expsyms)$" "$nlist" > "$nlist"T' eval '$MV "$nlist"T "$nlist"' } fi if test -n "$export_symbols_regex"; then $opt_dry_run || { eval '$EGREP -e "$export_symbols_regex" "$nlist" > "$nlist"T' eval '$MV "$nlist"T "$nlist"' } fi # Prepare the list of exported symbols if test -z "$export_symbols"; then export_symbols="$output_objdir/$outputname.exp" $opt_dry_run || { $RM $export_symbols eval "${SED} -n -e '/^: @PROGRAM@ $/d' -e 's/^.* \(.*\)$/\1/p' "'< "$nlist" > "$export_symbols"' case $host in *cygwin* | *mingw* | *cegcc* ) eval "echo EXPORTS "'> "$output_objdir/$outputname.def"' eval 'cat "$export_symbols" >> "$output_objdir/$outputname.def"' ;; esac } else $opt_dry_run || { eval "${SED} -e 's/\([].[*^$]\)/\\\\\1/g' -e 's/^/ /' -e 's/$/$/'"' < "$export_symbols" > "$output_objdir/$outputname.exp"' eval '$GREP -f "$output_objdir/$outputname.exp" < "$nlist" > "$nlist"T' eval '$MV "$nlist"T "$nlist"' case $host in *cygwin | *mingw* | *cegcc* ) eval "echo EXPORTS "'> "$output_objdir/$outputname.def"' eval 'cat "$nlist" >> "$output_objdir/$outputname.def"' ;; esac } fi fi for dlprefile in $dlprefiles; do func_verbose "extracting global C symbols from \`$dlprefile'" func_basename "$dlprefile" name="$func_basename_result" $opt_dry_run || { eval '$ECHO ": $name " >> "$nlist"' eval "$NM $dlprefile 2>/dev/null | $global_symbol_pipe >> '$nlist'" } done $opt_dry_run || { # Make sure we have at least an empty file. test -f "$nlist" || : > "$nlist" if test -n "$exclude_expsyms"; then $EGREP -v " ($exclude_expsyms)$" "$nlist" > "$nlist"T $MV "$nlist"T "$nlist" fi # Try sorting and uniquifying the output. if $GREP -v "^: " < "$nlist" | if sort -k 3 /dev/null 2>&1; then sort -k 3 else sort +2 fi | uniq > "$nlist"S; then : else $GREP -v "^: " < "$nlist" > "$nlist"S fi if test -f "$nlist"S; then eval "$global_symbol_to_cdecl"' < "$nlist"S >> "$output_objdir/$my_dlsyms"' else $ECHO '/* NONE */' >> "$output_objdir/$my_dlsyms" fi $ECHO >> "$output_objdir/$my_dlsyms" "\ /* The mapping between symbol names and symbols. */ typedef struct { const char *name; void *address; } lt_dlsymlist; " case $host in *cygwin* | *mingw* | *cegcc* ) $ECHO >> "$output_objdir/$my_dlsyms" "\ /* DATA imports from DLLs on WIN32 con't be const, because runtime relocations are performed -- see ld's documentation on pseudo-relocs. */" lt_dlsym_const= ;; *osf5*) echo >> "$output_objdir/$my_dlsyms" "\ /* This system does not cope well with relocations in const data */" lt_dlsym_const= ;; *) lt_dlsym_const=const ;; esac $ECHO >> "$output_objdir/$my_dlsyms" "\ extern $lt_dlsym_const lt_dlsymlist lt_${my_prefix}_LTX_preloaded_symbols[]; $lt_dlsym_const lt_dlsymlist lt_${my_prefix}_LTX_preloaded_symbols[] = {\ { \"$my_originator\", (void *) 0 }," case $need_lib_prefix in no) eval "$global_symbol_to_c_name_address" < "$nlist" >> "$output_objdir/$my_dlsyms" ;; *) eval "$global_symbol_to_c_name_address_lib_prefix" < "$nlist" >> "$output_objdir/$my_dlsyms" ;; esac $ECHO >> "$output_objdir/$my_dlsyms" "\ {0, (void *) 0} }; /* This works around a problem in FreeBSD linker */ #ifdef FREEBSD_WORKAROUND static const void *lt_preloaded_setup() { return lt_${my_prefix}_LTX_preloaded_symbols; } #endif #ifdef __cplusplus } #endif\ " } # !$opt_dry_run pic_flag_for_symtable= case "$compile_command " in *" -static "*) ;; *) case $host in # compiling the symbol table file with pic_flag works around # a FreeBSD bug that causes programs to crash when -lm is # linked before any other PIC object. But we must not use # pic_flag when linking with -static. The problem exists in # FreeBSD 2.2.6 and is fixed in FreeBSD 3.1. *-*-freebsd2*|*-*-freebsd3.0*|*-*-freebsdelf3.0*) pic_flag_for_symtable=" $pic_flag -DFREEBSD_WORKAROUND" ;; *-*-hpux*) pic_flag_for_symtable=" $pic_flag" ;; *) if test "X$my_pic_p" != Xno; then pic_flag_for_symtable=" $pic_flag" fi ;; esac ;; esac symtab_cflags= for arg in $LTCFLAGS; do case $arg in -pie | -fpie | -fPIE) ;; *) symtab_cflags="$symtab_cflags $arg" ;; esac done # Now compile the dynamic symbol file. func_show_eval '(cd $output_objdir && $LTCC$symtab_cflags -c$no_builtin_flag$pic_flag_for_symtable "$my_dlsyms")' 'exit $?' # Clean up the generated files. func_show_eval '$RM "$output_objdir/$my_dlsyms" "$nlist" "${nlist}S" "${nlist}T"' # Transform the symbol file into the correct name. symfileobj="$output_objdir/${my_outputname}S.$objext" case $host in *cygwin* | *mingw* | *cegcc* ) if test -f "$output_objdir/$my_outputname.def"; then compile_command=`$ECHO "X$compile_command" | $Xsed -e "s%@SYMFILE@%$output_objdir/$my_outputname.def $symfileobj%"` finalize_command=`$ECHO "X$finalize_command" | $Xsed -e "s%@SYMFILE@%$output_objdir/$my_outputname.def $symfileobj%"` else compile_command=`$ECHO "X$compile_command" | $Xsed -e "s%@SYMFILE@%$symfileobj%"` finalize_command=`$ECHO "X$finalize_command" | $Xsed -e "s%@SYMFILE@%$symfileobj%"` fi ;; *) compile_command=`$ECHO "X$compile_command" | $Xsed -e "s%@SYMFILE@%$symfileobj%"` finalize_command=`$ECHO "X$finalize_command" | $Xsed -e "s%@SYMFILE@%$symfileobj%"` ;; esac ;; *) func_fatal_error "unknown suffix for \`$my_dlsyms'" ;; esac else # We keep going just in case the user didn't refer to # lt_preloaded_symbols. The linker will fail if global_symbol_pipe # really was required. # Nullify the symbol file. compile_command=`$ECHO "X$compile_command" | $Xsed -e "s% @SYMFILE@%%"` finalize_command=`$ECHO "X$finalize_command" | $Xsed -e "s% @SYMFILE@%%"` fi } # func_win32_libid arg # return the library type of file 'arg' # # Need a lot of goo to handle *both* DLLs and import libs # Has to be a shell function in order to 'eat' the argument # that is supplied when $file_magic_command is called. func_win32_libid () { $opt_debug win32_libid_type="unknown" win32_fileres=`file -L $1 2>/dev/null` case $win32_fileres in *ar\ archive\ import\ library*) # definitely import win32_libid_type="x86 archive import" ;; *ar\ archive*) # could be an import, or static if eval $OBJDUMP -f $1 | $SED -e '10q' 2>/dev/null | $EGREP 'file format pe-i386(.*architecture: i386)?' >/dev/null ; then win32_nmres=`eval $NM -f posix -A $1 | $SED -n -e ' 1,100{ / I /{ s,.*,import, p q } }'` case $win32_nmres in import*) win32_libid_type="x86 archive import";; *) win32_libid_type="x86 archive static";; esac fi ;; *DLL*) win32_libid_type="x86 DLL" ;; *executable*) # but shell scripts are "executable" too... case $win32_fileres in *MS\ Windows\ PE\ Intel*) win32_libid_type="x86 DLL" ;; esac ;; esac $ECHO "$win32_libid_type" } # func_extract_an_archive dir oldlib func_extract_an_archive () { $opt_debug f_ex_an_ar_dir="$1"; shift f_ex_an_ar_oldlib="$1" func_show_eval "(cd \$f_ex_an_ar_dir && $AR x \"\$f_ex_an_ar_oldlib\")" 'exit $?' if ($AR t "$f_ex_an_ar_oldlib" | sort | sort -uc >/dev/null 2>&1); then : else func_fatal_error "object name conflicts in archive: $f_ex_an_ar_dir/$f_ex_an_ar_oldlib" fi } # func_extract_archives gentop oldlib ... func_extract_archives () { $opt_debug my_gentop="$1"; shift my_oldlibs=${1+"$@"} my_oldobjs="" my_xlib="" my_xabs="" my_xdir="" for my_xlib in $my_oldlibs; do # Extract the objects. case $my_xlib in [\\/]* | [A-Za-z]:[\\/]*) my_xabs="$my_xlib" ;; *) my_xabs=`pwd`"/$my_xlib" ;; esac func_basename "$my_xlib" my_xlib="$func_basename_result" my_xlib_u=$my_xlib while :; do case " $extracted_archives " in *" $my_xlib_u "*) func_arith $extracted_serial + 1 extracted_serial=$func_arith_result my_xlib_u=lt$extracted_serial-$my_xlib ;; *) break ;; esac done extracted_archives="$extracted_archives $my_xlib_u" my_xdir="$my_gentop/$my_xlib_u" func_mkdir_p "$my_xdir" case $host in *-darwin*) func_verbose "Extracting $my_xabs" # Do not bother doing anything if just a dry run $opt_dry_run || { darwin_orig_dir=`pwd` cd $my_xdir || exit $? darwin_archive=$my_xabs darwin_curdir=`pwd` darwin_base_archive=`basename "$darwin_archive"` darwin_arches=`$LIPO -info "$darwin_archive" 2>/dev/null | $GREP Architectures 2>/dev/null || true` if test -n "$darwin_arches"; then darwin_arches=`$ECHO "$darwin_arches" | $SED -e 's/.*are://'` darwin_arch= func_verbose "$darwin_base_archive has multiple architectures $darwin_arches" for darwin_arch in $darwin_arches ; do func_mkdir_p "unfat-$$/${darwin_base_archive}-${darwin_arch}" $LIPO -thin $darwin_arch -output "unfat-$$/${darwin_base_archive}-${darwin_arch}/${darwin_base_archive}" "${darwin_archive}" cd "unfat-$$/${darwin_base_archive}-${darwin_arch}" func_extract_an_archive "`pwd`" "${darwin_base_archive}" cd "$darwin_curdir" $RM "unfat-$$/${darwin_base_archive}-${darwin_arch}/${darwin_base_archive}" done # $darwin_arches ## Okay now we've a bunch of thin objects, gotta fatten them up :) darwin_filelist=`find unfat-$$ -type f -name \*.o -print -o -name \*.lo -print | $SED -e "$basename" | sort -u` darwin_file= darwin_files= for darwin_file in $darwin_filelist; do darwin_files=`find unfat-$$ -name $darwin_file -print | $NL2SP` $LIPO -create -output "$darwin_file" $darwin_files done # $darwin_filelist $RM -rf unfat-$$ cd "$darwin_orig_dir" else cd $darwin_orig_dir func_extract_an_archive "$my_xdir" "$my_xabs" fi # $darwin_arches } # !$opt_dry_run ;; *) func_extract_an_archive "$my_xdir" "$my_xabs" ;; esac my_oldobjs="$my_oldobjs "`find $my_xdir -name \*.$objext -print -o -name \*.lo -print | $NL2SP` done func_extract_archives_result="$my_oldobjs" } # func_emit_wrapper_part1 [arg=no] # # Emit the first part of a libtool wrapper script on stdout. # For more information, see the description associated with # func_emit_wrapper(), below. func_emit_wrapper_part1 () { func_emit_wrapper_part1_arg1=no if test -n "$1" ; then func_emit_wrapper_part1_arg1=$1 fi $ECHO "\ #! $SHELL # $output - temporary wrapper script for $objdir/$outputname # Generated by $PROGRAM (GNU $PACKAGE$TIMESTAMP) $VERSION # # The $output program cannot be directly executed until all the libtool # libraries that it depends on are installed. # # This wrapper script should never be moved out of the build directory. # If it is, it will not operate correctly. # Sed substitution that helps us do robust quoting. It backslashifies # metacharacters that are still active within double-quoted strings. Xsed='${SED} -e 1s/^X//' sed_quote_subst='$sed_quote_subst' # Be Bourne compatible if test -n \"\${ZSH_VERSION+set}\" && (emulate sh) >/dev/null 2>&1; then emulate sh NULLCMD=: # Zsh 3.x and 4.x performs word splitting on \${1+\"\$@\"}, which # is contrary to our usage. Disable this feature. alias -g '\${1+\"\$@\"}'='\"\$@\"' setopt NO_GLOB_SUBST else case \`(set -o) 2>/dev/null\` in *posix*) set -o posix;; esac fi BIN_SH=xpg4; export BIN_SH # for Tru64 DUALCASE=1; export DUALCASE # for MKS sh # The HP-UX ksh and POSIX shell print the target directory to stdout # if CDPATH is set. (unset CDPATH) >/dev/null 2>&1 && unset CDPATH relink_command=\"$relink_command\" # This environment variable determines our operation mode. if test \"\$libtool_install_magic\" = \"$magic\"; then # install mode needs the following variables: generated_by_libtool_version='$macro_version' notinst_deplibs='$notinst_deplibs' else # When we are sourced in execute mode, \$file and \$ECHO are already set. if test \"\$libtool_execute_magic\" != \"$magic\"; then ECHO=\"$qecho\" file=\"\$0\" # Make sure echo works. if test \"X\$1\" = X--no-reexec; then # Discard the --no-reexec flag, and continue. shift elif test \"X\`{ \$ECHO '\t'; } 2>/dev/null\`\" = 'X\t'; then # Yippee, \$ECHO works! : else # Restart under the correct shell, and then maybe \$ECHO will work. exec $SHELL \"\$0\" --no-reexec \${1+\"\$@\"} fi fi\ " $ECHO "\ # Find the directory that this script lives in. thisdir=\`\$ECHO \"X\$file\" | \$Xsed -e 's%/[^/]*$%%'\` test \"x\$thisdir\" = \"x\$file\" && thisdir=. # Follow symbolic links until we get to the real thisdir. file=\`ls -ld \"\$file\" | ${SED} -n 's/.*-> //p'\` while test -n \"\$file\"; do destdir=\`\$ECHO \"X\$file\" | \$Xsed -e 's%/[^/]*\$%%'\` # If there was a directory component, then change thisdir. if test \"x\$destdir\" != \"x\$file\"; then case \"\$destdir\" in [\\\\/]* | [A-Za-z]:[\\\\/]*) thisdir=\"\$destdir\" ;; *) thisdir=\"\$thisdir/\$destdir\" ;; esac fi file=\`\$ECHO \"X\$file\" | \$Xsed -e 's%^.*/%%'\` file=\`ls -ld \"\$thisdir/\$file\" | ${SED} -n 's/.*-> //p'\` done " } # end: func_emit_wrapper_part1 # func_emit_wrapper_part2 [arg=no] # # Emit the second part of a libtool wrapper script on stdout. # For more information, see the description associated with # func_emit_wrapper(), below. func_emit_wrapper_part2 () { func_emit_wrapper_part2_arg1=no if test -n "$1" ; then func_emit_wrapper_part2_arg1=$1 fi $ECHO "\ # Usually 'no', except on cygwin/mingw when embedded into # the cwrapper. WRAPPER_SCRIPT_BELONGS_IN_OBJDIR=$func_emit_wrapper_part2_arg1 if test \"\$WRAPPER_SCRIPT_BELONGS_IN_OBJDIR\" = \"yes\"; then # special case for '.' if test \"\$thisdir\" = \".\"; then thisdir=\`pwd\` fi # remove .libs from thisdir case \"\$thisdir\" in *[\\\\/]$objdir ) thisdir=\`\$ECHO \"X\$thisdir\" | \$Xsed -e 's%[\\\\/][^\\\\/]*$%%'\` ;; $objdir ) thisdir=. ;; esac fi # Try to get the absolute directory name. absdir=\`cd \"\$thisdir\" && pwd\` test -n \"\$absdir\" && thisdir=\"\$absdir\" " if test "$fast_install" = yes; then $ECHO "\ program=lt-'$outputname'$exeext progdir=\"\$thisdir/$objdir\" if test ! -f \"\$progdir/\$program\" || { file=\`ls -1dt \"\$progdir/\$program\" \"\$progdir/../\$program\" 2>/dev/null | ${SED} 1q\`; \\ test \"X\$file\" != \"X\$progdir/\$program\"; }; then file=\"\$\$-\$program\" if test ! -d \"\$progdir\"; then $MKDIR \"\$progdir\" else $RM \"\$progdir/\$file\" fi" $ECHO "\ # relink executable if necessary if test -n \"\$relink_command\"; then if relink_command_output=\`eval \$relink_command 2>&1\`; then : else $ECHO \"\$relink_command_output\" >&2 $RM \"\$progdir/\$file\" exit 1 fi fi $MV \"\$progdir/\$file\" \"\$progdir/\$program\" 2>/dev/null || { $RM \"\$progdir/\$program\"; $MV \"\$progdir/\$file\" \"\$progdir/\$program\"; } $RM \"\$progdir/\$file\" fi" else $ECHO "\ program='$outputname' progdir=\"\$thisdir/$objdir\" " fi $ECHO "\ if test -f \"\$progdir/\$program\"; then" # Export our shlibpath_var if we have one. if test "$shlibpath_overrides_runpath" = yes && test -n "$shlibpath_var" && test -n "$temp_rpath"; then $ECHO "\ # Add our own library path to $shlibpath_var $shlibpath_var=\"$temp_rpath\$$shlibpath_var\" # Some systems cannot cope with colon-terminated $shlibpath_var # The second colon is a workaround for a bug in BeOS R4 sed $shlibpath_var=\`\$ECHO \"X\$$shlibpath_var\" | \$Xsed -e 's/::*\$//'\` export $shlibpath_var " fi # fixup the dll searchpath if we need to. if test -n "$dllsearchpath"; then $ECHO "\ # Add the dll search path components to the executable PATH PATH=$dllsearchpath:\$PATH " fi $ECHO "\ if test \"\$libtool_execute_magic\" != \"$magic\"; then # Run the actual program with our arguments. " case $host in # Backslashes separate directories on plain windows *-*-mingw | *-*-os2* | *-cegcc*) $ECHO "\ exec \"\$progdir\\\\\$program\" \${1+\"\$@\"} " ;; *) $ECHO "\ exec \"\$progdir/\$program\" \${1+\"\$@\"} " ;; esac $ECHO "\ \$ECHO \"\$0: cannot exec \$program \$*\" 1>&2 exit 1 fi else # The program doesn't exist. \$ECHO \"\$0: error: \\\`\$progdir/\$program' does not exist\" 1>&2 \$ECHO \"This script is just a wrapper for \$program.\" 1>&2 $ECHO \"See the $PACKAGE documentation for more information.\" 1>&2 exit 1 fi fi\ " } # end: func_emit_wrapper_part2 # func_emit_wrapper [arg=no] # # Emit a libtool wrapper script on stdout. # Don't directly open a file because we may want to # incorporate the script contents within a cygwin/mingw # wrapper executable. Must ONLY be called from within # func_mode_link because it depends on a number of variables # set therein. # # ARG is the value that the WRAPPER_SCRIPT_BELONGS_IN_OBJDIR # variable will take. If 'yes', then the emitted script # will assume that the directory in which it is stored is # the $objdir directory. This is a cygwin/mingw-specific # behavior. func_emit_wrapper () { func_emit_wrapper_arg1=no if test -n "$1" ; then func_emit_wrapper_arg1=$1 fi # split this up so that func_emit_cwrapperexe_src # can call each part independently. func_emit_wrapper_part1 "${func_emit_wrapper_arg1}" func_emit_wrapper_part2 "${func_emit_wrapper_arg1}" } # func_to_host_path arg # # Convert paths to host format when used with build tools. # Intended for use with "native" mingw (where libtool itself # is running under the msys shell), or in the following cross- # build environments: # $build $host # mingw (msys) mingw [e.g. native] # cygwin mingw # *nix + wine mingw # where wine is equipped with the `winepath' executable. # In the native mingw case, the (msys) shell automatically # converts paths for any non-msys applications it launches, # but that facility isn't available from inside the cwrapper. # Similar accommodations are necessary for $host mingw and # $build cygwin. Calling this function does no harm for other # $host/$build combinations not listed above. # # ARG is the path (on $build) that should be converted to # the proper representation for $host. The result is stored # in $func_to_host_path_result. func_to_host_path () { func_to_host_path_result="$1" if test -n "$1" ; then case $host in *mingw* ) lt_sed_naive_backslashify='s|\\\\*|\\|g;s|/|\\|g;s|\\|\\\\|g' case $build in *mingw* ) # actually, msys # awkward: cmd appends spaces to result lt_sed_strip_trailing_spaces="s/[ ]*\$//" func_to_host_path_tmp1=`( cmd //c echo "$1" |\ $SED -e "$lt_sed_strip_trailing_spaces" ) 2>/dev/null || echo ""` func_to_host_path_result=`echo "$func_to_host_path_tmp1" |\ $SED -e "$lt_sed_naive_backslashify"` ;; *cygwin* ) func_to_host_path_tmp1=`cygpath -w "$1"` func_to_host_path_result=`echo "$func_to_host_path_tmp1" |\ $SED -e "$lt_sed_naive_backslashify"` ;; * ) # Unfortunately, winepath does not exit with a non-zero # error code, so we are forced to check the contents of # stdout. On the other hand, if the command is not # found, the shell will set an exit code of 127 and print # *an error message* to stdout. So we must check for both # error code of zero AND non-empty stdout, which explains # the odd construction: func_to_host_path_tmp1=`winepath -w "$1" 2>/dev/null` if test "$?" -eq 0 && test -n "${func_to_host_path_tmp1}"; then func_to_host_path_result=`echo "$func_to_host_path_tmp1" |\ $SED -e "$lt_sed_naive_backslashify"` else # Allow warning below. func_to_host_path_result="" fi ;; esac if test -z "$func_to_host_path_result" ; then func_error "Could not determine host path corresponding to" func_error " '$1'" func_error "Continuing, but uninstalled executables may not work." # Fallback: func_to_host_path_result="$1" fi ;; esac fi } # end: func_to_host_path # func_to_host_pathlist arg # # Convert pathlists to host format when used with build tools. # See func_to_host_path(), above. This function supports the # following $build/$host combinations (but does no harm for # combinations not listed here): # $build $host # mingw (msys) mingw [e.g. native] # cygwin mingw # *nix + wine mingw # # Path separators are also converted from $build format to # $host format. If ARG begins or ends with a path separator # character, it is preserved (but converted to $host format) # on output. # # ARG is a pathlist (on $build) that should be converted to # the proper representation on $host. The result is stored # in $func_to_host_pathlist_result. func_to_host_pathlist () { func_to_host_pathlist_result="$1" if test -n "$1" ; then case $host in *mingw* ) lt_sed_naive_backslashify='s|\\\\*|\\|g;s|/|\\|g;s|\\|\\\\|g' # Remove leading and trailing path separator characters from # ARG. msys behavior is inconsistent here, cygpath turns them # into '.;' and ';.', and winepath ignores them completely. func_to_host_pathlist_tmp2="$1" # Once set for this call, this variable should not be # reassigned. It is used in tha fallback case. func_to_host_pathlist_tmp1=`echo "$func_to_host_pathlist_tmp2" |\ $SED -e 's|^:*||' -e 's|:*$||'` case $build in *mingw* ) # Actually, msys. # Awkward: cmd appends spaces to result. lt_sed_strip_trailing_spaces="s/[ ]*\$//" func_to_host_pathlist_tmp2=`( cmd //c echo "$func_to_host_pathlist_tmp1" |\ $SED -e "$lt_sed_strip_trailing_spaces" ) 2>/dev/null || echo ""` func_to_host_pathlist_result=`echo "$func_to_host_pathlist_tmp2" |\ $SED -e "$lt_sed_naive_backslashify"` ;; *cygwin* ) func_to_host_pathlist_tmp2=`cygpath -w -p "$func_to_host_pathlist_tmp1"` func_to_host_pathlist_result=`echo "$func_to_host_pathlist_tmp2" |\ $SED -e "$lt_sed_naive_backslashify"` ;; * ) # unfortunately, winepath doesn't convert pathlists func_to_host_pathlist_result="" func_to_host_pathlist_oldIFS=$IFS IFS=: for func_to_host_pathlist_f in $func_to_host_pathlist_tmp1 ; do IFS=$func_to_host_pathlist_oldIFS if test -n "$func_to_host_pathlist_f" ; then func_to_host_path "$func_to_host_pathlist_f" if test -n "$func_to_host_path_result" ; then if test -z "$func_to_host_pathlist_result" ; then func_to_host_pathlist_result="$func_to_host_path_result" else func_to_host_pathlist_result="$func_to_host_pathlist_result;$func_to_host_path_result" fi fi fi IFS=: done IFS=$func_to_host_pathlist_oldIFS ;; esac if test -z "$func_to_host_pathlist_result" ; then func_error "Could not determine the host path(s) corresponding to" func_error " '$1'" func_error "Continuing, but uninstalled executables may not work." # Fallback. This may break if $1 contains DOS-style drive # specifications. The fix is not to complicate the expression # below, but for the user to provide a working wine installation # with winepath so that path translation in the cross-to-mingw # case works properly. lt_replace_pathsep_nix_to_dos="s|:|;|g" func_to_host_pathlist_result=`echo "$func_to_host_pathlist_tmp1" |\ $SED -e "$lt_replace_pathsep_nix_to_dos"` fi # Now, add the leading and trailing path separators back case "$1" in :* ) func_to_host_pathlist_result=";$func_to_host_pathlist_result" ;; esac case "$1" in *: ) func_to_host_pathlist_result="$func_to_host_pathlist_result;" ;; esac ;; esac fi } # end: func_to_host_pathlist # func_emit_cwrapperexe_src # emit the source code for a wrapper executable on stdout # Must ONLY be called from within func_mode_link because # it depends on a number of variable set therein. func_emit_cwrapperexe_src () { cat < #include #ifdef _MSC_VER # include # include # include # define setmode _setmode #else # include # include # ifdef __CYGWIN__ # include # define HAVE_SETENV # ifdef __STRICT_ANSI__ char *realpath (const char *, char *); int putenv (char *); int setenv (const char *, const char *, int); # endif # endif #endif #include #include #include #include #include #include #include #include #if defined(PATH_MAX) # define LT_PATHMAX PATH_MAX #elif defined(MAXPATHLEN) # define LT_PATHMAX MAXPATHLEN #else # define LT_PATHMAX 1024 #endif #ifndef S_IXOTH # define S_IXOTH 0 #endif #ifndef S_IXGRP # define S_IXGRP 0 #endif #ifdef _MSC_VER # define S_IXUSR _S_IEXEC # define stat _stat # ifndef _INTPTR_T_DEFINED # define intptr_t int # endif #endif #ifndef DIR_SEPARATOR # define DIR_SEPARATOR '/' # define PATH_SEPARATOR ':' #endif #if defined (_WIN32) || defined (__MSDOS__) || defined (__DJGPP__) || \ defined (__OS2__) # define HAVE_DOS_BASED_FILE_SYSTEM # define FOPEN_WB "wb" # ifndef DIR_SEPARATOR_2 # define DIR_SEPARATOR_2 '\\' # endif # ifndef PATH_SEPARATOR_2 # define PATH_SEPARATOR_2 ';' # endif #endif #ifndef DIR_SEPARATOR_2 # define IS_DIR_SEPARATOR(ch) ((ch) == DIR_SEPARATOR) #else /* DIR_SEPARATOR_2 */ # define IS_DIR_SEPARATOR(ch) \ (((ch) == DIR_SEPARATOR) || ((ch) == DIR_SEPARATOR_2)) #endif /* DIR_SEPARATOR_2 */ #ifndef PATH_SEPARATOR_2 # define IS_PATH_SEPARATOR(ch) ((ch) == PATH_SEPARATOR) #else /* PATH_SEPARATOR_2 */ # define IS_PATH_SEPARATOR(ch) ((ch) == PATH_SEPARATOR_2) #endif /* PATH_SEPARATOR_2 */ #ifdef __CYGWIN__ # define FOPEN_WB "wb" #endif #ifndef FOPEN_WB # define FOPEN_WB "w" #endif #ifndef _O_BINARY # define _O_BINARY 0 #endif #define XMALLOC(type, num) ((type *) xmalloc ((num) * sizeof(type))) #define XFREE(stale) do { \ if (stale) { free ((void *) stale); stale = 0; } \ } while (0) #undef LTWRAPPER_DEBUGPRINTF #if defined DEBUGWRAPPER # define LTWRAPPER_DEBUGPRINTF(args) ltwrapper_debugprintf args static void ltwrapper_debugprintf (const char *fmt, ...) { va_list args; va_start (args, fmt); (void) vfprintf (stderr, fmt, args); va_end (args); } #else # define LTWRAPPER_DEBUGPRINTF(args) #endif const char *program_name = NULL; void *xmalloc (size_t num); char *xstrdup (const char *string); const char *base_name (const char *name); char *find_executable (const char *wrapper); char *chase_symlinks (const char *pathspec); int make_executable (const char *path); int check_executable (const char *path); char *strendzap (char *str, const char *pat); void lt_fatal (const char *message, ...); void lt_setenv (const char *name, const char *value); char *lt_extend_str (const char *orig_value, const char *add, int to_end); void lt_opt_process_env_set (const char *arg); void lt_opt_process_env_prepend (const char *arg); void lt_opt_process_env_append (const char *arg); int lt_split_name_value (const char *arg, char** name, char** value); void lt_update_exe_path (const char *name, const char *value); void lt_update_lib_path (const char *name, const char *value); static const char *script_text_part1 = EOF func_emit_wrapper_part1 yes | $SED -e 's/\([\\"]\)/\\\1/g' \ -e 's/^/ "/' -e 's/$/\\n"/' echo ";" cat <"))); for (i = 0; i < newargc; i++) { LTWRAPPER_DEBUGPRINTF (("(main) newargz[%d] : %s\n", i, (newargz[i] ? newargz[i] : ""))); } EOF case $host_os in mingw*) cat <<"EOF" /* execv doesn't actually work on mingw as expected on unix */ rval = _spawnv (_P_WAIT, lt_argv_zero, (const char * const *) newargz); if (rval == -1) { /* failed to start process */ LTWRAPPER_DEBUGPRINTF (("(main) failed to launch target \"%s\": errno = %d\n", lt_argv_zero, errno)); return 127; } return rval; EOF ;; *) cat <<"EOF" execv (lt_argv_zero, newargz); return rval; /* =127, but avoids unused variable warning */ EOF ;; esac cat <<"EOF" } void * xmalloc (size_t num) { void *p = (void *) malloc (num); if (!p) lt_fatal ("Memory exhausted"); return p; } char * xstrdup (const char *string) { return string ? strcpy ((char *) xmalloc (strlen (string) + 1), string) : NULL; } const char * base_name (const char *name) { const char *base; #if defined (HAVE_DOS_BASED_FILE_SYSTEM) /* Skip over the disk name in MSDOS pathnames. */ if (isalpha ((unsigned char) name[0]) && name[1] == ':') name += 2; #endif for (base = name; *name; name++) if (IS_DIR_SEPARATOR (*name)) base = name + 1; return base; } int check_executable (const char *path) { struct stat st; LTWRAPPER_DEBUGPRINTF (("(check_executable) : %s\n", path ? (*path ? path : "EMPTY!") : "NULL!")); if ((!path) || (!*path)) return 0; if ((stat (path, &st) >= 0) && (st.st_mode & (S_IXUSR | S_IXGRP | S_IXOTH))) return 1; else return 0; } int make_executable (const char *path) { int rval = 0; struct stat st; LTWRAPPER_DEBUGPRINTF (("(make_executable) : %s\n", path ? (*path ? path : "EMPTY!") : "NULL!")); if ((!path) || (!*path)) return 0; if (stat (path, &st) >= 0) { rval = chmod (path, st.st_mode | S_IXOTH | S_IXGRP | S_IXUSR); } return rval; } /* Searches for the full path of the wrapper. Returns newly allocated full path name if found, NULL otherwise Does not chase symlinks, even on platforms that support them. */ char * find_executable (const char *wrapper) { int has_slash = 0; const char *p; const char *p_next; /* static buffer for getcwd */ char tmp[LT_PATHMAX + 1]; int tmp_len; char *concat_name; LTWRAPPER_DEBUGPRINTF (("(find_executable) : %s\n", wrapper ? (*wrapper ? wrapper : "EMPTY!") : "NULL!")); if ((wrapper == NULL) || (*wrapper == '\0')) return NULL; /* Absolute path? */ #if defined (HAVE_DOS_BASED_FILE_SYSTEM) if (isalpha ((unsigned char) wrapper[0]) && wrapper[1] == ':') { concat_name = xstrdup (wrapper); if (check_executable (concat_name)) return concat_name; XFREE (concat_name); } else { #endif if (IS_DIR_SEPARATOR (wrapper[0])) { concat_name = xstrdup (wrapper); if (check_executable (concat_name)) return concat_name; XFREE (concat_name); } #if defined (HAVE_DOS_BASED_FILE_SYSTEM) } #endif for (p = wrapper; *p; p++) if (*p == '/') { has_slash = 1; break; } if (!has_slash) { /* no slashes; search PATH */ const char *path = getenv ("PATH"); if (path != NULL) { for (p = path; *p; p = p_next) { const char *q; size_t p_len; for (q = p; *q; q++) if (IS_PATH_SEPARATOR (*q)) break; p_len = q - p; p_next = (*q == '\0' ? q : q + 1); if (p_len == 0) { /* empty path: current directory */ if (getcwd (tmp, LT_PATHMAX) == NULL) lt_fatal ("getcwd failed"); tmp_len = strlen (tmp); concat_name = XMALLOC (char, tmp_len + 1 + strlen (wrapper) + 1); memcpy (concat_name, tmp, tmp_len); concat_name[tmp_len] = '/'; strcpy (concat_name + tmp_len + 1, wrapper); } else { concat_name = XMALLOC (char, p_len + 1 + strlen (wrapper) + 1); memcpy (concat_name, p, p_len); concat_name[p_len] = '/'; strcpy (concat_name + p_len + 1, wrapper); } if (check_executable (concat_name)) return concat_name; XFREE (concat_name); } } /* not found in PATH; assume curdir */ } /* Relative path | not found in path: prepend cwd */ if (getcwd (tmp, LT_PATHMAX) == NULL) lt_fatal ("getcwd failed"); tmp_len = strlen (tmp); concat_name = XMALLOC (char, tmp_len + 1 + strlen (wrapper) + 1); memcpy (concat_name, tmp, tmp_len); concat_name[tmp_len] = '/'; strcpy (concat_name + tmp_len + 1, wrapper); if (check_executable (concat_name)) return concat_name; XFREE (concat_name); return NULL; } char * chase_symlinks (const char *pathspec) { #ifndef S_ISLNK return xstrdup (pathspec); #else char buf[LT_PATHMAX]; struct stat s; char *tmp_pathspec = xstrdup (pathspec); char *p; int has_symlinks = 0; while (strlen (tmp_pathspec) && !has_symlinks) { LTWRAPPER_DEBUGPRINTF (("checking path component for symlinks: %s\n", tmp_pathspec)); if (lstat (tmp_pathspec, &s) == 0) { if (S_ISLNK (s.st_mode) != 0) { has_symlinks = 1; break; } /* search backwards for last DIR_SEPARATOR */ p = tmp_pathspec + strlen (tmp_pathspec) - 1; while ((p > tmp_pathspec) && (!IS_DIR_SEPARATOR (*p))) p--; if ((p == tmp_pathspec) && (!IS_DIR_SEPARATOR (*p))) { /* no more DIR_SEPARATORS left */ break; } *p = '\0'; } else { char *errstr = strerror (errno); lt_fatal ("Error accessing file %s (%s)", tmp_pathspec, errstr); } } XFREE (tmp_pathspec); if (!has_symlinks) { return xstrdup (pathspec); } tmp_pathspec = realpath (pathspec, buf); if (tmp_pathspec == 0) { lt_fatal ("Could not follow symlinks for %s", pathspec); } return xstrdup (tmp_pathspec); #endif } char * strendzap (char *str, const char *pat) { size_t len, patlen; assert (str != NULL); assert (pat != NULL); len = strlen (str); patlen = strlen (pat); if (patlen <= len) { str += len - patlen; if (strcmp (str, pat) == 0) *str = '\0'; } return str; } static void lt_error_core (int exit_status, const char *mode, const char *message, va_list ap) { fprintf (stderr, "%s: %s: ", program_name, mode); vfprintf (stderr, message, ap); fprintf (stderr, ".\n"); if (exit_status >= 0) exit (exit_status); } void lt_fatal (const char *message, ...) { va_list ap; va_start (ap, message); lt_error_core (EXIT_FAILURE, "FATAL", message, ap); va_end (ap); } void lt_setenv (const char *name, const char *value) { LTWRAPPER_DEBUGPRINTF (("(lt_setenv) setting '%s' to '%s'\n", (name ? name : ""), (value ? value : ""))); { #ifdef HAVE_SETENV /* always make a copy, for consistency with !HAVE_SETENV */ char *str = xstrdup (value); setenv (name, str, 1); #else int len = strlen (name) + 1 + strlen (value) + 1; char *str = XMALLOC (char, len); sprintf (str, "%s=%s", name, value); if (putenv (str) != EXIT_SUCCESS) { XFREE (str); } #endif } } char * lt_extend_str (const char *orig_value, const char *add, int to_end) { char *new_value; if (orig_value && *orig_value) { int orig_value_len = strlen (orig_value); int add_len = strlen (add); new_value = XMALLOC (char, add_len + orig_value_len + 1); if (to_end) { strcpy (new_value, orig_value); strcpy (new_value + orig_value_len, add); } else { strcpy (new_value, add); strcpy (new_value + add_len, orig_value); } } else { new_value = xstrdup (add); } return new_value; } int lt_split_name_value (const char *arg, char** name, char** value) { const char *p; int len; if (!arg || !*arg) return 1; p = strchr (arg, (int)'='); if (!p) return 1; *value = xstrdup (++p); len = strlen (arg) - strlen (*value); *name = XMALLOC (char, len); strncpy (*name, arg, len-1); (*name)[len - 1] = '\0'; return 0; } void lt_opt_process_env_set (const char *arg) { char *name = NULL; char *value = NULL; if (lt_split_name_value (arg, &name, &value) != 0) { XFREE (name); XFREE (value); lt_fatal ("bad argument for %s: '%s'", env_set_opt, arg); } lt_setenv (name, value); XFREE (name); XFREE (value); } void lt_opt_process_env_prepend (const char *arg) { char *name = NULL; char *value = NULL; char *new_value = NULL; if (lt_split_name_value (arg, &name, &value) != 0) { XFREE (name); XFREE (value); lt_fatal ("bad argument for %s: '%s'", env_prepend_opt, arg); } new_value = lt_extend_str (getenv (name), value, 0); lt_setenv (name, new_value); XFREE (new_value); XFREE (name); XFREE (value); } void lt_opt_process_env_append (const char *arg) { char *name = NULL; char *value = NULL; char *new_value = NULL; if (lt_split_name_value (arg, &name, &value) != 0) { XFREE (name); XFREE (value); lt_fatal ("bad argument for %s: '%s'", env_append_opt, arg); } new_value = lt_extend_str (getenv (name), value, 1); lt_setenv (name, new_value); XFREE (new_value); XFREE (name); XFREE (value); } void lt_update_exe_path (const char *name, const char *value) { LTWRAPPER_DEBUGPRINTF (("(lt_update_exe_path) modifying '%s' by prepending '%s'\n", (name ? name : ""), (value ? value : ""))); if (name && *name && value && *value) { char *new_value = lt_extend_str (getenv (name), value, 0); /* some systems can't cope with a ':'-terminated path #' */ int len = strlen (new_value); while (((len = strlen (new_value)) > 0) && IS_PATH_SEPARATOR (new_value[len-1])) { new_value[len-1] = '\0'; } lt_setenv (name, new_value); XFREE (new_value); } } void lt_update_lib_path (const char *name, const char *value) { LTWRAPPER_DEBUGPRINTF (("(lt_update_lib_path) modifying '%s' by prepending '%s'\n", (name ? name : ""), (value ? value : ""))); if (name && *name && value && *value) { char *new_value = lt_extend_str (getenv (name), value, 0); lt_setenv (name, new_value); XFREE (new_value); } } EOF } # end: func_emit_cwrapperexe_src # func_mode_link arg... func_mode_link () { $opt_debug case $host in *-*-cygwin* | *-*-mingw* | *-*-pw32* | *-*-os2* | *-cegcc*) # It is impossible to link a dll without this setting, and # we shouldn't force the makefile maintainer to figure out # which system we are compiling for in order to pass an extra # flag for every libtool invocation. # allow_undefined=no # FIXME: Unfortunately, there are problems with the above when trying # to make a dll which has undefined symbols, in which case not # even a static library is built. For now, we need to specify # -no-undefined on the libtool link line when we can be certain # that all symbols are satisfied, otherwise we get a static library. allow_undefined=yes ;; *) allow_undefined=yes ;; esac libtool_args=$nonopt base_compile="$nonopt $@" compile_command=$nonopt finalize_command=$nonopt compile_rpath= finalize_rpath= compile_shlibpath= finalize_shlibpath= convenience= old_convenience= deplibs= old_deplibs= compiler_flags= linker_flags= dllsearchpath= lib_search_path=`pwd` inst_prefix_dir= new_inherited_linker_flags= avoid_version=no dlfiles= dlprefiles= dlself=no export_dynamic=no export_symbols= export_symbols_regex= generated= libobjs= ltlibs= module=no no_install=no objs= non_pic_objects= precious_files_regex= prefer_static_libs=no preload=no prev= prevarg= release= rpath= xrpath= perm_rpath= temp_rpath= thread_safe=no vinfo= vinfo_number=no weak_libs= single_module="${wl}-single_module" func_infer_tag $base_compile # We need to know -static, to get the right output filenames. for arg do case $arg in -shared) test "$build_libtool_libs" != yes && \ func_fatal_configuration "can not build a shared library" build_old_libs=no break ;; -all-static | -static | -static-libtool-libs) case $arg in -all-static) if test "$build_libtool_libs" = yes && test -z "$link_static_flag"; then func_warning "complete static linking is impossible in this configuration" fi if test -n "$link_static_flag"; then dlopen_self=$dlopen_self_static fi prefer_static_libs=yes ;; -static) if test -z "$pic_flag" && test -n "$link_static_flag"; then dlopen_self=$dlopen_self_static fi prefer_static_libs=built ;; -static-libtool-libs) if test -z "$pic_flag" && test -n "$link_static_flag"; then dlopen_self=$dlopen_self_static fi prefer_static_libs=yes ;; esac build_libtool_libs=no build_old_libs=yes break ;; esac done # See if our shared archives depend on static archives. test -n "$old_archive_from_new_cmds" && build_old_libs=yes # Go through the arguments, transforming them on the way. while test "$#" -gt 0; do arg="$1" shift func_quote_for_eval "$arg" qarg=$func_quote_for_eval_unquoted_result func_append libtool_args " $func_quote_for_eval_result" # If the previous option needs an argument, assign it. if test -n "$prev"; then case $prev in output) func_append compile_command " @OUTPUT@" func_append finalize_command " @OUTPUT@" ;; esac case $prev in dlfiles|dlprefiles) if test "$preload" = no; then # Add the symbol object into the linking commands. func_append compile_command " @SYMFILE@" func_append finalize_command " @SYMFILE@" preload=yes fi case $arg in *.la | *.lo) ;; # We handle these cases below. force) if test "$dlself" = no; then dlself=needless export_dynamic=yes fi prev= continue ;; self) if test "$prev" = dlprefiles; then dlself=yes elif test "$prev" = dlfiles && test "$dlopen_self" != yes; then dlself=yes else dlself=needless export_dynamic=yes fi prev= continue ;; *) if test "$prev" = dlfiles; then dlfiles="$dlfiles $arg" else dlprefiles="$dlprefiles $arg" fi prev= continue ;; esac ;; expsyms) export_symbols="$arg" test -f "$arg" \ || func_fatal_error "symbol file \`$arg' does not exist" prev= continue ;; expsyms_regex) export_symbols_regex="$arg" prev= continue ;; framework) case $host in *-*-darwin*) case "$deplibs " in *" $qarg.ltframework "*) ;; *) deplibs="$deplibs $qarg.ltframework" # this is fixed later ;; esac ;; esac prev= continue ;; inst_prefix) inst_prefix_dir="$arg" prev= continue ;; objectlist) if test -f "$arg"; then save_arg=$arg moreargs= for fil in `cat "$save_arg"` do # moreargs="$moreargs $fil" arg=$fil # A libtool-controlled object. # Check to see that this really is a libtool object. if func_lalib_unsafe_p "$arg"; then pic_object= non_pic_object= # Read the .lo file func_source "$arg" if test -z "$pic_object" || test -z "$non_pic_object" || test "$pic_object" = none && test "$non_pic_object" = none; then func_fatal_error "cannot find name of object for \`$arg'" fi # Extract subdirectory from the argument. func_dirname "$arg" "/" "" xdir="$func_dirname_result" if test "$pic_object" != none; then # Prepend the subdirectory the object is found in. pic_object="$xdir$pic_object" if test "$prev" = dlfiles; then if test "$build_libtool_libs" = yes && test "$dlopen_support" = yes; then dlfiles="$dlfiles $pic_object" prev= continue else # If libtool objects are unsupported, then we need to preload. prev=dlprefiles fi fi # CHECK ME: I think I busted this. -Ossama if test "$prev" = dlprefiles; then # Preload the old-style object. dlprefiles="$dlprefiles $pic_object" prev= fi # A PIC object. func_append libobjs " $pic_object" arg="$pic_object" fi # Non-PIC object. if test "$non_pic_object" != none; then # Prepend the subdirectory the object is found in. non_pic_object="$xdir$non_pic_object" # A standard non-PIC object func_append non_pic_objects " $non_pic_object" if test -z "$pic_object" || test "$pic_object" = none ; then arg="$non_pic_object" fi else # If the PIC object exists, use it instead. # $xdir was prepended to $pic_object above. non_pic_object="$pic_object" func_append non_pic_objects " $non_pic_object" fi else # Only an error if not doing a dry-run. if $opt_dry_run; then # Extract subdirectory from the argument. func_dirname "$arg" "/" "" xdir="$func_dirname_result" func_lo2o "$arg" pic_object=$xdir$objdir/$func_lo2o_result non_pic_object=$xdir$func_lo2o_result func_append libobjs " $pic_object" func_append non_pic_objects " $non_pic_object" else func_fatal_error "\`$arg' is not a valid libtool object" fi fi done else func_fatal_error "link input file \`$arg' does not exist" fi arg=$save_arg prev= continue ;; precious_regex) precious_files_regex="$arg" prev= continue ;; release) release="-$arg" prev= continue ;; rpath | xrpath) # We need an absolute path. case $arg in [\\/]* | [A-Za-z]:[\\/]*) ;; *) func_fatal_error "only absolute run-paths are allowed" ;; esac if test "$prev" = rpath; then case "$rpath " in *" $arg "*) ;; *) rpath="$rpath $arg" ;; esac else case "$xrpath " in *" $arg "*) ;; *) xrpath="$xrpath $arg" ;; esac fi prev= continue ;; shrext) shrext_cmds="$arg" prev= continue ;; weak) weak_libs="$weak_libs $arg" prev= continue ;; xcclinker) linker_flags="$linker_flags $qarg" compiler_flags="$compiler_flags $qarg" prev= func_append compile_command " $qarg" func_append finalize_command " $qarg" continue ;; xcompiler) compiler_flags="$compiler_flags $qarg" prev= func_append compile_command " $qarg" func_append finalize_command " $qarg" continue ;; xlinker) linker_flags="$linker_flags $qarg" compiler_flags="$compiler_flags $wl$qarg" prev= func_append compile_command " $wl$qarg" func_append finalize_command " $wl$qarg" continue ;; *) eval "$prev=\"\$arg\"" prev= continue ;; esac fi # test -n "$prev" prevarg="$arg" case $arg in -all-static) if test -n "$link_static_flag"; then # See comment for -static flag below, for more details. func_append compile_command " $link_static_flag" func_append finalize_command " $link_static_flag" fi continue ;; -allow-undefined) # FIXME: remove this flag sometime in the future. func_fatal_error "\`-allow-undefined' must not be used because it is the default" ;; -avoid-version) avoid_version=yes continue ;; -dlopen) prev=dlfiles continue ;; -dlpreopen) prev=dlprefiles continue ;; -export-dynamic) export_dynamic=yes continue ;; -export-symbols | -export-symbols-regex) if test -n "$export_symbols" || test -n "$export_symbols_regex"; then func_fatal_error "more than one -exported-symbols argument is not allowed" fi if test "X$arg" = "X-export-symbols"; then prev=expsyms else prev=expsyms_regex fi continue ;; -framework) prev=framework continue ;; -inst-prefix-dir) prev=inst_prefix continue ;; # The native IRIX linker understands -LANG:*, -LIST:* and -LNO:* # so, if we see these flags be careful not to treat them like -L -L[A-Z][A-Z]*:*) case $with_gcc/$host in no/*-*-irix* | /*-*-irix*) func_append compile_command " $arg" func_append finalize_command " $arg" ;; esac continue ;; -L*) func_stripname '-L' '' "$arg" dir=$func_stripname_result if test -z "$dir"; then if test "$#" -gt 0; then func_fatal_error "require no space between \`-L' and \`$1'" else func_fatal_error "need path for \`-L' option" fi fi # We need an absolute path. case $dir in [\\/]* | [A-Za-z]:[\\/]*) ;; *) absdir=`cd "$dir" && pwd` test -z "$absdir" && \ func_fatal_error "cannot determine absolute directory name of \`$dir'" dir="$absdir" ;; esac case "$deplibs " in *" -L$dir "*) ;; *) deplibs="$deplibs -L$dir" lib_search_path="$lib_search_path $dir" ;; esac case $host in *-*-cygwin* | *-*-mingw* | *-*-pw32* | *-*-os2* | *-cegcc*) testbindir=`$ECHO "X$dir" | $Xsed -e 's*/lib$*/bin*'` case :$dllsearchpath: in *":$dir:"*) ;; ::) dllsearchpath=$dir;; *) dllsearchpath="$dllsearchpath:$dir";; esac case :$dllsearchpath: in *":$testbindir:"*) ;; ::) dllsearchpath=$testbindir;; *) dllsearchpath="$dllsearchpath:$testbindir";; esac ;; esac continue ;; -l*) if test "X$arg" = "X-lc" || test "X$arg" = "X-lm"; then case $host in *-*-cygwin* | *-*-mingw* | *-*-pw32* | *-*-beos* | *-cegcc*) # These systems don't actually have a C or math library (as such) continue ;; *-*-os2*) # These systems don't actually have a C library (as such) test "X$arg" = "X-lc" && continue ;; *-*-openbsd* | *-*-freebsd* | *-*-dragonfly*) # Do not include libc due to us having libc/libc_r. test "X$arg" = "X-lc" && continue ;; *-*-rhapsody* | *-*-darwin1.[012]) # Rhapsody C and math libraries are in the System framework deplibs="$deplibs System.ltframework" continue ;; *-*-sco3.2v5* | *-*-sco5v6*) # Causes problems with __ctype test "X$arg" = "X-lc" && continue ;; *-*-sysv4.2uw2* | *-*-sysv5* | *-*-unixware* | *-*-OpenUNIX*) # Compiler inserts libc in the correct place for threads to work test "X$arg" = "X-lc" && continue ;; esac elif test "X$arg" = "X-lc_r"; then case $host in *-*-openbsd* | *-*-freebsd* | *-*-dragonfly*) # Do not include libc_r directly, use -pthread flag. continue ;; esac fi deplibs="$deplibs $arg" continue ;; -module) module=yes continue ;; # Tru64 UNIX uses -model [arg] to determine the layout of C++ # classes, name mangling, and exception handling. # Darwin uses the -arch flag to determine output architecture. -model|-arch|-isysroot) compiler_flags="$compiler_flags $arg" func_append compile_command " $arg" func_append finalize_command " $arg" prev=xcompiler continue ;; -mt|-mthreads|-kthread|-Kthread|-pthread|-pthreads|--thread-safe|-threads) compiler_flags="$compiler_flags $arg" func_append compile_command " $arg" func_append finalize_command " $arg" case "$new_inherited_linker_flags " in *" $arg "*) ;; * ) new_inherited_linker_flags="$new_inherited_linker_flags $arg" ;; esac continue ;; -multi_module) single_module="${wl}-multi_module" continue ;; -no-fast-install) fast_install=no continue ;; -no-install) case $host in *-*-cygwin* | *-*-mingw* | *-*-pw32* | *-*-os2* | *-*-darwin* | *-cegcc*) # The PATH hackery in wrapper scripts is required on Windows # and Darwin in order for the loader to find any dlls it needs. func_warning "\`-no-install' is ignored for $host" func_warning "assuming \`-no-fast-install' instead" fast_install=no ;; *) no_install=yes ;; esac continue ;; -no-undefined) allow_undefined=no continue ;; -objectlist) prev=objectlist continue ;; -o) prev=output ;; -precious-files-regex) prev=precious_regex continue ;; -release) prev=release continue ;; -rpath) prev=rpath continue ;; -R) prev=xrpath continue ;; -R*) func_stripname '-R' '' "$arg" dir=$func_stripname_result # We need an absolute path. case $dir in [\\/]* | [A-Za-z]:[\\/]*) ;; *) func_fatal_error "only absolute run-paths are allowed" ;; esac case "$xrpath " in *" $dir "*) ;; *) xrpath="$xrpath $dir" ;; esac continue ;; -shared) # The effects of -shared are defined in a previous loop. continue ;; -shrext) prev=shrext continue ;; -static | -static-libtool-libs) # The effects of -static are defined in a previous loop. # We used to do the same as -all-static on platforms that # didn't have a PIC flag, but the assumption that the effects # would be equivalent was wrong. It would break on at least # Digital Unix and AIX. continue ;; -thread-safe) thread_safe=yes continue ;; -version-info) prev=vinfo continue ;; -version-number) prev=vinfo vinfo_number=yes continue ;; -weak) prev=weak continue ;; -Wc,*) func_stripname '-Wc,' '' "$arg" args=$func_stripname_result arg= save_ifs="$IFS"; IFS=',' for flag in $args; do IFS="$save_ifs" func_quote_for_eval "$flag" arg="$arg $wl$func_quote_for_eval_result" compiler_flags="$compiler_flags $func_quote_for_eval_result" done IFS="$save_ifs" func_stripname ' ' '' "$arg" arg=$func_stripname_result ;; -Wl,*) func_stripname '-Wl,' '' "$arg" args=$func_stripname_result arg= save_ifs="$IFS"; IFS=',' for flag in $args; do IFS="$save_ifs" func_quote_for_eval "$flag" arg="$arg $wl$func_quote_for_eval_result" compiler_flags="$compiler_flags $wl$func_quote_for_eval_result" linker_flags="$linker_flags $func_quote_for_eval_result" done IFS="$save_ifs" func_stripname ' ' '' "$arg" arg=$func_stripname_result ;; -Xcompiler) prev=xcompiler continue ;; -Xlinker) prev=xlinker continue ;; -XCClinker) prev=xcclinker continue ;; # -msg_* for osf cc -msg_*) func_quote_for_eval "$arg" arg="$func_quote_for_eval_result" ;; # -64, -mips[0-9] enable 64-bit mode on the SGI compiler # -r[0-9][0-9]* specifies the processor on the SGI compiler # -xarch=*, -xtarget=* enable 64-bit mode on the Sun compiler # +DA*, +DD* enable 64-bit mode on the HP compiler # -q* pass through compiler args for the IBM compiler # -m*, -t[45]*, -txscale* pass through architecture-specific # compiler args for GCC # -F/path gives path to uninstalled frameworks, gcc on darwin # -p, -pg, --coverage, -fprofile-* pass through profiling flag for GCC # @file GCC response files -64|-mips[0-9]|-r[0-9][0-9]*|-xarch=*|-xtarget=*|+DA*|+DD*|-q*|-m*| \ -t[45]*|-txscale*|-p|-pg|--coverage|-fprofile-*|-F*|@*) func_quote_for_eval "$arg" arg="$func_quote_for_eval_result" func_append compile_command " $arg" func_append finalize_command " $arg" compiler_flags="$compiler_flags $arg" continue ;; # Some other compiler flag. -* | +*) func_quote_for_eval "$arg" arg="$func_quote_for_eval_result" ;; *.$objext) # A standard object. objs="$objs $arg" ;; *.lo) # A libtool-controlled object. # Check to see that this really is a libtool object. if func_lalib_unsafe_p "$arg"; then pic_object= non_pic_object= # Read the .lo file func_source "$arg" if test -z "$pic_object" || test -z "$non_pic_object" || test "$pic_object" = none && test "$non_pic_object" = none; then func_fatal_error "cannot find name of object for \`$arg'" fi # Extract subdirectory from the argument. func_dirname "$arg" "/" "" xdir="$func_dirname_result" if test "$pic_object" != none; then # Prepend the subdirectory the object is found in. pic_object="$xdir$pic_object" if test "$prev" = dlfiles; then if test "$build_libtool_libs" = yes && test "$dlopen_support" = yes; then dlfiles="$dlfiles $pic_object" prev= continue else # If libtool objects are unsupported, then we need to preload. prev=dlprefiles fi fi # CHECK ME: I think I busted this. -Ossama if test "$prev" = dlprefiles; then # Preload the old-style object. dlprefiles="$dlprefiles $pic_object" prev= fi # A PIC object. func_append libobjs " $pic_object" arg="$pic_object" fi # Non-PIC object. if test "$non_pic_object" != none; then # Prepend the subdirectory the object is found in. non_pic_object="$xdir$non_pic_object" # A standard non-PIC object func_append non_pic_objects " $non_pic_object" if test -z "$pic_object" || test "$pic_object" = none ; then arg="$non_pic_object" fi else # If the PIC object exists, use it instead. # $xdir was prepended to $pic_object above. non_pic_object="$pic_object" func_append non_pic_objects " $non_pic_object" fi else # Only an error if not doing a dry-run. if $opt_dry_run; then # Extract subdirectory from the argument. func_dirname "$arg" "/" "" xdir="$func_dirname_result" func_lo2o "$arg" pic_object=$xdir$objdir/$func_lo2o_result non_pic_object=$xdir$func_lo2o_result func_append libobjs " $pic_object" func_append non_pic_objects " $non_pic_object" else func_fatal_error "\`$arg' is not a valid libtool object" fi fi ;; *.$libext) # An archive. deplibs="$deplibs $arg" old_deplibs="$old_deplibs $arg" continue ;; *.la) # A libtool-controlled library. if test "$prev" = dlfiles; then # This library was specified with -dlopen. dlfiles="$dlfiles $arg" prev= elif test "$prev" = dlprefiles; then # The library was specified with -dlpreopen. dlprefiles="$dlprefiles $arg" prev= else deplibs="$deplibs $arg" fi continue ;; # Some other compiler argument. *) # Unknown arguments in both finalize_command and compile_command need # to be aesthetically quoted because they are evaled later. func_quote_for_eval "$arg" arg="$func_quote_for_eval_result" ;; esac # arg # Now actually substitute the argument into the commands. if test -n "$arg"; then func_append compile_command " $arg" func_append finalize_command " $arg" fi done # argument parsing loop test -n "$prev" && \ func_fatal_help "the \`$prevarg' option requires an argument" if test "$export_dynamic" = yes && test -n "$export_dynamic_flag_spec"; then eval arg=\"$export_dynamic_flag_spec\" func_append compile_command " $arg" func_append finalize_command " $arg" fi oldlibs= # calculate the name of the file, without its directory func_basename "$output" outputname="$func_basename_result" libobjs_save="$libobjs" if test -n "$shlibpath_var"; then # get the directories listed in $shlibpath_var eval shlib_search_path=\`\$ECHO \"X\${$shlibpath_var}\" \| \$Xsed -e \'s/:/ /g\'\` else shlib_search_path= fi eval sys_lib_search_path=\"$sys_lib_search_path_spec\" eval sys_lib_dlsearch_path=\"$sys_lib_dlsearch_path_spec\" func_dirname "$output" "/" "" output_objdir="$func_dirname_result$objdir" # Create the object directory. func_mkdir_p "$output_objdir" # Determine the type of output case $output in "") func_fatal_help "you must specify an output file" ;; *.$libext) linkmode=oldlib ;; *.lo | *.$objext) linkmode=obj ;; *.la) linkmode=lib ;; *) linkmode=prog ;; # Anything else should be a program. esac specialdeplibs= libs= # Find all interdependent deplibs by searching for libraries # that are linked more than once (e.g. -la -lb -la) for deplib in $deplibs; do if $opt_duplicate_deps ; then case "$libs " in *" $deplib "*) specialdeplibs="$specialdeplibs $deplib" ;; esac fi libs="$libs $deplib" done if test "$linkmode" = lib; then libs="$predeps $libs $compiler_lib_search_path $postdeps" # Compute libraries that are listed more than once in $predeps # $postdeps and mark them as special (i.e., whose duplicates are # not to be eliminated). pre_post_deps= if $opt_duplicate_compiler_generated_deps; then for pre_post_dep in $predeps $postdeps; do case "$pre_post_deps " in *" $pre_post_dep "*) specialdeplibs="$specialdeplibs $pre_post_deps" ;; esac pre_post_deps="$pre_post_deps $pre_post_dep" done fi pre_post_deps= fi deplibs= newdependency_libs= newlib_search_path= need_relink=no # whether we're linking any uninstalled libtool libraries notinst_deplibs= # not-installed libtool libraries notinst_path= # paths that contain not-installed libtool libraries case $linkmode in lib) passes="conv dlpreopen link" for file in $dlfiles $dlprefiles; do case $file in *.la) ;; *) func_fatal_help "libraries can \`-dlopen' only libtool libraries: $file" ;; esac done ;; prog) compile_deplibs= finalize_deplibs= alldeplibs=no newdlfiles= newdlprefiles= passes="conv scan dlopen dlpreopen link" ;; *) passes="conv" ;; esac for pass in $passes; do # The preopen pass in lib mode reverses $deplibs; put it back here # so that -L comes before libs that need it for instance... if test "$linkmode,$pass" = "lib,link"; then ## FIXME: Find the place where the list is rebuilt in the wrong ## order, and fix it there properly tmp_deplibs= for deplib in $deplibs; do tmp_deplibs="$deplib $tmp_deplibs" done deplibs="$tmp_deplibs" fi if test "$linkmode,$pass" = "lib,link" || test "$linkmode,$pass" = "prog,scan"; then libs="$deplibs" deplibs= fi if test "$linkmode" = prog; then case $pass in dlopen) libs="$dlfiles" ;; dlpreopen) libs="$dlprefiles" ;; link) libs="$deplibs %DEPLIBS% $dependency_libs" ;; esac fi if test "$linkmode,$pass" = "lib,dlpreopen"; then # Collect and forward deplibs of preopened libtool libs for lib in $dlprefiles; do # Ignore non-libtool-libs dependency_libs= case $lib in *.la) func_source "$lib" ;; esac # Collect preopened libtool deplibs, except any this library # has declared as weak libs for deplib in $dependency_libs; do deplib_base=`$ECHO "X$deplib" | $Xsed -e "$basename"` case " $weak_libs " in *" $deplib_base "*) ;; *) deplibs="$deplibs $deplib" ;; esac done done libs="$dlprefiles" fi if test "$pass" = dlopen; then # Collect dlpreopened libraries save_deplibs="$deplibs" deplibs= fi for deplib in $libs; do lib= found=no case $deplib in -mt|-mthreads|-kthread|-Kthread|-pthread|-pthreads|--thread-safe|-threads) if test "$linkmode,$pass" = "prog,link"; then compile_deplibs="$deplib $compile_deplibs" finalize_deplibs="$deplib $finalize_deplibs" else compiler_flags="$compiler_flags $deplib" if test "$linkmode" = lib ; then case "$new_inherited_linker_flags " in *" $deplib "*) ;; * ) new_inherited_linker_flags="$new_inherited_linker_flags $deplib" ;; esac fi fi continue ;; -l*) if test "$linkmode" != lib && test "$linkmode" != prog; then func_warning "\`-l' is ignored for archives/objects" continue fi func_stripname '-l' '' "$deplib" name=$func_stripname_result if test "$linkmode" = lib; then searchdirs="$newlib_search_path $lib_search_path $compiler_lib_search_dirs $sys_lib_search_path $shlib_search_path" else searchdirs="$newlib_search_path $lib_search_path $sys_lib_search_path $shlib_search_path" fi for searchdir in $searchdirs; do for search_ext in .la $std_shrext .so .a; do # Search the libtool library lib="$searchdir/lib${name}${search_ext}" if test -f "$lib"; then if test "$search_ext" = ".la"; then found=yes else found=no fi break 2 fi done done if test "$found" != yes; then # deplib doesn't seem to be a libtool library if test "$linkmode,$pass" = "prog,link"; then compile_deplibs="$deplib $compile_deplibs" finalize_deplibs="$deplib $finalize_deplibs" else deplibs="$deplib $deplibs" test "$linkmode" = lib && newdependency_libs="$deplib $newdependency_libs" fi continue else # deplib is a libtool library # If $allow_libtool_libs_with_static_runtimes && $deplib is a stdlib, # We need to do some special things here, and not later. if test "X$allow_libtool_libs_with_static_runtimes" = "Xyes" ; then case " $predeps $postdeps " in *" $deplib "*) if func_lalib_p "$lib"; then library_names= old_library= func_source "$lib" for l in $old_library $library_names; do ll="$l" done if test "X$ll" = "X$old_library" ; then # only static version available found=no func_dirname "$lib" "" "." ladir="$func_dirname_result" lib=$ladir/$old_library if test "$linkmode,$pass" = "prog,link"; then compile_deplibs="$deplib $compile_deplibs" finalize_deplibs="$deplib $finalize_deplibs" else deplibs="$deplib $deplibs" test "$linkmode" = lib && newdependency_libs="$deplib $newdependency_libs" fi continue fi fi ;; *) ;; esac fi fi ;; # -l *.ltframework) if test "$linkmode,$pass" = "prog,link"; then compile_deplibs="$deplib $compile_deplibs" finalize_deplibs="$deplib $finalize_deplibs" else deplibs="$deplib $deplibs" if test "$linkmode" = lib ; then case "$new_inherited_linker_flags " in *" $deplib "*) ;; * ) new_inherited_linker_flags="$new_inherited_linker_flags $deplib" ;; esac fi fi continue ;; -L*) case $linkmode in lib) deplibs="$deplib $deplibs" test "$pass" = conv && continue newdependency_libs="$deplib $newdependency_libs" func_stripname '-L' '' "$deplib" newlib_search_path="$newlib_search_path $func_stripname_result" ;; prog) if test "$pass" = conv; then deplibs="$deplib $deplibs" continue fi if test "$pass" = scan; then deplibs="$deplib $deplibs" else compile_deplibs="$deplib $compile_deplibs" finalize_deplibs="$deplib $finalize_deplibs" fi func_stripname '-L' '' "$deplib" newlib_search_path="$newlib_search_path $func_stripname_result" ;; *) func_warning "\`-L' is ignored for archives/objects" ;; esac # linkmode continue ;; # -L -R*) if test "$pass" = link; then func_stripname '-R' '' "$deplib" dir=$func_stripname_result # Make sure the xrpath contains only unique directories. case "$xrpath " in *" $dir "*) ;; *) xrpath="$xrpath $dir" ;; esac fi deplibs="$deplib $deplibs" continue ;; *.la) lib="$deplib" ;; *.$libext) if test "$pass" = conv; then deplibs="$deplib $deplibs" continue fi case $linkmode in lib) # Linking convenience modules into shared libraries is allowed, # but linking other static libraries is non-portable. case " $dlpreconveniencelibs " in *" $deplib "*) ;; *) valid_a_lib=no case $deplibs_check_method in match_pattern*) set dummy $deplibs_check_method; shift match_pattern_regex=`expr "$deplibs_check_method" : "$1 \(.*\)"` if eval "\$ECHO \"X$deplib\"" 2>/dev/null | $Xsed -e 10q \ | $EGREP "$match_pattern_regex" > /dev/null; then valid_a_lib=yes fi ;; pass_all) valid_a_lib=yes ;; esac if test "$valid_a_lib" != yes; then $ECHO $ECHO "*** Warning: Trying to link with static lib archive $deplib." $ECHO "*** I have the capability to make that library automatically link in when" $ECHO "*** you link to this library. But I can only do this if you have a" $ECHO "*** shared version of the library, which you do not appear to have" $ECHO "*** because the file extensions .$libext of this argument makes me believe" $ECHO "*** that it is just a static archive that I should not use here." else $ECHO $ECHO "*** Warning: Linking the shared library $output against the" $ECHO "*** static library $deplib is not portable!" deplibs="$deplib $deplibs" fi ;; esac continue ;; prog) if test "$pass" != link; then deplibs="$deplib $deplibs" else compile_deplibs="$deplib $compile_deplibs" finalize_deplibs="$deplib $finalize_deplibs" fi continue ;; esac # linkmode ;; # *.$libext *.lo | *.$objext) if test "$pass" = conv; then deplibs="$deplib $deplibs" elif test "$linkmode" = prog; then if test "$pass" = dlpreopen || test "$dlopen_support" != yes || test "$build_libtool_libs" = no; then # If there is no dlopen support or we're linking statically, # we need to preload. newdlprefiles="$newdlprefiles $deplib" compile_deplibs="$deplib $compile_deplibs" finalize_deplibs="$deplib $finalize_deplibs" else newdlfiles="$newdlfiles $deplib" fi fi continue ;; %DEPLIBS%) alldeplibs=yes continue ;; esac # case $deplib if test "$found" = yes || test -f "$lib"; then : else func_fatal_error "cannot find the library \`$lib' or unhandled argument \`$deplib'" fi # Check to see that this really is a libtool archive. func_lalib_unsafe_p "$lib" \ || func_fatal_error "\`$lib' is not a valid libtool archive" func_dirname "$lib" "" "." ladir="$func_dirname_result" dlname= dlopen= dlpreopen= libdir= library_names= old_library= inherited_linker_flags= # If the library was installed with an old release of libtool, # it will not redefine variables installed, or shouldnotlink installed=yes shouldnotlink=no avoidtemprpath= # Read the .la file func_source "$lib" # Convert "-framework foo" to "foo.ltframework" if test -n "$inherited_linker_flags"; then tmp_inherited_linker_flags=`$ECHO "X$inherited_linker_flags" | $Xsed -e 's/-framework \([^ $]*\)/\1.ltframework/g'` for tmp_inherited_linker_flag in $tmp_inherited_linker_flags; do case " $new_inherited_linker_flags " in *" $tmp_inherited_linker_flag "*) ;; *) new_inherited_linker_flags="$new_inherited_linker_flags $tmp_inherited_linker_flag";; esac done fi dependency_libs=`$ECHO "X $dependency_libs" | $Xsed -e 's% \([^ $]*\).ltframework% -framework \1%g'` if test "$linkmode,$pass" = "lib,link" || test "$linkmode,$pass" = "prog,scan" || { test "$linkmode" != prog && test "$linkmode" != lib; }; then test -n "$dlopen" && dlfiles="$dlfiles $dlopen" test -n "$dlpreopen" && dlprefiles="$dlprefiles $dlpreopen" fi if test "$pass" = conv; then # Only check for convenience libraries deplibs="$lib $deplibs" if test -z "$libdir"; then if test -z "$old_library"; then func_fatal_error "cannot find name of link library for \`$lib'" fi # It is a libtool convenience library, so add in its objects. convenience="$convenience $ladir/$objdir/$old_library" old_convenience="$old_convenience $ladir/$objdir/$old_library" elif test "$linkmode" != prog && test "$linkmode" != lib; then func_fatal_error "\`$lib' is not a convenience library" fi tmp_libs= for deplib in $dependency_libs; do deplibs="$deplib $deplibs" if $opt_duplicate_deps ; then case "$tmp_libs " in *" $deplib "*) specialdeplibs="$specialdeplibs $deplib" ;; esac fi tmp_libs="$tmp_libs $deplib" done continue fi # $pass = conv # Get the name of the library we link against. linklib= for l in $old_library $library_names; do linklib="$l" done if test -z "$linklib"; then func_fatal_error "cannot find name of link library for \`$lib'" fi # This library was specified with -dlopen. if test "$pass" = dlopen; then if test -z "$libdir"; then func_fatal_error "cannot -dlopen a convenience library: \`$lib'" fi if test -z "$dlname" || test "$dlopen_support" != yes || test "$build_libtool_libs" = no; then # If there is no dlname, no dlopen support or we're linking # statically, we need to preload. We also need to preload any # dependent libraries so libltdl's deplib preloader doesn't # bomb out in the load deplibs phase. dlprefiles="$dlprefiles $lib $dependency_libs" else newdlfiles="$newdlfiles $lib" fi continue fi # $pass = dlopen # We need an absolute path. case $ladir in [\\/]* | [A-Za-z]:[\\/]*) abs_ladir="$ladir" ;; *) abs_ladir=`cd "$ladir" && pwd` if test -z "$abs_ladir"; then func_warning "cannot determine absolute directory name of \`$ladir'" func_warning "passing it literally to the linker, although it might fail" abs_ladir="$ladir" fi ;; esac func_basename "$lib" laname="$func_basename_result" # Find the relevant object directory and library name. if test "X$installed" = Xyes; then if test ! -f "$libdir/$linklib" && test -f "$abs_ladir/$linklib"; then func_warning "library \`$lib' was moved." dir="$ladir" absdir="$abs_ladir" libdir="$abs_ladir" else dir="$libdir" absdir="$libdir" fi test "X$hardcode_automatic" = Xyes && avoidtemprpath=yes else if test ! -f "$ladir/$objdir/$linklib" && test -f "$abs_ladir/$linklib"; then dir="$ladir" absdir="$abs_ladir" # Remove this search path later notinst_path="$notinst_path $abs_ladir" else dir="$ladir/$objdir" absdir="$abs_ladir/$objdir" # Remove this search path later notinst_path="$notinst_path $abs_ladir" fi fi # $installed = yes func_stripname 'lib' '.la' "$laname" name=$func_stripname_result # This library was specified with -dlpreopen. if test "$pass" = dlpreopen; then if test -z "$libdir" && test "$linkmode" = prog; then func_fatal_error "only libraries may -dlpreopen a convenience library: \`$lib'" fi # Prefer using a static library (so that no silly _DYNAMIC symbols # are required to link). if test -n "$old_library"; then newdlprefiles="$newdlprefiles $dir/$old_library" # Keep a list of preopened convenience libraries to check # that they are being used correctly in the link pass. test -z "$libdir" && \ dlpreconveniencelibs="$dlpreconveniencelibs $dir/$old_library" # Otherwise, use the dlname, so that lt_dlopen finds it. elif test -n "$dlname"; then newdlprefiles="$newdlprefiles $dir/$dlname" else newdlprefiles="$newdlprefiles $dir/$linklib" fi fi # $pass = dlpreopen if test -z "$libdir"; then # Link the convenience library if test "$linkmode" = lib; then deplibs="$dir/$old_library $deplibs" elif test "$linkmode,$pass" = "prog,link"; then compile_deplibs="$dir/$old_library $compile_deplibs" finalize_deplibs="$dir/$old_library $finalize_deplibs" else deplibs="$lib $deplibs" # used for prog,scan pass fi continue fi if test "$linkmode" = prog && test "$pass" != link; then newlib_search_path="$newlib_search_path $ladir" deplibs="$lib $deplibs" linkalldeplibs=no if test "$link_all_deplibs" != no || test -z "$library_names" || test "$build_libtool_libs" = no; then linkalldeplibs=yes fi tmp_libs= for deplib in $dependency_libs; do case $deplib in -L*) func_stripname '-L' '' "$deplib" newlib_search_path="$newlib_search_path $func_stripname_result" ;; esac # Need to link against all dependency_libs? if test "$linkalldeplibs" = yes; then deplibs="$deplib $deplibs" else # Need to hardcode shared library paths # or/and link against static libraries newdependency_libs="$deplib $newdependency_libs" fi if $opt_duplicate_deps ; then case "$tmp_libs " in *" $deplib "*) specialdeplibs="$specialdeplibs $deplib" ;; esac fi tmp_libs="$tmp_libs $deplib" done # for deplib continue fi # $linkmode = prog... if test "$linkmode,$pass" = "prog,link"; then if test -n "$library_names" && { { test "$prefer_static_libs" = no || test "$prefer_static_libs,$installed" = "built,yes"; } || test -z "$old_library"; }; then # We need to hardcode the library path if test -n "$shlibpath_var" && test -z "$avoidtemprpath" ; then # Make sure the rpath contains only unique directories. case "$temp_rpath:" in *"$absdir:"*) ;; *) temp_rpath="$temp_rpath$absdir:" ;; esac fi # Hardcode the library path. # Skip directories that are in the system default run-time # search path. case " $sys_lib_dlsearch_path " in *" $absdir "*) ;; *) case "$compile_rpath " in *" $absdir "*) ;; *) compile_rpath="$compile_rpath $absdir" esac ;; esac case " $sys_lib_dlsearch_path " in *" $libdir "*) ;; *) case "$finalize_rpath " in *" $libdir "*) ;; *) finalize_rpath="$finalize_rpath $libdir" esac ;; esac fi # $linkmode,$pass = prog,link... if test "$alldeplibs" = yes && { test "$deplibs_check_method" = pass_all || { test "$build_libtool_libs" = yes && test -n "$library_names"; }; }; then # We only need to search for static libraries continue fi fi link_static=no # Whether the deplib will be linked statically use_static_libs=$prefer_static_libs if test "$use_static_libs" = built && test "$installed" = yes; then use_static_libs=no fi if test -n "$library_names" && { test "$use_static_libs" = no || test -z "$old_library"; }; then case $host in *cygwin* | *mingw* | *cegcc*) # No point in relinking DLLs because paths are not encoded notinst_deplibs="$notinst_deplibs $lib" need_relink=no ;; *) if test "$installed" = no; then notinst_deplibs="$notinst_deplibs $lib" need_relink=yes fi ;; esac # This is a shared library # Warn about portability, can't link against -module's on some # systems (darwin). Don't bleat about dlopened modules though! dlopenmodule="" for dlpremoduletest in $dlprefiles; do if test "X$dlpremoduletest" = "X$lib"; then dlopenmodule="$dlpremoduletest" break fi done if test -z "$dlopenmodule" && test "$shouldnotlink" = yes && test "$pass" = link; then $ECHO if test "$linkmode" = prog; then $ECHO "*** Warning: Linking the executable $output against the loadable module" else $ECHO "*** Warning: Linking the shared library $output against the loadable module" fi $ECHO "*** $linklib is not portable!" fi if test "$linkmode" = lib && test "$hardcode_into_libs" = yes; then # Hardcode the library path. # Skip directories that are in the system default run-time # search path. case " $sys_lib_dlsearch_path " in *" $absdir "*) ;; *) case "$compile_rpath " in *" $absdir "*) ;; *) compile_rpath="$compile_rpath $absdir" esac ;; esac case " $sys_lib_dlsearch_path " in *" $libdir "*) ;; *) case "$finalize_rpath " in *" $libdir "*) ;; *) finalize_rpath="$finalize_rpath $libdir" esac ;; esac fi if test -n "$old_archive_from_expsyms_cmds"; then # figure out the soname set dummy $library_names shift realname="$1" shift libname=`eval "\\$ECHO \"$libname_spec\""` # use dlname if we got it. it's perfectly good, no? if test -n "$dlname"; then soname="$dlname" elif test -n "$soname_spec"; then # bleh windows case $host in *cygwin* | mingw* | *cegcc*) func_arith $current - $age major=$func_arith_result versuffix="-$major" ;; esac eval soname=\"$soname_spec\" else soname="$realname" fi # Make a new name for the extract_expsyms_cmds to use soroot="$soname" func_basename "$soroot" soname="$func_basename_result" func_stripname 'lib' '.dll' "$soname" newlib=libimp-$func_stripname_result.a # If the library has no export list, then create one now if test -f "$output_objdir/$soname-def"; then : else func_verbose "extracting exported symbol list from \`$soname'" func_execute_cmds "$extract_expsyms_cmds" 'exit $?' fi # Create $newlib if test -f "$output_objdir/$newlib"; then :; else func_verbose "generating import library for \`$soname'" func_execute_cmds "$old_archive_from_expsyms_cmds" 'exit $?' fi # make sure the library variables are pointing to the new library dir=$output_objdir linklib=$newlib fi # test -n "$old_archive_from_expsyms_cmds" if test "$linkmode" = prog || test "$mode" != relink; then add_shlibpath= add_dir= add= lib_linked=yes case $hardcode_action in immediate | unsupported) if test "$hardcode_direct" = no; then add="$dir/$linklib" case $host in *-*-sco3.2v5.0.[024]*) add_dir="-L$dir" ;; *-*-sysv4*uw2*) add_dir="-L$dir" ;; *-*-sysv5OpenUNIX* | *-*-sysv5UnixWare7.[01].[10]* | \ *-*-unixware7*) add_dir="-L$dir" ;; *-*-darwin* ) # if the lib is a (non-dlopened) module then we can not # link against it, someone is ignoring the earlier warnings if /usr/bin/file -L $add 2> /dev/null | $GREP ": [^:]* bundle" >/dev/null ; then if test "X$dlopenmodule" != "X$lib"; then $ECHO "*** Warning: lib $linklib is a module, not a shared library" if test -z "$old_library" ; then $ECHO $ECHO "*** And there doesn't seem to be a static archive available" $ECHO "*** The link will probably fail, sorry" else add="$dir/$old_library" fi elif test -n "$old_library"; then add="$dir/$old_library" fi fi esac elif test "$hardcode_minus_L" = no; then case $host in *-*-sunos*) add_shlibpath="$dir" ;; esac add_dir="-L$dir" add="-l$name" elif test "$hardcode_shlibpath_var" = no; then add_shlibpath="$dir" add="-l$name" else lib_linked=no fi ;; relink) if test "$hardcode_direct" = yes && test "$hardcode_direct_absolute" = no; then add="$dir/$linklib" elif test "$hardcode_minus_L" = yes; then add_dir="-L$dir" # Try looking first in the location we're being installed to. if test -n "$inst_prefix_dir"; then case $libdir in [\\/]*) add_dir="$add_dir -L$inst_prefix_dir$libdir" ;; esac fi add="-l$name" elif test "$hardcode_shlibpath_var" = yes; then add_shlibpath="$dir" add="-l$name" else lib_linked=no fi ;; *) lib_linked=no ;; esac if test "$lib_linked" != yes; then func_fatal_configuration "unsupported hardcode properties" fi if test -n "$add_shlibpath"; then case :$compile_shlibpath: in *":$add_shlibpath:"*) ;; *) compile_shlibpath="$compile_shlibpath$add_shlibpath:" ;; esac fi if test "$linkmode" = prog; then test -n "$add_dir" && compile_deplibs="$add_dir $compile_deplibs" test -n "$add" && compile_deplibs="$add $compile_deplibs" else test -n "$add_dir" && deplibs="$add_dir $deplibs" test -n "$add" && deplibs="$add $deplibs" if test "$hardcode_direct" != yes && test "$hardcode_minus_L" != yes && test "$hardcode_shlibpath_var" = yes; then case :$finalize_shlibpath: in *":$libdir:"*) ;; *) finalize_shlibpath="$finalize_shlibpath$libdir:" ;; esac fi fi fi if test "$linkmode" = prog || test "$mode" = relink; then add_shlibpath= add_dir= add= # Finalize command for both is simple: just hardcode it. if test "$hardcode_direct" = yes && test "$hardcode_direct_absolute" = no; then add="$libdir/$linklib" elif test "$hardcode_minus_L" = yes; then add_dir="-L$libdir" add="-l$name" elif test "$hardcode_shlibpath_var" = yes; then case :$finalize_shlibpath: in *":$libdir:"*) ;; *) finalize_shlibpath="$finalize_shlibpath$libdir:" ;; esac add="-l$name" elif test "$hardcode_automatic" = yes; then if test -n "$inst_prefix_dir" && test -f "$inst_prefix_dir$libdir/$linklib" ; then add="$inst_prefix_dir$libdir/$linklib" else add="$libdir/$linklib" fi else # We cannot seem to hardcode it, guess we'll fake it. add_dir="-L$libdir" # Try looking first in the location we're being installed to. if test -n "$inst_prefix_dir"; then case $libdir in [\\/]*) add_dir="$add_dir -L$inst_prefix_dir$libdir" ;; esac fi add="-l$name" fi if test "$linkmode" = prog; then test -n "$add_dir" && finalize_deplibs="$add_dir $finalize_deplibs" test -n "$add" && finalize_deplibs="$add $finalize_deplibs" else test -n "$add_dir" && deplibs="$add_dir $deplibs" test -n "$add" && deplibs="$add $deplibs" fi fi elif test "$linkmode" = prog; then # Here we assume that one of hardcode_direct or hardcode_minus_L # is not unsupported. This is valid on all known static and # shared platforms. if test "$hardcode_direct" != unsupported; then test -n "$old_library" && linklib="$old_library" compile_deplibs="$dir/$linklib $compile_deplibs" finalize_deplibs="$dir/$linklib $finalize_deplibs" else compile_deplibs="-l$name -L$dir $compile_deplibs" finalize_deplibs="-l$name -L$dir $finalize_deplibs" fi elif test "$build_libtool_libs" = yes; then # Not a shared library if test "$deplibs_check_method" != pass_all; then # We're trying link a shared library against a static one # but the system doesn't support it. # Just print a warning and add the library to dependency_libs so # that the program can be linked against the static library. $ECHO $ECHO "*** Warning: This system can not link to static lib archive $lib." $ECHO "*** I have the capability to make that library automatically link in when" $ECHO "*** you link to this library. But I can only do this if you have a" $ECHO "*** shared version of the library, which you do not appear to have." if test "$module" = yes; then $ECHO "*** But as you try to build a module library, libtool will still create " $ECHO "*** a static module, that should work as long as the dlopening application" $ECHO "*** is linked with the -dlopen flag to resolve symbols at runtime." if test -z "$global_symbol_pipe"; then $ECHO $ECHO "*** However, this would only work if libtool was able to extract symbol" $ECHO "*** lists from a program, using \`nm' or equivalent, but libtool could" $ECHO "*** not find such a program. So, this module is probably useless." $ECHO "*** \`nm' from GNU binutils and a full rebuild may help." fi if test "$build_old_libs" = no; then build_libtool_libs=module build_old_libs=yes else build_libtool_libs=no fi fi else deplibs="$dir/$old_library $deplibs" link_static=yes fi fi # link shared/static library? if test "$linkmode" = lib; then if test -n "$dependency_libs" && { test "$hardcode_into_libs" != yes || test "$build_old_libs" = yes || test "$link_static" = yes; }; then # Extract -R from dependency_libs temp_deplibs= for libdir in $dependency_libs; do case $libdir in -R*) func_stripname '-R' '' "$libdir" temp_xrpath=$func_stripname_result case " $xrpath " in *" $temp_xrpath "*) ;; *) xrpath="$xrpath $temp_xrpath";; esac;; *) temp_deplibs="$temp_deplibs $libdir";; esac done dependency_libs="$temp_deplibs" fi newlib_search_path="$newlib_search_path $absdir" # Link against this library test "$link_static" = no && newdependency_libs="$abs_ladir/$laname $newdependency_libs" # ... and its dependency_libs tmp_libs= for deplib in $dependency_libs; do newdependency_libs="$deplib $newdependency_libs" if $opt_duplicate_deps ; then case "$tmp_libs " in *" $deplib "*) specialdeplibs="$specialdeplibs $deplib" ;; esac fi tmp_libs="$tmp_libs $deplib" done if test "$link_all_deplibs" != no; then # Add the search paths of all dependency libraries for deplib in $dependency_libs; do case $deplib in -L*) path="$deplib" ;; *.la) func_dirname "$deplib" "" "." dir="$func_dirname_result" # We need an absolute path. case $dir in [\\/]* | [A-Za-z]:[\\/]*) absdir="$dir" ;; *) absdir=`cd "$dir" && pwd` if test -z "$absdir"; then func_warning "cannot determine absolute directory name of \`$dir'" absdir="$dir" fi ;; esac if $GREP "^installed=no" $deplib > /dev/null; then case $host in *-*-darwin*) depdepl= eval deplibrary_names=`${SED} -n -e 's/^library_names=\(.*\)$/\1/p' $deplib` if test -n "$deplibrary_names" ; then for tmp in $deplibrary_names ; do depdepl=$tmp done if test -f "$absdir/$objdir/$depdepl" ; then depdepl="$absdir/$objdir/$depdepl" darwin_install_name=`${OTOOL} -L $depdepl | awk '{if (NR == 2) {print $1;exit}}'` if test -z "$darwin_install_name"; then darwin_install_name=`${OTOOL64} -L $depdepl | awk '{if (NR == 2) {print $1;exit}}'` fi compiler_flags="$compiler_flags ${wl}-dylib_file ${wl}${darwin_install_name}:${depdepl}" linker_flags="$linker_flags -dylib_file ${darwin_install_name}:${depdepl}" path= fi fi ;; *) path="-L$absdir/$objdir" ;; esac else eval libdir=`${SED} -n -e 's/^libdir=\(.*\)$/\1/p' $deplib` test -z "$libdir" && \ func_fatal_error "\`$deplib' is not a valid libtool archive" test "$absdir" != "$libdir" && \ func_warning "\`$deplib' seems to be moved" path="-L$absdir" fi ;; esac case " $deplibs " in *" $path "*) ;; *) deplibs="$path $deplibs" ;; esac done fi # link_all_deplibs != no fi # linkmode = lib done # for deplib in $libs if test "$pass" = link; then if test "$linkmode" = "prog"; then compile_deplibs="$new_inherited_linker_flags $compile_deplibs" finalize_deplibs="$new_inherited_linker_flags $finalize_deplibs" else compiler_flags="$compiler_flags "`$ECHO "X $new_inherited_linker_flags" | $Xsed -e 's% \([^ $]*\).ltframework% -framework \1%g'` fi fi dependency_libs="$newdependency_libs" if test "$pass" = dlpreopen; then # Link the dlpreopened libraries before other libraries for deplib in $save_deplibs; do deplibs="$deplib $deplibs" done fi if test "$pass" != dlopen; then if test "$pass" != conv; then # Make sure lib_search_path contains only unique directories. lib_search_path= for dir in $newlib_search_path; do case "$lib_search_path " in *" $dir "*) ;; *) lib_search_path="$lib_search_path $dir" ;; esac done newlib_search_path= fi if test "$linkmode,$pass" != "prog,link"; then vars="deplibs" else vars="compile_deplibs finalize_deplibs" fi for var in $vars dependency_libs; do # Add libraries to $var in reverse order eval tmp_libs=\"\$$var\" new_libs= for deplib in $tmp_libs; do # FIXME: Pedantically, this is the right thing to do, so # that some nasty dependency loop isn't accidentally # broken: #new_libs="$deplib $new_libs" # Pragmatically, this seems to cause very few problems in # practice: case $deplib in -L*) new_libs="$deplib $new_libs" ;; -R*) ;; *) # And here is the reason: when a library appears more # than once as an explicit dependence of a library, or # is implicitly linked in more than once by the # compiler, it is considered special, and multiple # occurrences thereof are not removed. Compare this # with having the same library being listed as a # dependency of multiple other libraries: in this case, # we know (pedantically, we assume) the library does not # need to be listed more than once, so we keep only the # last copy. This is not always right, but it is rare # enough that we require users that really mean to play # such unportable linking tricks to link the library # using -Wl,-lname, so that libtool does not consider it # for duplicate removal. case " $specialdeplibs " in *" $deplib "*) new_libs="$deplib $new_libs" ;; *) case " $new_libs " in *" $deplib "*) ;; *) new_libs="$deplib $new_libs" ;; esac ;; esac ;; esac done tmp_libs= for deplib in $new_libs; do case $deplib in -L*) case " $tmp_libs " in *" $deplib "*) ;; *) tmp_libs="$tmp_libs $deplib" ;; esac ;; *) tmp_libs="$tmp_libs $deplib" ;; esac done eval $var=\"$tmp_libs\" done # for var fi # Last step: remove runtime libs from dependency_libs # (they stay in deplibs) tmp_libs= for i in $dependency_libs ; do case " $predeps $postdeps $compiler_lib_search_path " in *" $i "*) i="" ;; esac if test -n "$i" ; then tmp_libs="$tmp_libs $i" fi done dependency_libs=$tmp_libs done # for pass if test "$linkmode" = prog; then dlfiles="$newdlfiles" fi if test "$linkmode" = prog || test "$linkmode" = lib; then dlprefiles="$newdlprefiles" fi case $linkmode in oldlib) if test -n "$dlfiles$dlprefiles" || test "$dlself" != no; then func_warning "\`-dlopen' is ignored for archives" fi case " $deplibs" in *\ -l* | *\ -L*) func_warning "\`-l' and \`-L' are ignored for archives" ;; esac test -n "$rpath" && \ func_warning "\`-rpath' is ignored for archives" test -n "$xrpath" && \ func_warning "\`-R' is ignored for archives" test -n "$vinfo" && \ func_warning "\`-version-info/-version-number' is ignored for archives" test -n "$release" && \ func_warning "\`-release' is ignored for archives" test -n "$export_symbols$export_symbols_regex" && \ func_warning "\`-export-symbols' is ignored for archives" # Now set the variables for building old libraries. build_libtool_libs=no oldlibs="$output" objs="$objs$old_deplibs" ;; lib) # Make sure we only generate libraries of the form `libNAME.la'. case $outputname in lib*) func_stripname 'lib' '.la' "$outputname" name=$func_stripname_result eval shared_ext=\"$shrext_cmds\" eval libname=\"$libname_spec\" ;; *) test "$module" = no && \ func_fatal_help "libtool library \`$output' must begin with \`lib'" if test "$need_lib_prefix" != no; then # Add the "lib" prefix for modules if required func_stripname '' '.la' "$outputname" name=$func_stripname_result eval shared_ext=\"$shrext_cmds\" eval libname=\"$libname_spec\" else func_stripname '' '.la' "$outputname" libname=$func_stripname_result fi ;; esac if test -n "$objs"; then if test "$deplibs_check_method" != pass_all; then func_fatal_error "cannot build libtool library \`$output' from non-libtool objects on this host:$objs" else $ECHO $ECHO "*** Warning: Linking the shared library $output against the non-libtool" $ECHO "*** objects $objs is not portable!" libobjs="$libobjs $objs" fi fi test "$dlself" != no && \ func_warning "\`-dlopen self' is ignored for libtool libraries" set dummy $rpath shift test "$#" -gt 1 && \ func_warning "ignoring multiple \`-rpath's for a libtool library" install_libdir="$1" oldlibs= if test -z "$rpath"; then if test "$build_libtool_libs" = yes; then # Building a libtool convenience library. # Some compilers have problems with a `.al' extension so # convenience libraries should have the same extension an # archive normally would. oldlibs="$output_objdir/$libname.$libext $oldlibs" build_libtool_libs=convenience build_old_libs=yes fi test -n "$vinfo" && \ func_warning "\`-version-info/-version-number' is ignored for convenience libraries" test -n "$release" && \ func_warning "\`-release' is ignored for convenience libraries" else # Parse the version information argument. save_ifs="$IFS"; IFS=':' set dummy $vinfo 0 0 0 shift IFS="$save_ifs" test -n "$7" && \ func_fatal_help "too many parameters to \`-version-info'" # convert absolute version numbers to libtool ages # this retains compatibility with .la files and attempts # to make the code below a bit more comprehensible case $vinfo_number in yes) number_major="$1" number_minor="$2" number_revision="$3" # # There are really only two kinds -- those that # use the current revision as the major version # and those that subtract age and use age as # a minor version. But, then there is irix # which has an extra 1 added just for fun # case $version_type in darwin|linux|osf|windows|none) func_arith $number_major + $number_minor current=$func_arith_result age="$number_minor" revision="$number_revision" ;; freebsd-aout|freebsd-elf|sunos) current="$number_major" revision="$number_minor" age="0" ;; irix|nonstopux) func_arith $number_major + $number_minor current=$func_arith_result age="$number_minor" revision="$number_minor" lt_irix_increment=no ;; esac ;; no) current="$1" revision="$2" age="$3" ;; esac # Check that each of the things are valid numbers. case $current in 0|[1-9]|[1-9][0-9]|[1-9][0-9][0-9]|[1-9][0-9][0-9][0-9]|[1-9][0-9][0-9][0-9][0-9]) ;; *) func_error "CURRENT \`$current' must be a nonnegative integer" func_fatal_error "\`$vinfo' is not valid version information" ;; esac case $revision in 0|[1-9]|[1-9][0-9]|[1-9][0-9][0-9]|[1-9][0-9][0-9][0-9]|[1-9][0-9][0-9][0-9][0-9]) ;; *) func_error "REVISION \`$revision' must be a nonnegative integer" func_fatal_error "\`$vinfo' is not valid version information" ;; esac case $age in 0|[1-9]|[1-9][0-9]|[1-9][0-9][0-9]|[1-9][0-9][0-9][0-9]|[1-9][0-9][0-9][0-9][0-9]) ;; *) func_error "AGE \`$age' must be a nonnegative integer" func_fatal_error "\`$vinfo' is not valid version information" ;; esac if test "$age" -gt "$current"; then func_error "AGE \`$age' is greater than the current interface number \`$current'" func_fatal_error "\`$vinfo' is not valid version information" fi # Calculate the version variables. major= versuffix= verstring= case $version_type in none) ;; darwin) # Like Linux, but with the current version available in # verstring for coding it into the library header func_arith $current - $age major=.$func_arith_result versuffix="$major.$age.$revision" # Darwin ld doesn't like 0 for these options... func_arith $current + 1 minor_current=$func_arith_result xlcverstring="${wl}-compatibility_version ${wl}$minor_current ${wl}-current_version ${wl}$minor_current.$revision" verstring="-compatibility_version $minor_current -current_version $minor_current.$revision" ;; freebsd-aout) major=".$current" versuffix=".$current.$revision"; ;; freebsd-elf) major=".$current" versuffix=".$current" ;; irix | nonstopux) if test "X$lt_irix_increment" = "Xno"; then func_arith $current - $age else func_arith $current - $age + 1 fi major=$func_arith_result case $version_type in nonstopux) verstring_prefix=nonstopux ;; *) verstring_prefix=sgi ;; esac verstring="$verstring_prefix$major.$revision" # Add in all the interfaces that we are compatible with. loop=$revision while test "$loop" -ne 0; do func_arith $revision - $loop iface=$func_arith_result func_arith $loop - 1 loop=$func_arith_result verstring="$verstring_prefix$major.$iface:$verstring" done # Before this point, $major must not contain `.'. major=.$major versuffix="$major.$revision" ;; linux) func_arith $current - $age major=.$func_arith_result versuffix="$major.$age.$revision" ;; osf) func_arith $current - $age major=.$func_arith_result versuffix=".$current.$age.$revision" verstring="$current.$age.$revision" # Add in all the interfaces that we are compatible with. loop=$age while test "$loop" -ne 0; do func_arith $current - $loop iface=$func_arith_result func_arith $loop - 1 loop=$func_arith_result verstring="$verstring:${iface}.0" done # Make executables depend on our current version. verstring="$verstring:${current}.0" ;; qnx) major=".$current" versuffix=".$current" ;; sunos) major=".$current" versuffix=".$current.$revision" ;; windows) # Use '-' rather than '.', since we only want one # extension on DOS 8.3 filesystems. func_arith $current - $age major=$func_arith_result versuffix="-$major" ;; *) func_fatal_configuration "unknown library version type \`$version_type'" ;; esac # Clear the version info if we defaulted, and they specified a release. if test -z "$vinfo" && test -n "$release"; then major= case $version_type in darwin) # we can't check for "0.0" in archive_cmds due to quoting # problems, so we reset it completely verstring= ;; *) verstring="0.0" ;; esac if test "$need_version" = no; then versuffix= else versuffix=".0.0" fi fi # Remove version info from name if versioning should be avoided if test "$avoid_version" = yes && test "$need_version" = no; then major= versuffix= verstring="" fi # Check to see if the archive will have undefined symbols. if test "$allow_undefined" = yes; then if test "$allow_undefined_flag" = unsupported; then func_warning "undefined symbols not allowed in $host shared libraries" build_libtool_libs=no build_old_libs=yes fi else # Don't allow undefined symbols. allow_undefined_flag="$no_undefined_flag" fi fi func_generate_dlsyms "$libname" "$libname" "yes" libobjs="$libobjs $symfileobj" test "X$libobjs" = "X " && libobjs= if test "$mode" != relink; then # Remove our outputs, but don't remove object files since they # may have been created when compiling PIC objects. removelist= tempremovelist=`$ECHO "$output_objdir/*"` for p in $tempremovelist; do case $p in *.$objext | *.gcno) ;; $output_objdir/$outputname | $output_objdir/$libname.* | $output_objdir/${libname}${release}.*) if test "X$precious_files_regex" != "X"; then if $ECHO "$p" | $EGREP -e "$precious_files_regex" >/dev/null 2>&1 then continue fi fi removelist="$removelist $p" ;; *) ;; esac done test -n "$removelist" && \ func_show_eval "${RM}r \$removelist" fi # Now set the variables for building old libraries. if test "$build_old_libs" = yes && test "$build_libtool_libs" != convenience ; then oldlibs="$oldlibs $output_objdir/$libname.$libext" # Transform .lo files to .o files. oldobjs="$objs "`$ECHO "X$libobjs" | $SP2NL | $Xsed -e '/\.'${libext}'$/d' -e "$lo2o" | $NL2SP` fi # Eliminate all temporary directories. #for path in $notinst_path; do # lib_search_path=`$ECHO "X$lib_search_path " | $Xsed -e "s% $path % %g"` # deplibs=`$ECHO "X$deplibs " | $Xsed -e "s% -L$path % %g"` # dependency_libs=`$ECHO "X$dependency_libs " | $Xsed -e "s% -L$path % %g"` #done if test -n "$xrpath"; then # If the user specified any rpath flags, then add them. temp_xrpath= for libdir in $xrpath; do temp_xrpath="$temp_xrpath -R$libdir" case "$finalize_rpath " in *" $libdir "*) ;; *) finalize_rpath="$finalize_rpath $libdir" ;; esac done if test "$hardcode_into_libs" != yes || test "$build_old_libs" = yes; then dependency_libs="$temp_xrpath $dependency_libs" fi fi # Make sure dlfiles contains only unique files that won't be dlpreopened old_dlfiles="$dlfiles" dlfiles= for lib in $old_dlfiles; do case " $dlprefiles $dlfiles " in *" $lib "*) ;; *) dlfiles="$dlfiles $lib" ;; esac done # Make sure dlprefiles contains only unique files old_dlprefiles="$dlprefiles" dlprefiles= for lib in $old_dlprefiles; do case "$dlprefiles " in *" $lib "*) ;; *) dlprefiles="$dlprefiles $lib" ;; esac done if test "$build_libtool_libs" = yes; then if test -n "$rpath"; then case $host in *-*-cygwin* | *-*-mingw* | *-*-pw32* | *-*-os2* | *-*-beos* | *-cegcc*) # these systems don't actually have a c library (as such)! ;; *-*-rhapsody* | *-*-darwin1.[012]) # Rhapsody C library is in the System framework deplibs="$deplibs System.ltframework" ;; *-*-netbsd*) # Don't link with libc until the a.out ld.so is fixed. ;; *-*-openbsd* | *-*-freebsd* | *-*-dragonfly*) # Do not include libc due to us having libc/libc_r. ;; *-*-sco3.2v5* | *-*-sco5v6*) # Causes problems with __ctype ;; *-*-sysv4.2uw2* | *-*-sysv5* | *-*-unixware* | *-*-OpenUNIX*) # Compiler inserts libc in the correct place for threads to work ;; *) # Add libc to deplibs on all other systems if necessary. if test "$build_libtool_need_lc" = "yes"; then deplibs="$deplibs -lc" fi ;; esac fi # Transform deplibs into only deplibs that can be linked in shared. name_save=$name libname_save=$libname release_save=$release versuffix_save=$versuffix major_save=$major # I'm not sure if I'm treating the release correctly. I think # release should show up in the -l (ie -lgmp5) so we don't want to # add it in twice. Is that correct? release="" versuffix="" major="" newdeplibs= droppeddeps=no case $deplibs_check_method in pass_all) # Don't check for shared/static. Everything works. # This might be a little naive. We might want to check # whether the library exists or not. But this is on # osf3 & osf4 and I'm not really sure... Just # implementing what was already the behavior. newdeplibs=$deplibs ;; test_compile) # This code stresses the "libraries are programs" paradigm to its # limits. Maybe even breaks it. We compile a program, linking it # against the deplibs as a proxy for the library. Then we can check # whether they linked in statically or dynamically with ldd. $opt_dry_run || $RM conftest.c cat > conftest.c </dev/null` for potent_lib in $potential_libs; do # Follow soft links. if ls -lLd "$potent_lib" 2>/dev/null | $GREP " -> " >/dev/null; then continue fi # The statement above tries to avoid entering an # endless loop below, in case of cyclic links. # We might still enter an endless loop, since a link # loop can be closed while we follow links, # but so what? potlib="$potent_lib" while test -h "$potlib" 2>/dev/null; do potliblink=`ls -ld $potlib | ${SED} 's/.* -> //'` case $potliblink in [\\/]* | [A-Za-z]:[\\/]*) potlib="$potliblink";; *) potlib=`$ECHO "X$potlib" | $Xsed -e 's,[^/]*$,,'`"$potliblink";; esac done if eval $file_magic_cmd \"\$potlib\" 2>/dev/null | $SED -e 10q | $EGREP "$file_magic_regex" > /dev/null; then newdeplibs="$newdeplibs $a_deplib" a_deplib="" break 2 fi done done fi if test -n "$a_deplib" ; then droppeddeps=yes $ECHO $ECHO "*** Warning: linker path does not have real file for library $a_deplib." $ECHO "*** I have the capability to make that library automatically link in when" $ECHO "*** you link to this library. But I can only do this if you have a" $ECHO "*** shared version of the library, which you do not appear to have" $ECHO "*** because I did check the linker path looking for a file starting" if test -z "$potlib" ; then $ECHO "*** with $libname but no candidates were found. (...for file magic test)" else $ECHO "*** with $libname and none of the candidates passed a file format test" $ECHO "*** using a file magic. Last file checked: $potlib" fi fi ;; *) # Add a -L argument. newdeplibs="$newdeplibs $a_deplib" ;; esac done # Gone through all deplibs. ;; match_pattern*) set dummy $deplibs_check_method; shift match_pattern_regex=`expr "$deplibs_check_method" : "$1 \(.*\)"` for a_deplib in $deplibs; do case $a_deplib in -l*) func_stripname -l '' "$a_deplib" name=$func_stripname_result if test "X$allow_libtool_libs_with_static_runtimes" = "Xyes" ; then case " $predeps $postdeps " in *" $a_deplib "*) newdeplibs="$newdeplibs $a_deplib" a_deplib="" ;; esac fi if test -n "$a_deplib" ; then libname=`eval "\\$ECHO \"$libname_spec\""` for i in $lib_search_path $sys_lib_search_path $shlib_search_path; do potential_libs=`ls $i/$libname[.-]* 2>/dev/null` for potent_lib in $potential_libs; do potlib="$potent_lib" # see symlink-check above in file_magic test if eval "\$ECHO \"X$potent_lib\"" 2>/dev/null | $Xsed -e 10q | \ $EGREP "$match_pattern_regex" > /dev/null; then newdeplibs="$newdeplibs $a_deplib" a_deplib="" break 2 fi done done fi if test -n "$a_deplib" ; then droppeddeps=yes $ECHO $ECHO "*** Warning: linker path does not have real file for library $a_deplib." $ECHO "*** I have the capability to make that library automatically link in when" $ECHO "*** you link to this library. But I can only do this if you have a" $ECHO "*** shared version of the library, which you do not appear to have" $ECHO "*** because I did check the linker path looking for a file starting" if test -z "$potlib" ; then $ECHO "*** with $libname but no candidates were found. (...for regex pattern test)" else $ECHO "*** with $libname and none of the candidates passed a file format test" $ECHO "*** using a regex pattern. Last file checked: $potlib" fi fi ;; *) # Add a -L argument. newdeplibs="$newdeplibs $a_deplib" ;; esac done # Gone through all deplibs. ;; none | unknown | *) newdeplibs="" tmp_deplibs=`$ECHO "X $deplibs" | $Xsed \ -e 's/ -lc$//' -e 's/ -[LR][^ ]*//g'` if test "X$allow_libtool_libs_with_static_runtimes" = "Xyes" ; then for i in $predeps $postdeps ; do # can't use Xsed below, because $i might contain '/' tmp_deplibs=`$ECHO "X $tmp_deplibs" | $Xsed -e "s,$i,,"` done fi if $ECHO "X $tmp_deplibs" | $Xsed -e 's/[ ]//g' | $GREP . >/dev/null; then $ECHO if test "X$deplibs_check_method" = "Xnone"; then $ECHO "*** Warning: inter-library dependencies are not supported in this platform." else $ECHO "*** Warning: inter-library dependencies are not known to be supported." fi $ECHO "*** All declared inter-library dependencies are being dropped." droppeddeps=yes fi ;; esac versuffix=$versuffix_save major=$major_save release=$release_save libname=$libname_save name=$name_save case $host in *-*-rhapsody* | *-*-darwin1.[012]) # On Rhapsody replace the C library with the System framework newdeplibs=`$ECHO "X $newdeplibs" | $Xsed -e 's/ -lc / System.ltframework /'` ;; esac if test "$droppeddeps" = yes; then if test "$module" = yes; then $ECHO $ECHO "*** Warning: libtool could not satisfy all declared inter-library" $ECHO "*** dependencies of module $libname. Therefore, libtool will create" $ECHO "*** a static module, that should work as long as the dlopening" $ECHO "*** application is linked with the -dlopen flag." if test -z "$global_symbol_pipe"; then $ECHO $ECHO "*** However, this would only work if libtool was able to extract symbol" $ECHO "*** lists from a program, using \`nm' or equivalent, but libtool could" $ECHO "*** not find such a program. So, this module is probably useless." $ECHO "*** \`nm' from GNU binutils and a full rebuild may help." fi if test "$build_old_libs" = no; then oldlibs="$output_objdir/$libname.$libext" build_libtool_libs=module build_old_libs=yes else build_libtool_libs=no fi else $ECHO "*** The inter-library dependencies that have been dropped here will be" $ECHO "*** automatically added whenever a program is linked with this library" $ECHO "*** or is declared to -dlopen it." if test "$allow_undefined" = no; then $ECHO $ECHO "*** Since this library must not contain undefined symbols," $ECHO "*** because either the platform does not support them or" $ECHO "*** it was explicitly requested with -no-undefined," $ECHO "*** libtool will only create a static version of it." if test "$build_old_libs" = no; then oldlibs="$output_objdir/$libname.$libext" build_libtool_libs=module build_old_libs=yes else build_libtool_libs=no fi fi fi fi # Done checking deplibs! deplibs=$newdeplibs fi # Time to change all our "foo.ltframework" stuff back to "-framework foo" case $host in *-*-darwin*) newdeplibs=`$ECHO "X $newdeplibs" | $Xsed -e 's% \([^ $]*\).ltframework% -framework \1%g'` new_inherited_linker_flags=`$ECHO "X $new_inherited_linker_flags" | $Xsed -e 's% \([^ $]*\).ltframework% -framework \1%g'` deplibs=`$ECHO "X $deplibs" | $Xsed -e 's% \([^ $]*\).ltframework% -framework \1%g'` ;; esac # move library search paths that coincide with paths to not yet # installed libraries to the beginning of the library search list new_libs= for path in $notinst_path; do case " $new_libs " in *" -L$path/$objdir "*) ;; *) case " $deplibs " in *" -L$path/$objdir "*) new_libs="$new_libs -L$path/$objdir" ;; esac ;; esac done for deplib in $deplibs; do case $deplib in -L*) case " $new_libs " in *" $deplib "*) ;; *) new_libs="$new_libs $deplib" ;; esac ;; *) new_libs="$new_libs $deplib" ;; esac done deplibs="$new_libs" # All the library-specific variables (install_libdir is set above). library_names= old_library= dlname= # Test again, we may have decided not to build it any more if test "$build_libtool_libs" = yes; then if test "$hardcode_into_libs" = yes; then # Hardcode the library paths hardcode_libdirs= dep_rpath= rpath="$finalize_rpath" test "$mode" != relink && rpath="$compile_rpath$rpath" for libdir in $rpath; do if test -n "$hardcode_libdir_flag_spec"; then if test -n "$hardcode_libdir_separator"; then if test -z "$hardcode_libdirs"; then hardcode_libdirs="$libdir" else # Just accumulate the unique libdirs. case $hardcode_libdir_separator$hardcode_libdirs$hardcode_libdir_separator in *"$hardcode_libdir_separator$libdir$hardcode_libdir_separator"*) ;; *) hardcode_libdirs="$hardcode_libdirs$hardcode_libdir_separator$libdir" ;; esac fi else eval flag=\"$hardcode_libdir_flag_spec\" dep_rpath="$dep_rpath $flag" fi elif test -n "$runpath_var"; then case "$perm_rpath " in *" $libdir "*) ;; *) perm_rpath="$perm_rpath $libdir" ;; esac fi done # Substitute the hardcoded libdirs into the rpath. if test -n "$hardcode_libdir_separator" && test -n "$hardcode_libdirs"; then libdir="$hardcode_libdirs" if test -n "$hardcode_libdir_flag_spec_ld"; then eval dep_rpath=\"$hardcode_libdir_flag_spec_ld\" else eval dep_rpath=\"$hardcode_libdir_flag_spec\" fi fi if test -n "$runpath_var" && test -n "$perm_rpath"; then # We should set the runpath_var. rpath= for dir in $perm_rpath; do rpath="$rpath$dir:" done eval "$runpath_var='$rpath\$$runpath_var'; export $runpath_var" fi test -n "$dep_rpath" && deplibs="$dep_rpath $deplibs" fi shlibpath="$finalize_shlibpath" test "$mode" != relink && shlibpath="$compile_shlibpath$shlibpath" if test -n "$shlibpath"; then eval "$shlibpath_var='$shlibpath\$$shlibpath_var'; export $shlibpath_var" fi # Get the real and link names of the library. eval shared_ext=\"$shrext_cmds\" eval library_names=\"$library_names_spec\" set dummy $library_names shift realname="$1" shift if test -n "$soname_spec"; then eval soname=\"$soname_spec\" else soname="$realname" fi if test -z "$dlname"; then dlname=$soname fi lib="$output_objdir/$realname" linknames= for link do linknames="$linknames $link" done # Use standard objects if they are pic test -z "$pic_flag" && libobjs=`$ECHO "X$libobjs" | $SP2NL | $Xsed -e "$lo2o" | $NL2SP` test "X$libobjs" = "X " && libobjs= delfiles= if test -n "$export_symbols" && test -n "$include_expsyms"; then $opt_dry_run || cp "$export_symbols" "$output_objdir/$libname.uexp" export_symbols="$output_objdir/$libname.uexp" delfiles="$delfiles $export_symbols" fi orig_export_symbols= case $host_os in cygwin* | mingw* | cegcc*) if test -n "$export_symbols" && test -z "$export_symbols_regex"; then # exporting using user supplied symfile if test "x`$SED 1q $export_symbols`" != xEXPORTS; then # and it's NOT already a .def file. Must figure out # which of the given symbols are data symbols and tag # them as such. So, trigger use of export_symbols_cmds. # export_symbols gets reassigned inside the "prepare # the list of exported symbols" if statement, so the # include_expsyms logic still works. orig_export_symbols="$export_symbols" export_symbols= always_export_symbols=yes fi fi ;; esac # Prepare the list of exported symbols if test -z "$export_symbols"; then if test "$always_export_symbols" = yes || test -n "$export_symbols_regex"; then func_verbose "generating symbol list for \`$libname.la'" export_symbols="$output_objdir/$libname.exp" $opt_dry_run || $RM $export_symbols cmds=$export_symbols_cmds save_ifs="$IFS"; IFS='~' for cmd in $cmds; do IFS="$save_ifs" eval cmd=\"$cmd\" func_len " $cmd" len=$func_len_result if test "$len" -lt "$max_cmd_len" || test "$max_cmd_len" -le -1; then func_show_eval "$cmd" 'exit $?' skipped_export=false else # The command line is too long to execute in one step. func_verbose "using reloadable object file for export list..." skipped_export=: # Break out early, otherwise skipped_export may be # set to false by a later but shorter cmd. break fi done IFS="$save_ifs" if test -n "$export_symbols_regex" && test "X$skipped_export" != "X:"; then func_show_eval '$EGREP -e "$export_symbols_regex" "$export_symbols" > "${export_symbols}T"' func_show_eval '$MV "${export_symbols}T" "$export_symbols"' fi fi fi if test -n "$export_symbols" && test -n "$include_expsyms"; then tmp_export_symbols="$export_symbols" test -n "$orig_export_symbols" && tmp_export_symbols="$orig_export_symbols" $opt_dry_run || eval '$ECHO "X$include_expsyms" | $Xsed | $SP2NL >> "$tmp_export_symbols"' fi if test "X$skipped_export" != "X:" && test -n "$orig_export_symbols"; then # The given exports_symbols file has to be filtered, so filter it. func_verbose "filter symbol list for \`$libname.la' to tag DATA exports" # FIXME: $output_objdir/$libname.filter potentially contains lots of # 's' commands which not all seds can handle. GNU sed should be fine # though. Also, the filter scales superlinearly with the number of # global variables. join(1) would be nice here, but unfortunately # isn't a blessed tool. $opt_dry_run || $SED -e '/[ ,]DATA/!d;s,\(.*\)\([ \,].*\),s|^\1$|\1\2|,' < $export_symbols > $output_objdir/$libname.filter delfiles="$delfiles $export_symbols $output_objdir/$libname.filter" export_symbols=$output_objdir/$libname.def $opt_dry_run || $SED -f $output_objdir/$libname.filter < $orig_export_symbols > $export_symbols fi tmp_deplibs= for test_deplib in $deplibs; do case " $convenience " in *" $test_deplib "*) ;; *) tmp_deplibs="$tmp_deplibs $test_deplib" ;; esac done deplibs="$tmp_deplibs" if test -n "$convenience"; then if test -n "$whole_archive_flag_spec" && test "$compiler_needs_object" = yes && test -z "$libobjs"; then # extract the archives, so we have objects to list. # TODO: could optimize this to just extract one archive. whole_archive_flag_spec= fi if test -n "$whole_archive_flag_spec"; then save_libobjs=$libobjs eval libobjs=\"\$libobjs $whole_archive_flag_spec\" test "X$libobjs" = "X " && libobjs= else gentop="$output_objdir/${outputname}x" generated="$generated $gentop" func_extract_archives $gentop $convenience libobjs="$libobjs $func_extract_archives_result" test "X$libobjs" = "X " && libobjs= fi fi if test "$thread_safe" = yes && test -n "$thread_safe_flag_spec"; then eval flag=\"$thread_safe_flag_spec\" linker_flags="$linker_flags $flag" fi # Make a backup of the uninstalled library when relinking if test "$mode" = relink; then $opt_dry_run || eval '(cd $output_objdir && $RM ${realname}U && $MV $realname ${realname}U)' || exit $? fi # Do each of the archive commands. if test "$module" = yes && test -n "$module_cmds" ; then if test -n "$export_symbols" && test -n "$module_expsym_cmds"; then eval test_cmds=\"$module_expsym_cmds\" cmds=$module_expsym_cmds else eval test_cmds=\"$module_cmds\" cmds=$module_cmds fi else if test -n "$export_symbols" && test -n "$archive_expsym_cmds"; then eval test_cmds=\"$archive_expsym_cmds\" cmds=$archive_expsym_cmds else eval test_cmds=\"$archive_cmds\" cmds=$archive_cmds fi fi if test "X$skipped_export" != "X:" && func_len " $test_cmds" && len=$func_len_result && test "$len" -lt "$max_cmd_len" || test "$max_cmd_len" -le -1; then : else # The command line is too long to link in one step, link piecewise # or, if using GNU ld and skipped_export is not :, use a linker # script. # Save the value of $output and $libobjs because we want to # use them later. If we have whole_archive_flag_spec, we # want to use save_libobjs as it was before # whole_archive_flag_spec was expanded, because we can't # assume the linker understands whole_archive_flag_spec. # This may have to be revisited, in case too many # convenience libraries get linked in and end up exceeding # the spec. if test -z "$convenience" || test -z "$whole_archive_flag_spec"; then save_libobjs=$libobjs fi save_output=$output output_la=`$ECHO "X$output" | $Xsed -e "$basename"` # Clear the reloadable object creation command queue and # initialize k to one. test_cmds= concat_cmds= objlist= last_robj= k=1 if test -n "$save_libobjs" && test "X$skipped_export" != "X:" && test "$with_gnu_ld" = yes; then output=${output_objdir}/${output_la}.lnkscript func_verbose "creating GNU ld script: $output" $ECHO 'INPUT (' > $output for obj in $save_libobjs do $ECHO "$obj" >> $output done $ECHO ')' >> $output delfiles="$delfiles $output" elif test -n "$save_libobjs" && test "X$skipped_export" != "X:" && test "X$file_list_spec" != X; then output=${output_objdir}/${output_la}.lnk func_verbose "creating linker input file list: $output" : > $output set x $save_libobjs shift firstobj= if test "$compiler_needs_object" = yes; then firstobj="$1 " shift fi for obj do $ECHO "$obj" >> $output done delfiles="$delfiles $output" output=$firstobj\"$file_list_spec$output\" else if test -n "$save_libobjs"; then func_verbose "creating reloadable object files..." output=$output_objdir/$output_la-${k}.$objext eval test_cmds=\"$reload_cmds\" func_len " $test_cmds" len0=$func_len_result len=$len0 # Loop over the list of objects to be linked. for obj in $save_libobjs do func_len " $obj" func_arith $len + $func_len_result len=$func_arith_result if test "X$objlist" = X || test "$len" -lt "$max_cmd_len"; then func_append objlist " $obj" else # The command $test_cmds is almost too long, add a # command to the queue. if test "$k" -eq 1 ; then # The first file doesn't have a previous command to add. eval concat_cmds=\"$reload_cmds $objlist $last_robj\" else # All subsequent reloadable object files will link in # the last one created. eval concat_cmds=\"\$concat_cmds~$reload_cmds $objlist $last_robj~\$RM $last_robj\" fi last_robj=$output_objdir/$output_la-${k}.$objext func_arith $k + 1 k=$func_arith_result output=$output_objdir/$output_la-${k}.$objext objlist=$obj func_len " $last_robj" func_arith $len0 + $func_len_result len=$func_arith_result fi done # Handle the remaining objects by creating one last # reloadable object file. All subsequent reloadable object # files will link in the last one created. test -z "$concat_cmds" || concat_cmds=$concat_cmds~ eval concat_cmds=\"\${concat_cmds}$reload_cmds $objlist $last_robj\" if test -n "$last_robj"; then eval concat_cmds=\"\${concat_cmds}~\$RM $last_robj\" fi delfiles="$delfiles $output" else output= fi if ${skipped_export-false}; then func_verbose "generating symbol list for \`$libname.la'" export_symbols="$output_objdir/$libname.exp" $opt_dry_run || $RM $export_symbols libobjs=$output # Append the command to create the export file. test -z "$concat_cmds" || concat_cmds=$concat_cmds~ eval concat_cmds=\"\$concat_cmds$export_symbols_cmds\" if test -n "$last_robj"; then eval concat_cmds=\"\$concat_cmds~\$RM $last_robj\" fi fi test -n "$save_libobjs" && func_verbose "creating a temporary reloadable object file: $output" # Loop through the commands generated above and execute them. save_ifs="$IFS"; IFS='~' for cmd in $concat_cmds; do IFS="$save_ifs" $opt_silent || { func_quote_for_expand "$cmd" eval "func_echo $func_quote_for_expand_result" } $opt_dry_run || eval "$cmd" || { lt_exit=$? # Restore the uninstalled library and exit if test "$mode" = relink; then ( cd "$output_objdir" && \ $RM "${realname}T" && \ $MV "${realname}U" "$realname" ) fi exit $lt_exit } done IFS="$save_ifs" if test -n "$export_symbols_regex" && ${skipped_export-false}; then func_show_eval '$EGREP -e "$export_symbols_regex" "$export_symbols" > "${export_symbols}T"' func_show_eval '$MV "${export_symbols}T" "$export_symbols"' fi fi if ${skipped_export-false}; then if test -n "$export_symbols" && test -n "$include_expsyms"; then tmp_export_symbols="$export_symbols" test -n "$orig_export_symbols" && tmp_export_symbols="$orig_export_symbols" $opt_dry_run || eval '$ECHO "X$include_expsyms" | $Xsed | $SP2NL >> "$tmp_export_symbols"' fi if test -n "$orig_export_symbols"; then # The given exports_symbols file has to be filtered, so filter it. func_verbose "filter symbol list for \`$libname.la' to tag DATA exports" # FIXME: $output_objdir/$libname.filter potentially contains lots of # 's' commands which not all seds can handle. GNU sed should be fine # though. Also, the filter scales superlinearly with the number of # global variables. join(1) would be nice here, but unfortunately # isn't a blessed tool. $opt_dry_run || $SED -e '/[ ,]DATA/!d;s,\(.*\)\([ \,].*\),s|^\1$|\1\2|,' < $export_symbols > $output_objdir/$libname.filter delfiles="$delfiles $export_symbols $output_objdir/$libname.filter" export_symbols=$output_objdir/$libname.def $opt_dry_run || $SED -f $output_objdir/$libname.filter < $orig_export_symbols > $export_symbols fi fi libobjs=$output # Restore the value of output. output=$save_output if test -n "$convenience" && test -n "$whole_archive_flag_spec"; then eval libobjs=\"\$libobjs $whole_archive_flag_spec\" test "X$libobjs" = "X " && libobjs= fi # Expand the library linking commands again to reset the # value of $libobjs for piecewise linking. # Do each of the archive commands. if test "$module" = yes && test -n "$module_cmds" ; then if test -n "$export_symbols" && test -n "$module_expsym_cmds"; then cmds=$module_expsym_cmds else cmds=$module_cmds fi else if test -n "$export_symbols" && test -n "$archive_expsym_cmds"; then cmds=$archive_expsym_cmds else cmds=$archive_cmds fi fi fi if test -n "$delfiles"; then # Append the command to remove temporary files to $cmds. eval cmds=\"\$cmds~\$RM $delfiles\" fi # Add any objects from preloaded convenience libraries if test -n "$dlprefiles"; then gentop="$output_objdir/${outputname}x" generated="$generated $gentop" func_extract_archives $gentop $dlprefiles libobjs="$libobjs $func_extract_archives_result" test "X$libobjs" = "X " && libobjs= fi save_ifs="$IFS"; IFS='~' for cmd in $cmds; do IFS="$save_ifs" eval cmd=\"$cmd\" $opt_silent || { func_quote_for_expand "$cmd" eval "func_echo $func_quote_for_expand_result" } $opt_dry_run || eval "$cmd" || { lt_exit=$? # Restore the uninstalled library and exit if test "$mode" = relink; then ( cd "$output_objdir" && \ $RM "${realname}T" && \ $MV "${realname}U" "$realname" ) fi exit $lt_exit } done IFS="$save_ifs" # Restore the uninstalled library and exit if test "$mode" = relink; then $opt_dry_run || eval '(cd $output_objdir && $RM ${realname}T && $MV $realname ${realname}T && $MV ${realname}U $realname)' || exit $? if test -n "$convenience"; then if test -z "$whole_archive_flag_spec"; then func_show_eval '${RM}r "$gentop"' fi fi exit $EXIT_SUCCESS fi # Create links to the real library. for linkname in $linknames; do if test "$realname" != "$linkname"; then func_show_eval '(cd "$output_objdir" && $RM "$linkname" && $LN_S "$realname" "$linkname")' 'exit $?' fi done # If -module or -export-dynamic was specified, set the dlname. if test "$module" = yes || test "$export_dynamic" = yes; then # On all known operating systems, these are identical. dlname="$soname" fi fi ;; obj) if test -n "$dlfiles$dlprefiles" || test "$dlself" != no; then func_warning "\`-dlopen' is ignored for objects" fi case " $deplibs" in *\ -l* | *\ -L*) func_warning "\`-l' and \`-L' are ignored for objects" ;; esac test -n "$rpath" && \ func_warning "\`-rpath' is ignored for objects" test -n "$xrpath" && \ func_warning "\`-R' is ignored for objects" test -n "$vinfo" && \ func_warning "\`-version-info' is ignored for objects" test -n "$release" && \ func_warning "\`-release' is ignored for objects" case $output in *.lo) test -n "$objs$old_deplibs" && \ func_fatal_error "cannot build library object \`$output' from non-libtool objects" libobj=$output func_lo2o "$libobj" obj=$func_lo2o_result ;; *) libobj= obj="$output" ;; esac # Delete the old objects. $opt_dry_run || $RM $obj $libobj # Objects from convenience libraries. This assumes # single-version convenience libraries. Whenever we create # different ones for PIC/non-PIC, this we'll have to duplicate # the extraction. reload_conv_objs= gentop= # reload_cmds runs $LD directly, so let us get rid of # -Wl from whole_archive_flag_spec and hope we can get by with # turning comma into space.. wl= if test -n "$convenience"; then if test -n "$whole_archive_flag_spec"; then eval tmp_whole_archive_flags=\"$whole_archive_flag_spec\" reload_conv_objs=$reload_objs\ `$ECHO "X$tmp_whole_archive_flags" | $Xsed -e 's|,| |g'` else gentop="$output_objdir/${obj}x" generated="$generated $gentop" func_extract_archives $gentop $convenience reload_conv_objs="$reload_objs $func_extract_archives_result" fi fi # Create the old-style object. reload_objs="$objs$old_deplibs "`$ECHO "X$libobjs" | $SP2NL | $Xsed -e '/\.'${libext}$'/d' -e '/\.lib$/d' -e "$lo2o" | $NL2SP`" $reload_conv_objs" ### testsuite: skip nested quoting test output="$obj" func_execute_cmds "$reload_cmds" 'exit $?' # Exit if we aren't doing a library object file. if test -z "$libobj"; then if test -n "$gentop"; then func_show_eval '${RM}r "$gentop"' fi exit $EXIT_SUCCESS fi if test "$build_libtool_libs" != yes; then if test -n "$gentop"; then func_show_eval '${RM}r "$gentop"' fi # Create an invalid libtool object if no PIC, so that we don't # accidentally link it into a program. # $show "echo timestamp > $libobj" # $opt_dry_run || eval "echo timestamp > $libobj" || exit $? exit $EXIT_SUCCESS fi if test -n "$pic_flag" || test "$pic_mode" != default; then # Only do commands if we really have different PIC objects. reload_objs="$libobjs $reload_conv_objs" output="$libobj" func_execute_cmds "$reload_cmds" 'exit $?' fi if test -n "$gentop"; then func_show_eval '${RM}r "$gentop"' fi exit $EXIT_SUCCESS ;; prog) case $host in *cygwin*) func_stripname '' '.exe' "$output" output=$func_stripname_result.exe;; esac test -n "$vinfo" && \ func_warning "\`-version-info' is ignored for programs" test -n "$release" && \ func_warning "\`-release' is ignored for programs" test "$preload" = yes \ && test "$dlopen_support" = unknown \ && test "$dlopen_self" = unknown \ && test "$dlopen_self_static" = unknown && \ func_warning "\`LT_INIT([dlopen])' not used. Assuming no dlopen support." case $host in *-*-rhapsody* | *-*-darwin1.[012]) # On Rhapsody replace the C library is the System framework compile_deplibs=`$ECHO "X $compile_deplibs" | $Xsed -e 's/ -lc / System.ltframework /'` finalize_deplibs=`$ECHO "X $finalize_deplibs" | $Xsed -e 's/ -lc / System.ltframework /'` ;; esac case $host in *-*-darwin*) # Don't allow lazy linking, it breaks C++ global constructors # But is supposedly fixed on 10.4 or later (yay!). if test "$tagname" = CXX ; then case ${MACOSX_DEPLOYMENT_TARGET-10.0} in 10.[0123]) compile_command="$compile_command ${wl}-bind_at_load" finalize_command="$finalize_command ${wl}-bind_at_load" ;; esac fi # Time to change all our "foo.ltframework" stuff back to "-framework foo" compile_deplibs=`$ECHO "X $compile_deplibs" | $Xsed -e 's% \([^ $]*\).ltframework% -framework \1%g'` finalize_deplibs=`$ECHO "X $finalize_deplibs" | $Xsed -e 's% \([^ $]*\).ltframework% -framework \1%g'` ;; esac # move library search paths that coincide with paths to not yet # installed libraries to the beginning of the library search list new_libs= for path in $notinst_path; do case " $new_libs " in *" -L$path/$objdir "*) ;; *) case " $compile_deplibs " in *" -L$path/$objdir "*) new_libs="$new_libs -L$path/$objdir" ;; esac ;; esac done for deplib in $compile_deplibs; do case $deplib in -L*) case " $new_libs " in *" $deplib "*) ;; *) new_libs="$new_libs $deplib" ;; esac ;; *) new_libs="$new_libs $deplib" ;; esac done compile_deplibs="$new_libs" compile_command="$compile_command $compile_deplibs" finalize_command="$finalize_command $finalize_deplibs" if test -n "$rpath$xrpath"; then # If the user specified any rpath flags, then add them. for libdir in $rpath $xrpath; do # This is the magic to use -rpath. case "$finalize_rpath " in *" $libdir "*) ;; *) finalize_rpath="$finalize_rpath $libdir" ;; esac done fi # Now hardcode the library paths rpath= hardcode_libdirs= for libdir in $compile_rpath $finalize_rpath; do if test -n "$hardcode_libdir_flag_spec"; then if test -n "$hardcode_libdir_separator"; then if test -z "$hardcode_libdirs"; then hardcode_libdirs="$libdir" else # Just accumulate the unique libdirs. case $hardcode_libdir_separator$hardcode_libdirs$hardcode_libdir_separator in *"$hardcode_libdir_separator$libdir$hardcode_libdir_separator"*) ;; *) hardcode_libdirs="$hardcode_libdirs$hardcode_libdir_separator$libdir" ;; esac fi else eval flag=\"$hardcode_libdir_flag_spec\" rpath="$rpath $flag" fi elif test -n "$runpath_var"; then case "$perm_rpath " in *" $libdir "*) ;; *) perm_rpath="$perm_rpath $libdir" ;; esac fi case $host in *-*-cygwin* | *-*-mingw* | *-*-pw32* | *-*-os2* | *-cegcc*) testbindir=`${ECHO} "$libdir" | ${SED} -e 's*/lib$*/bin*'` case :$dllsearchpath: in *":$libdir:"*) ;; ::) dllsearchpath=$libdir;; *) dllsearchpath="$dllsearchpath:$libdir";; esac case :$dllsearchpath: in *":$testbindir:"*) ;; ::) dllsearchpath=$testbindir;; *) dllsearchpath="$dllsearchpath:$testbindir";; esac ;; esac done # Substitute the hardcoded libdirs into the rpath. if test -n "$hardcode_libdir_separator" && test -n "$hardcode_libdirs"; then libdir="$hardcode_libdirs" eval rpath=\" $hardcode_libdir_flag_spec\" fi compile_rpath="$rpath" rpath= hardcode_libdirs= for libdir in $finalize_rpath; do if test -n "$hardcode_libdir_flag_spec"; then if test -n "$hardcode_libdir_separator"; then if test -z "$hardcode_libdirs"; then hardcode_libdirs="$libdir" else # Just accumulate the unique libdirs. case $hardcode_libdir_separator$hardcode_libdirs$hardcode_libdir_separator in *"$hardcode_libdir_separator$libdir$hardcode_libdir_separator"*) ;; *) hardcode_libdirs="$hardcode_libdirs$hardcode_libdir_separator$libdir" ;; esac fi else eval flag=\"$hardcode_libdir_flag_spec\" rpath="$rpath $flag" fi elif test -n "$runpath_var"; then case "$finalize_perm_rpath " in *" $libdir "*) ;; *) finalize_perm_rpath="$finalize_perm_rpath $libdir" ;; esac fi done # Substitute the hardcoded libdirs into the rpath. if test -n "$hardcode_libdir_separator" && test -n "$hardcode_libdirs"; then libdir="$hardcode_libdirs" eval rpath=\" $hardcode_libdir_flag_spec\" fi finalize_rpath="$rpath" if test -n "$libobjs" && test "$build_old_libs" = yes; then # Transform all the library objects into standard objects. compile_command=`$ECHO "X$compile_command" | $SP2NL | $Xsed -e "$lo2o" | $NL2SP` finalize_command=`$ECHO "X$finalize_command" | $SP2NL | $Xsed -e "$lo2o" | $NL2SP` fi func_generate_dlsyms "$outputname" "@PROGRAM@" "no" # template prelinking step if test -n "$prelink_cmds"; then func_execute_cmds "$prelink_cmds" 'exit $?' fi wrappers_required=yes case $host in *cygwin* | *mingw* ) if test "$build_libtool_libs" != yes; then wrappers_required=no fi ;; *cegcc) # Disable wrappers for cegcc, we are cross compiling anyway. wrappers_required=no ;; *) if test "$need_relink" = no || test "$build_libtool_libs" != yes; then wrappers_required=no fi ;; esac if test "$wrappers_required" = no; then # Replace the output file specification. compile_command=`$ECHO "X$compile_command" | $Xsed -e 's%@OUTPUT@%'"$output"'%g'` link_command="$compile_command$compile_rpath" # We have no uninstalled library dependencies, so finalize right now. exit_status=0 func_show_eval "$link_command" 'exit_status=$?' # Delete the generated files. if test -f "$output_objdir/${outputname}S.${objext}"; then func_show_eval '$RM "$output_objdir/${outputname}S.${objext}"' fi exit $exit_status fi if test -n "$compile_shlibpath$finalize_shlibpath"; then compile_command="$shlibpath_var=\"$compile_shlibpath$finalize_shlibpath\$$shlibpath_var\" $compile_command" fi if test -n "$finalize_shlibpath"; then finalize_command="$shlibpath_var=\"$finalize_shlibpath\$$shlibpath_var\" $finalize_command" fi compile_var= finalize_var= if test -n "$runpath_var"; then if test -n "$perm_rpath"; then # We should set the runpath_var. rpath= for dir in $perm_rpath; do rpath="$rpath$dir:" done compile_var="$runpath_var=\"$rpath\$$runpath_var\" " fi if test -n "$finalize_perm_rpath"; then # We should set the runpath_var. rpath= for dir in $finalize_perm_rpath; do rpath="$rpath$dir:" done finalize_var="$runpath_var=\"$rpath\$$runpath_var\" " fi fi if test "$no_install" = yes; then # We don't need to create a wrapper script. link_command="$compile_var$compile_command$compile_rpath" # Replace the output file specification. link_command=`$ECHO "X$link_command" | $Xsed -e 's%@OUTPUT@%'"$output"'%g'` # Delete the old output file. $opt_dry_run || $RM $output # Link the executable and exit func_show_eval "$link_command" 'exit $?' exit $EXIT_SUCCESS fi if test "$hardcode_action" = relink; then # Fast installation is not supported link_command="$compile_var$compile_command$compile_rpath" relink_command="$finalize_var$finalize_command$finalize_rpath" func_warning "this platform does not like uninstalled shared libraries" func_warning "\`$output' will be relinked during installation" else if test "$fast_install" != no; then link_command="$finalize_var$compile_command$finalize_rpath" if test "$fast_install" = yes; then relink_command=`$ECHO "X$compile_var$compile_command$compile_rpath" | $Xsed -e 's%@OUTPUT@%\$progdir/\$file%g'` else # fast_install is set to needless relink_command= fi else link_command="$compile_var$compile_command$compile_rpath" relink_command="$finalize_var$finalize_command$finalize_rpath" fi fi # Replace the output file specification. link_command=`$ECHO "X$link_command" | $Xsed -e 's%@OUTPUT@%'"$output_objdir/$outputname"'%g'` # Delete the old output files. $opt_dry_run || $RM $output $output_objdir/$outputname $output_objdir/lt-$outputname func_show_eval "$link_command" 'exit $?' # Now create the wrapper script. func_verbose "creating $output" # Quote the relink command for shipping. if test -n "$relink_command"; then # Preserve any variables that may affect compiler behavior for var in $variables_saved_for_relink; do if eval test -z \"\${$var+set}\"; then relink_command="{ test -z \"\${$var+set}\" || $lt_unset $var || { $var=; export $var; }; }; $relink_command" elif eval var_value=\$$var; test -z "$var_value"; then relink_command="$var=; export $var; $relink_command" else func_quote_for_eval "$var_value" relink_command="$var=$func_quote_for_eval_result; export $var; $relink_command" fi done relink_command="(cd `pwd`; $relink_command)" relink_command=`$ECHO "X$relink_command" | $Xsed -e "$sed_quote_subst"` fi # Quote $ECHO for shipping. if test "X$ECHO" = "X$SHELL $progpath --fallback-echo"; then case $progpath in [\\/]* | [A-Za-z]:[\\/]*) qecho="$SHELL $progpath --fallback-echo";; *) qecho="$SHELL `pwd`/$progpath --fallback-echo";; esac qecho=`$ECHO "X$qecho" | $Xsed -e "$sed_quote_subst"` else qecho=`$ECHO "X$ECHO" | $Xsed -e "$sed_quote_subst"` fi # Only actually do things if not in dry run mode. $opt_dry_run || { # win32 will think the script is a binary if it has # a .exe suffix, so we strip it off here. case $output in *.exe) func_stripname '' '.exe' "$output" output=$func_stripname_result ;; esac # test for cygwin because mv fails w/o .exe extensions case $host in *cygwin*) exeext=.exe func_stripname '' '.exe' "$outputname" outputname=$func_stripname_result ;; *) exeext= ;; esac case $host in *cygwin* | *mingw* ) func_dirname_and_basename "$output" "" "." output_name=$func_basename_result output_path=$func_dirname_result cwrappersource="$output_path/$objdir/lt-$output_name.c" cwrapper="$output_path/$output_name.exe" $RM $cwrappersource $cwrapper trap "$RM $cwrappersource $cwrapper; exit $EXIT_FAILURE" 1 2 15 func_emit_cwrapperexe_src > $cwrappersource # The wrapper executable is built using the $host compiler, # because it contains $host paths and files. If cross- # compiling, it, like the target executable, must be # executed on the $host or under an emulation environment. $opt_dry_run || { $LTCC $LTCFLAGS -o $cwrapper $cwrappersource $STRIP $cwrapper } # Now, create the wrapper script for func_source use: func_ltwrapper_scriptname $cwrapper $RM $func_ltwrapper_scriptname_result trap "$RM $func_ltwrapper_scriptname_result; exit $EXIT_FAILURE" 1 2 15 $opt_dry_run || { # note: this script will not be executed, so do not chmod. if test "x$build" = "x$host" ; then $cwrapper --lt-dump-script > $func_ltwrapper_scriptname_result else func_emit_wrapper no > $func_ltwrapper_scriptname_result fi } ;; * ) $RM $output trap "$RM $output; exit $EXIT_FAILURE" 1 2 15 func_emit_wrapper no > $output chmod +x $output ;; esac } exit $EXIT_SUCCESS ;; esac # See if we need to build an old-fashioned archive. for oldlib in $oldlibs; do if test "$build_libtool_libs" = convenience; then oldobjs="$libobjs_save $symfileobj" addlibs="$convenience" build_libtool_libs=no else if test "$build_libtool_libs" = module; then oldobjs="$libobjs_save" build_libtool_libs=no else oldobjs="$old_deplibs $non_pic_objects" if test "$preload" = yes && test -f "$symfileobj"; then oldobjs="$oldobjs $symfileobj" fi fi addlibs="$old_convenience" fi if test -n "$addlibs"; then gentop="$output_objdir/${outputname}x" generated="$generated $gentop" func_extract_archives $gentop $addlibs oldobjs="$oldobjs $func_extract_archives_result" fi # Do each command in the archive commands. if test -n "$old_archive_from_new_cmds" && test "$build_libtool_libs" = yes; then cmds=$old_archive_from_new_cmds else # Add any objects from preloaded convenience libraries if test -n "$dlprefiles"; then gentop="$output_objdir/${outputname}x" generated="$generated $gentop" func_extract_archives $gentop $dlprefiles oldobjs="$oldobjs $func_extract_archives_result" fi # POSIX demands no paths to be encoded in archives. We have # to avoid creating archives with duplicate basenames if we # might have to extract them afterwards, e.g., when creating a # static archive out of a convenience library, or when linking # the entirety of a libtool archive into another (currently # not supported by libtool). if (for obj in $oldobjs do func_basename "$obj" $ECHO "$func_basename_result" done | sort | sort -uc >/dev/null 2>&1); then : else $ECHO "copying selected object files to avoid basename conflicts..." gentop="$output_objdir/${outputname}x" generated="$generated $gentop" func_mkdir_p "$gentop" save_oldobjs=$oldobjs oldobjs= counter=1 for obj in $save_oldobjs do func_basename "$obj" objbase="$func_basename_result" case " $oldobjs " in " ") oldobjs=$obj ;; *[\ /]"$objbase "*) while :; do # Make sure we don't pick an alternate name that also # overlaps. newobj=lt$counter-$objbase func_arith $counter + 1 counter=$func_arith_result case " $oldobjs " in *[\ /]"$newobj "*) ;; *) if test ! -f "$gentop/$newobj"; then break; fi ;; esac done func_show_eval "ln $obj $gentop/$newobj || cp $obj $gentop/$newobj" oldobjs="$oldobjs $gentop/$newobj" ;; *) oldobjs="$oldobjs $obj" ;; esac done fi eval cmds=\"$old_archive_cmds\" func_len " $cmds" len=$func_len_result if test "$len" -lt "$max_cmd_len" || test "$max_cmd_len" -le -1; then cmds=$old_archive_cmds else # the command line is too long to link in one step, link in parts func_verbose "using piecewise archive linking..." save_RANLIB=$RANLIB RANLIB=: objlist= concat_cmds= save_oldobjs=$oldobjs oldobjs= # Is there a better way of finding the last object in the list? for obj in $save_oldobjs do last_oldobj=$obj done eval test_cmds=\"$old_archive_cmds\" func_len " $test_cmds" len0=$func_len_result len=$len0 for obj in $save_oldobjs do func_len " $obj" func_arith $len + $func_len_result len=$func_arith_result func_append objlist " $obj" if test "$len" -lt "$max_cmd_len"; then : else # the above command should be used before it gets too long oldobjs=$objlist if test "$obj" = "$last_oldobj" ; then RANLIB=$save_RANLIB fi test -z "$concat_cmds" || concat_cmds=$concat_cmds~ eval concat_cmds=\"\${concat_cmds}$old_archive_cmds\" objlist= len=$len0 fi done RANLIB=$save_RANLIB oldobjs=$objlist if test "X$oldobjs" = "X" ; then eval cmds=\"\$concat_cmds\" else eval cmds=\"\$concat_cmds~\$old_archive_cmds\" fi fi fi func_execute_cmds "$cmds" 'exit $?' done test -n "$generated" && \ func_show_eval "${RM}r$generated" # Now create the libtool archive. case $output in *.la) old_library= test "$build_old_libs" = yes && old_library="$libname.$libext" func_verbose "creating $output" # Preserve any variables that may affect compiler behavior for var in $variables_saved_for_relink; do if eval test -z \"\${$var+set}\"; then relink_command="{ test -z \"\${$var+set}\" || $lt_unset $var || { $var=; export $var; }; }; $relink_command" elif eval var_value=\$$var; test -z "$var_value"; then relink_command="$var=; export $var; $relink_command" else func_quote_for_eval "$var_value" relink_command="$var=$func_quote_for_eval_result; 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It does not imply ALL GNU software can. # # This file is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA # 02110-1301, USA. # # As a special exception to the GNU General Public License, if you # distribute this file as part of a program that contains a # configuration script generated by Autoconf, you may include it under # the same distribution terms that you use for the rest of that program. # Please send patches to . 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m6811 | m68hc11 | m6812 | m68hc12) # Motorola 68HC11/12. basic_machine=$basic_machine-unknown os=-none ;; m88110 | m680[12346]0 | m683?2 | m68360 | m5200 | v70 | w65 | z8k) ;; ms1) basic_machine=mt-unknown ;; # We use `pc' rather than `unknown' # because (1) that's what they normally are, and # (2) the word "unknown" tends to confuse beginning users. i*86 | x86_64) basic_machine=$basic_machine-pc ;; # Object if more than one company name word. *-*-*) echo Invalid configuration \`$1\': machine \`$basic_machine\' not recognized 1>&2 exit 1 ;; # Recognize the basic CPU types with company name. 580-* \ | a29k-* \ | alpha-* | alphaev[4-8]-* | alphaev56-* | alphaev6[78]-* \ | alpha64-* | alpha64ev[4-8]-* | alpha64ev56-* | alpha64ev6[78]-* \ | alphapca5[67]-* | alpha64pca5[67]-* | arc-* \ | arm-* | armbe-* | armle-* | armeb-* | armv*-* \ | avr-* | avr32-* \ | bfin-* | bs2000-* \ | c[123]* | c30-* | [cjt]90-* | c4x-* | c54x-* | c55x-* | c6x-* \ | clipper-* | craynv-* | cydra-* \ | d10v-* | d30v-* | dlx-* \ | elxsi-* \ | f30[01]-* | f700-* | fido-* | fr30-* | frv-* | fx80-* \ | h8300-* | h8500-* \ | hppa-* | hppa1.[01]-* | hppa2.0-* | hppa2.0[nw]-* | hppa64-* \ | i*86-* | i860-* | i960-* | ia64-* \ | ip2k-* | iq2000-* \ | lm32-* \ | m32c-* | m32r-* | m32rle-* \ | m68000-* | m680[012346]0-* | m68360-* | m683?2-* | m68k-* \ | m88110-* | m88k-* | maxq-* | mcore-* | metag-* \ | mips-* | mipsbe-* | mipseb-* | mipsel-* | mipsle-* \ | mips16-* \ | mips64-* | mips64el-* \ | mips64octeon-* | mips64octeonel-* \ | mips64orion-* | mips64orionel-* \ | mips64r5900-* | mips64r5900el-* \ | mips64vr-* | mips64vrel-* \ | mips64vr4100-* | mips64vr4100el-* \ | mips64vr4300-* | mips64vr4300el-* \ | mips64vr5000-* | mips64vr5000el-* \ | mips64vr5900-* | mips64vr5900el-* \ | mipsisa32-* | mipsisa32el-* \ | mipsisa32r2-* | mipsisa32r2el-* \ | mipsisa64-* | mipsisa64el-* \ | mipsisa64r2-* | mipsisa64r2el-* \ | mipsisa64sb1-* | mipsisa64sb1el-* \ | mipsisa64sr71k-* | mipsisa64sr71kel-* \ | mipstx39-* | mipstx39el-* \ | mmix-* \ | mt-* \ | msp430-* \ | nios-* | nios2-* \ | none-* | np1-* | ns16k-* | ns32k-* \ | orion-* \ | pdp10-* | pdp11-* | pj-* | pjl-* | pn-* | power-* \ | powerpc-* | powerpc64-* | powerpc64le-* | powerpcle-* | ppcbe-* \ | pyramid-* \ | romp-* | rs6000-* \ | sh-* | sh[1234]-* | sh[24]a-* | sh[24]aeb-* | sh[23]e-* | sh[34]eb-* | sheb-* | shbe-* \ | shle-* | sh[1234]le-* | sh3ele-* | sh64-* | sh64le-* \ | sparc-* | sparc64-* | sparc64b-* | sparc64v-* | sparc86x-* | sparclet-* \ | sparclite-* \ | sparcv8-* | sparcv9-* | sparcv9b-* | sparcv9v-* | strongarm-* | sv1-* | sx?-* \ | tahoe-* | thumb-* \ | tic30-* | tic4x-* | tic54x-* | tic55x-* | tic6x-* | tic80-* | tile-* \ | tron-* \ | v850-* | v850e-* | vax-* \ | we32k-* \ | x86-* | x86_64-* | xc16x-* | xps100-* | xscale-* | xscalee[bl]-* \ | xstormy16-* | xtensa*-* \ | ymp-* \ | z8k-* | z80-*) ;; # Recognize the basic CPU types without company name, with glob match. xtensa*) basic_machine=$basic_machine-unknown ;; # Recognize the various machine names and aliases which stand # for a CPU type and a company and sometimes even an OS. 386bsd) basic_machine=i386-unknown os=-bsd ;; 3b1 | 7300 | 7300-att | att-7300 | pc7300 | safari | unixpc) basic_machine=m68000-att ;; 3b*) basic_machine=we32k-att ;; a29khif) basic_machine=a29k-amd os=-udi ;; abacus) basic_machine=abacus-unknown ;; adobe68k) basic_machine=m68010-adobe os=-scout ;; alliant | fx80) basic_machine=fx80-alliant ;; altos | altos3068) basic_machine=m68k-altos ;; am29k) basic_machine=a29k-none os=-bsd ;; amd64) basic_machine=x86_64-pc ;; amd64-*) basic_machine=x86_64-`echo $basic_machine | sed 's/^[^-]*-//'` ;; amdahl) basic_machine=580-amdahl os=-sysv ;; amiga | amiga-*) basic_machine=m68k-unknown ;; amigaos | amigados) basic_machine=m68k-unknown os=-amigaos ;; amigaunix | amix) basic_machine=m68k-unknown os=-sysv4 ;; apollo68) basic_machine=m68k-apollo os=-sysv ;; apollo68bsd) basic_machine=m68k-apollo os=-bsd ;; aros) basic_machine=i386-pc os=-aros ;; aux) basic_machine=m68k-apple os=-aux ;; balance) basic_machine=ns32k-sequent os=-dynix ;; blackfin) basic_machine=bfin-unknown os=-linux ;; blackfin-*) basic_machine=bfin-`echo $basic_machine | sed 's/^[^-]*-//'` os=-linux ;; c90) basic_machine=c90-cray os=-unicos ;; cegcc) basic_machine=arm-unknown os=-cegcc ;; convex-c1) basic_machine=c1-convex os=-bsd ;; convex-c2) basic_machine=c2-convex os=-bsd ;; convex-c32) basic_machine=c32-convex os=-bsd ;; convex-c34) basic_machine=c34-convex os=-bsd ;; convex-c38) basic_machine=c38-convex os=-bsd ;; cray | j90) basic_machine=j90-cray os=-unicos ;; craynv) basic_machine=craynv-cray os=-unicosmp ;; cr16) basic_machine=cr16-unknown os=-elf ;; crds | unos) basic_machine=m68k-crds ;; crisv32 | crisv32-* | etraxfs*) basic_machine=crisv32-axis ;; cris | cris-* | etrax*) basic_machine=cris-axis ;; crx) basic_machine=crx-unknown os=-elf ;; da30 | da30-*) basic_machine=m68k-da30 ;; decstation | decstation-3100 | pmax | pmax-* | pmin | dec3100 | decstatn) basic_machine=mips-dec ;; decsystem10* | dec10*) basic_machine=pdp10-dec os=-tops10 ;; decsystem20* | dec20*) basic_machine=pdp10-dec os=-tops20 ;; delta | 3300 | motorola-3300 | motorola-delta \ | 3300-motorola | delta-motorola) basic_machine=m68k-motorola ;; delta88) basic_machine=m88k-motorola os=-sysv3 ;; dicos) basic_machine=i686-pc os=-dicos ;; djgpp) basic_machine=i586-pc os=-msdosdjgpp ;; dpx20 | dpx20-*) basic_machine=rs6000-bull os=-bosx ;; dpx2* | dpx2*-bull) basic_machine=m68k-bull os=-sysv3 ;; ebmon29k) basic_machine=a29k-amd os=-ebmon ;; elxsi) basic_machine=elxsi-elxsi os=-bsd ;; encore | umax | mmax) basic_machine=ns32k-encore ;; es1800 | OSE68k | ose68k | ose | OSE) basic_machine=m68k-ericsson os=-ose ;; fx2800) basic_machine=i860-alliant ;; genix) basic_machine=ns32k-ns ;; gmicro) basic_machine=tron-gmicro os=-sysv ;; go32) basic_machine=i386-pc os=-go32 ;; h3050r* | hiux*) basic_machine=hppa1.1-hitachi os=-hiuxwe2 ;; h8300hms) basic_machine=h8300-hitachi os=-hms ;; h8300xray) basic_machine=h8300-hitachi os=-xray ;; h8500hms) basic_machine=h8500-hitachi os=-hms ;; harris) basic_machine=m88k-harris os=-sysv3 ;; hp300-*) basic_machine=m68k-hp ;; hp300bsd) basic_machine=m68k-hp os=-bsd ;; hp300hpux) basic_machine=m68k-hp os=-hpux ;; hp3k9[0-9][0-9] | hp9[0-9][0-9]) basic_machine=hppa1.0-hp ;; hp9k2[0-9][0-9] | hp9k31[0-9]) basic_machine=m68000-hp ;; hp9k3[2-9][0-9]) basic_machine=m68k-hp ;; hp9k6[0-9][0-9] | hp6[0-9][0-9]) basic_machine=hppa1.0-hp ;; hp9k7[0-79][0-9] | hp7[0-79][0-9]) basic_machine=hppa1.1-hp ;; hp9k78[0-9] | hp78[0-9]) # FIXME: really hppa2.0-hp basic_machine=hppa1.1-hp ;; hp9k8[67]1 | hp8[67]1 | hp9k80[24] | hp80[24] | hp9k8[78]9 | hp8[78]9 | hp9k893 | hp893) # FIXME: really hppa2.0-hp basic_machine=hppa1.1-hp ;; hp9k8[0-9][13679] | hp8[0-9][13679]) basic_machine=hppa1.1-hp ;; hp9k8[0-9][0-9] | hp8[0-9][0-9]) basic_machine=hppa1.0-hp ;; hppa-next) os=-nextstep3 ;; hppaosf) basic_machine=hppa1.1-hp os=-osf ;; hppro) basic_machine=hppa1.1-hp os=-proelf ;; i370-ibm* | ibm*) basic_machine=i370-ibm ;; # I'm not sure what "Sysv32" means. Should this be sysv3.2? i*86v32) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-sysv32 ;; i*86v4*) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-sysv4 ;; i*86v) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-sysv ;; i*86sol2) basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'` os=-solaris2 ;; i386mach) basic_machine=i386-mach os=-mach ;; i386-vsta | vsta) basic_machine=i386-unknown os=-vsta ;; iris | iris4d) basic_machine=mips-sgi case $os in -irix*) ;; *) os=-irix4 ;; esac ;; isi68 | isi) basic_machine=m68k-isi os=-sysv ;; m68knommu) basic_machine=m68k-unknown os=-linux ;; m68knommu-*) basic_machine=m68k-`echo $basic_machine | sed 's/^[^-]*-//'` os=-linux ;; m88k-omron*) basic_machine=m88k-omron ;; magnum | m3230) basic_machine=mips-mips os=-sysv ;; merlin) basic_machine=ns32k-utek os=-sysv ;; mingw32) basic_machine=i386-pc os=-mingw32 ;; mingw32ce) basic_machine=arm-unknown os=-mingw32ce ;; miniframe) basic_machine=m68000-convergent ;; *mint | -mint[0-9]* | *MiNT | *MiNT[0-9]*) basic_machine=m68k-atari os=-mint ;; mips3*-*) basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'` ;; mips3*) basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'`-unknown ;; monitor) basic_machine=m68k-rom68k os=-coff ;; morphos) basic_machine=powerpc-unknown os=-morphos ;; msdos) basic_machine=i386-pc os=-msdos ;; ms1-*) basic_machine=`echo $basic_machine | sed -e 's/ms1-/mt-/'` ;; mvs) basic_machine=i370-ibm os=-mvs ;; ncr3000) basic_machine=i486-ncr os=-sysv4 ;; netbsd386) basic_machine=i386-unknown os=-netbsd ;; netwinder) basic_machine=armv4l-rebel os=-linux ;; news | news700 | news800 | news900) basic_machine=m68k-sony os=-newsos ;; news1000) basic_machine=m68030-sony os=-newsos ;; news-3600 | risc-news) basic_machine=mips-sony os=-newsos ;; necv70) basic_machine=v70-nec os=-sysv ;; next | m*-next ) basic_machine=m68k-next case $os in -nextstep* ) ;; -ns2*) os=-nextstep2 ;; *) os=-nextstep3 ;; esac ;; nh3000) basic_machine=m68k-harris os=-cxux ;; nh[45]000) basic_machine=m88k-harris os=-cxux ;; nindy960) basic_machine=i960-intel os=-nindy ;; mon960) basic_machine=i960-intel os=-mon960 ;; nonstopux) basic_machine=mips-compaq os=-nonstopux ;; np1) basic_machine=np1-gould ;; nsr-tandem) basic_machine=nsr-tandem ;; op50n-* | op60c-*) basic_machine=hppa1.1-oki os=-proelf ;; openrisc | openrisc-*) basic_machine=or32-unknown ;; os400) basic_machine=powerpc-ibm os=-os400 ;; OSE68000 | ose68000) basic_machine=m68000-ericsson os=-ose ;; os68k) basic_machine=m68k-none os=-os68k ;; pa-hitachi) basic_machine=hppa1.1-hitachi os=-hiuxwe2 ;; paragon) basic_machine=i860-intel os=-osf ;; parisc) basic_machine=hppa-unknown os=-linux ;; parisc-*) basic_machine=hppa-`echo $basic_machine | sed 's/^[^-]*-//'` os=-linux ;; pbd) basic_machine=sparc-tti ;; pbb) basic_machine=m68k-tti ;; pc532 | pc532-*) basic_machine=ns32k-pc532 ;; pc98) basic_machine=i386-pc ;; pc98-*) basic_machine=i386-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentium | p5 | k5 | k6 | nexgen | viac3) basic_machine=i586-pc ;; pentiumpro | p6 | 6x86 | athlon | athlon_*) basic_machine=i686-pc ;; pentiumii | pentium2 | pentiumiii | pentium3) basic_machine=i686-pc ;; pentium4) basic_machine=i786-pc ;; pentium-* | p5-* | k5-* | k6-* | nexgen-* | viac3-*) basic_machine=i586-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentiumpro-* | p6-* | 6x86-* | athlon-*) basic_machine=i686-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentiumii-* | pentium2-* | pentiumiii-* | pentium3-*) basic_machine=i686-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pentium4-*) basic_machine=i786-`echo $basic_machine | sed 's/^[^-]*-//'` ;; pn) basic_machine=pn-gould ;; power) basic_machine=power-ibm ;; ppc) basic_machine=powerpc-unknown ;; ppc-*) basic_machine=powerpc-`echo $basic_machine | sed 's/^[^-]*-//'` ;; ppcle | powerpclittle | ppc-le | powerpc-little) basic_machine=powerpcle-unknown ;; ppcle-* | powerpclittle-*) basic_machine=powerpcle-`echo $basic_machine | sed 's/^[^-]*-//'` ;; ppc64) basic_machine=powerpc64-unknown ;; ppc64-*) basic_machine=powerpc64-`echo $basic_machine | sed 's/^[^-]*-//'` ;; ppc64le | powerpc64little | ppc64-le | powerpc64-little) basic_machine=powerpc64le-unknown ;; ppc64le-* | powerpc64little-*) basic_machine=powerpc64le-`echo $basic_machine | sed 's/^[^-]*-//'` ;; ps2) basic_machine=i386-ibm ;; pw32) basic_machine=i586-unknown os=-pw32 ;; rdos) basic_machine=i386-pc os=-rdos ;; rom68k) basic_machine=m68k-rom68k os=-coff ;; rm[46]00) basic_machine=mips-siemens ;; rtpc | rtpc-*) basic_machine=romp-ibm ;; s390 | s390-*) basic_machine=s390-ibm ;; s390x | s390x-*) basic_machine=s390x-ibm ;; sa29200) basic_machine=a29k-amd os=-udi ;; sb1) basic_machine=mipsisa64sb1-unknown ;; sb1el) basic_machine=mipsisa64sb1el-unknown ;; sde) basic_machine=mipsisa32-sde os=-elf ;; sei) basic_machine=mips-sei os=-seiux ;; sequent) basic_machine=i386-sequent ;; sh) basic_machine=sh-hitachi os=-hms ;; sh5el) basic_machine=sh5le-unknown ;; sh64) basic_machine=sh64-unknown ;; sparclite-wrs | simso-wrs) basic_machine=sparclite-wrs os=-vxworks ;; sps7) basic_machine=m68k-bull os=-sysv2 ;; spur) basic_machine=spur-unknown ;; st2000) basic_machine=m68k-tandem ;; stratus) basic_machine=i860-stratus os=-sysv4 ;; sun2) basic_machine=m68000-sun ;; sun2os3) basic_machine=m68000-sun os=-sunos3 ;; sun2os4) basic_machine=m68000-sun os=-sunos4 ;; sun3os3) basic_machine=m68k-sun os=-sunos3 ;; sun3os4) basic_machine=m68k-sun os=-sunos4 ;; sun4os3) basic_machine=sparc-sun os=-sunos3 ;; sun4os4) basic_machine=sparc-sun os=-sunos4 ;; sun4sol2) basic_machine=sparc-sun os=-solaris2 ;; sun3 | sun3-*) basic_machine=m68k-sun ;; sun4) basic_machine=sparc-sun ;; sun386 | sun386i | roadrunner) basic_machine=i386-sun ;; sv1) basic_machine=sv1-cray os=-unicos ;; symmetry) basic_machine=i386-sequent os=-dynix ;; t3e) basic_machine=alphaev5-cray os=-unicos ;; t90) basic_machine=t90-cray os=-unicos ;; tic54x | c54x*) basic_machine=tic54x-unknown os=-coff ;; tic55x | c55x*) basic_machine=tic55x-unknown os=-coff ;; tic6x | c6x*) basic_machine=tic6x-unknown os=-coff ;; tile*) basic_machine=tile-unknown os=-linux-gnu ;; tx39) basic_machine=mipstx39-unknown ;; tx39el) basic_machine=mipstx39el-unknown ;; toad1) basic_machine=pdp10-xkl os=-tops20 ;; tower | tower-32) basic_machine=m68k-ncr ;; tpf) basic_machine=s390x-ibm os=-tpf ;; udi29k) basic_machine=a29k-amd os=-udi ;; ultra3) basic_machine=a29k-nyu os=-sym1 ;; v810 | necv810) basic_machine=v810-nec os=-none ;; vaxv) basic_machine=vax-dec os=-sysv ;; vms) basic_machine=vax-dec os=-vms ;; vpp*|vx|vx-*) basic_machine=f301-fujitsu ;; vxworks960) basic_machine=i960-wrs os=-vxworks ;; vxworks68) basic_machine=m68k-wrs os=-vxworks ;; vxworks29k) basic_machine=a29k-wrs os=-vxworks ;; w65*) basic_machine=w65-wdc os=-none ;; w89k-*) basic_machine=hppa1.1-winbond os=-proelf ;; xbox) basic_machine=i686-pc os=-mingw32 ;; xps | xps100) basic_machine=xps100-honeywell ;; ymp) basic_machine=ymp-cray os=-unicos ;; z8k-*-coff) basic_machine=z8k-unknown os=-sim ;; z80-*-coff) basic_machine=z80-unknown os=-sim ;; none) basic_machine=none-none os=-none ;; # Here we handle the default manufacturer of certain CPU types. It is in # some cases the only manufacturer, in others, it is the most popular. w89k) basic_machine=hppa1.1-winbond ;; op50n) basic_machine=hppa1.1-oki ;; op60c) basic_machine=hppa1.1-oki ;; romp) basic_machine=romp-ibm ;; mmix) basic_machine=mmix-knuth ;; rs6000) basic_machine=rs6000-ibm ;; vax) basic_machine=vax-dec ;; pdp10) # there are many clones, so DEC is not a safe bet basic_machine=pdp10-unknown ;; pdp11) basic_machine=pdp11-dec ;; we32k) basic_machine=we32k-att ;; sh[1234] | sh[24]a | sh[24]aeb | sh[34]eb | sh[1234]le | sh[23]ele) basic_machine=sh-unknown ;; sparc | sparcv8 | sparcv9 | sparcv9b | sparcv9v) basic_machine=sparc-sun ;; cydra) basic_machine=cydra-cydrome ;; orion) basic_machine=orion-highlevel ;; orion105) basic_machine=clipper-highlevel ;; mac | mpw | mac-mpw) basic_machine=m68k-apple ;; pmac | pmac-mpw) basic_machine=powerpc-apple ;; *-unknown) # Make sure to match an already-canonicalized machine name. ;; *) echo Invalid configuration \`$1\': machine \`$basic_machine\' not recognized 1>&2 exit 1 ;; esac # Here we canonicalize certain aliases for manufacturers. case $basic_machine in *-digital*) basic_machine=`echo $basic_machine | sed 's/digital.*/dec/'` ;; *-commodore*) basic_machine=`echo $basic_machine | sed 's/commodore.*/cbm/'` ;; *) ;; esac # Decode manufacturer-specific aliases for certain operating systems. if [ x"$os" != x"" ] then case $os in # First match some system type aliases # that might get confused with valid system types. # -solaris* is a basic system type, with this one exception. -solaris1 | -solaris1.*) os=`echo $os | sed -e 's|solaris1|sunos4|'` ;; -solaris) os=-solaris2 ;; -svr4*) os=-sysv4 ;; -unixware*) os=-sysv4.2uw ;; -gnu/linux*) os=`echo $os | sed -e 's|gnu/linux|linux-gnu|'` ;; # First accept the basic system types. # The portable systems comes first. # Each alternative MUST END IN A *, to match a version number. # -sysv* is not here because it comes later, after sysvr4. -gnu* | -bsd* | -mach* | -minix* | -genix* | -ultrix* | -irix* \ | -*vms* | -sco* | -esix* | -isc* | -aix* | -sunos | -sunos[34]*\ | -hpux* | -unos* | -osf* | -luna* | -dgux* | -solaris* | -sym* \ | -kopensolaris* \ | -amigaos* | -amigados* | -msdos* | -newsos* | -unicos* | -aof* \ | -aos* | -aros* \ | -nindy* | -vxsim* | -vxworks* | -ebmon* | -hms* | -mvs* \ | -clix* | -riscos* | -uniplus* | -iris* | -rtu* | -xenix* \ | -hiux* | -386bsd* | -knetbsd* | -mirbsd* | -netbsd* \ | -openbsd* | -solidbsd* \ | -ekkobsd* | -kfreebsd* | -freebsd* | -riscix* | -lynxos* \ | -bosx* | -nextstep* | -cxux* | -aout* | -elf* | -oabi* \ | -ptx* | -coff* | -ecoff* | -winnt* | -domain* | -vsta* \ | -udi* | -eabi* | -lites* | -ieee* | -go32* | -aux* \ | -chorusos* | -chorusrdb* | -cegcc* \ | -cygwin* | -pe* | -psos* | -moss* | -proelf* | -rtems* \ | -mingw32* | -linux-gnu* | -linux-newlib* | -linux-uclibc* \ | -uxpv* | -beos* | -mpeix* | -udk* \ | -interix* | -uwin* | -mks* | -rhapsody* | -darwin* | -opened* \ | -openstep* | -oskit* | -conix* | -pw32* | -nonstopux* \ | -storm-chaos* | -tops10* | -tenex* | -tops20* | -its* \ | -os2* | -vos* | -palmos* | -uclinux* | -nucleus* \ | -morphos* | -superux* | -rtmk* | -rtmk-nova* | -windiss* \ | -powermax* | -dnix* | -nx6 | -nx7 | -sei* | -dragonfly* \ | -skyos* | -haiku* | -rdos* | -toppers* | -drops*) # Remember, each alternative MUST END IN *, to match a version number. ;; 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" >&6; } if test "${ac_cv_prog_ac_ct_DUMPBIN+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_DUMPBIN"; then ac_cv_prog_ac_ct_DUMPBIN="$ac_ct_DUMPBIN" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_ac_ct_DUMPBIN="$ac_prog" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_DUMPBIN=$ac_cv_prog_ac_ct_DUMPBIN if test -n "$ac_ct_DUMPBIN"; then { $as_echo "$as_me:$LINENO: result: $ac_ct_DUMPBIN" >&5 $as_echo "$ac_ct_DUMPBIN" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi test -n "$ac_ct_DUMPBIN" && break done if test "x$ac_ct_DUMPBIN" = x; then DUMPBIN=":" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:$LINENO: WARNING: using cross tools not prefixed with host triplet" >&5 $as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;} ac_tool_warned=yes ;; esac DUMPBIN=$ac_ct_DUMPBIN fi fi if test "$DUMPBIN" != ":"; then NM="$DUMPBIN" fi fi test -z "$NM" && NM=nm { $as_echo "$as_me:$LINENO: checking the name lister ($NM) interface" >&5 $as_echo_n "checking the name lister ($NM) interface... " >&6; } if test "${lt_cv_nm_interface+set}" = set; then $as_echo_n "(cached) " >&6 else lt_cv_nm_interface="BSD nm" echo "int some_variable = 0;" > conftest.$ac_ext (eval echo "\"\$as_me:4813: $ac_compile\"" >&5) (eval "$ac_compile" 2>conftest.err) cat conftest.err >&5 (eval echo "\"\$as_me:4816: $NM \\\"conftest.$ac_objext\\\"\"" >&5) (eval "$NM \"conftest.$ac_objext\"" 2>conftest.err > conftest.out) cat conftest.err >&5 (eval echo "\"\$as_me:4819: output\"" >&5) cat conftest.out >&5 if $GREP 'External.*some_variable' conftest.out > /dev/null; then lt_cv_nm_interface="MS dumpbin" fi rm -f conftest* fi { $as_echo "$as_me:$LINENO: result: $lt_cv_nm_interface" >&5 $as_echo "$lt_cv_nm_interface" >&6; } { $as_echo "$as_me:$LINENO: checking whether ln -s works" >&5 $as_echo_n "checking whether ln -s works... " >&6; } LN_S=$as_ln_s if test "$LN_S" = "ln -s"; then { $as_echo "$as_me:$LINENO: result: yes" >&5 $as_echo "yes" >&6; } else { $as_echo "$as_me:$LINENO: result: no, using $LN_S" >&5 $as_echo "no, using $LN_S" >&6; } fi # find the maximum length of command line arguments { $as_echo "$as_me:$LINENO: checking the maximum length of command line arguments" >&5 $as_echo_n "checking the maximum length of command line arguments... " >&6; } if test "${lt_cv_sys_max_cmd_len+set}" = set; then $as_echo_n "(cached) " >&6 else i=0 teststring="ABCD" case $build_os in msdosdjgpp*) # On DJGPP, this test can blow up pretty badly due to problems in libc # (any single argument exceeding 2000 bytes causes a buffer overrun # during glob expansion). Even if it were fixed, the result of this # check would be larger than it should be. lt_cv_sys_max_cmd_len=12288; # 12K is about right ;; gnu*) # Under GNU Hurd, this test is not required because there is # no limit to the length of command line arguments. # Libtool will interpret -1 as no limit whatsoever lt_cv_sys_max_cmd_len=-1; ;; cygwin* | mingw* | cegcc*) # On Win9x/ME, this test blows up -- it succeeds, but takes # about 5 minutes as the teststring grows exponentially. # Worse, since 9x/ME are not pre-emptively multitasking, # you end up with a "frozen" computer, even though with patience # the test eventually succeeds (with a max line length of 256k). # Instead, let's just punt: use the minimum linelength reported by # all of the supported platforms: 8192 (on NT/2K/XP). lt_cv_sys_max_cmd_len=8192; ;; amigaos*) # On AmigaOS with pdksh, this test takes hours, literally. # So we just punt and use a minimum line length of 8192. lt_cv_sys_max_cmd_len=8192; ;; netbsd* | freebsd* | openbsd* | darwin* | dragonfly*) # This has been around since 386BSD, at least. Likely further. if test -x /sbin/sysctl; then lt_cv_sys_max_cmd_len=`/sbin/sysctl -n kern.argmax` elif test -x /usr/sbin/sysctl; then lt_cv_sys_max_cmd_len=`/usr/sbin/sysctl -n kern.argmax` else lt_cv_sys_max_cmd_len=65536 # usable default for all BSDs fi # And add a safety zone lt_cv_sys_max_cmd_len=`expr $lt_cv_sys_max_cmd_len \/ 4` lt_cv_sys_max_cmd_len=`expr $lt_cv_sys_max_cmd_len \* 3` ;; interix*) # We know the value 262144 and hardcode it with a safety zone (like BSD) lt_cv_sys_max_cmd_len=196608 ;; osf*) # Dr. Hans Ekkehard Plesser reports seeing a kernel panic running configure # due to this test when exec_disable_arg_limit is 1 on Tru64. It is not # nice to cause kernel panics so lets avoid the loop below. # First set a reasonable default. lt_cv_sys_max_cmd_len=16384 # if test -x /sbin/sysconfig; then case `/sbin/sysconfig -q proc exec_disable_arg_limit` in *1*) lt_cv_sys_max_cmd_len=-1 ;; esac fi ;; sco3.2v5*) lt_cv_sys_max_cmd_len=102400 ;; sysv5* | sco5v6* | sysv4.2uw2*) kargmax=`grep ARG_MAX /etc/conf/cf.d/stune 2>/dev/null` if test -n "$kargmax"; then lt_cv_sys_max_cmd_len=`echo $kargmax | sed 's/.*[ ]//'` else lt_cv_sys_max_cmd_len=32768 fi ;; *) lt_cv_sys_max_cmd_len=`(getconf ARG_MAX) 2> /dev/null` if test -n "$lt_cv_sys_max_cmd_len"; then lt_cv_sys_max_cmd_len=`expr $lt_cv_sys_max_cmd_len \/ 4` lt_cv_sys_max_cmd_len=`expr $lt_cv_sys_max_cmd_len \* 3` else # Make teststring a little bigger before we do anything with it. # a 1K string should be a reasonable start. for i in 1 2 3 4 5 6 7 8 ; do teststring=$teststring$teststring done SHELL=${SHELL-${CONFIG_SHELL-/bin/sh}} # If test is not a shell built-in, we'll probably end up computing a # maximum length that is only half of the actual maximum length, but # we can't tell. while { test "X"`$SHELL $0 --fallback-echo "X$teststring$teststring" 2>/dev/null` \ = "XX$teststring$teststring"; } >/dev/null 2>&1 && test $i != 17 # 1/2 MB should be enough do i=`expr $i + 1` teststring=$teststring$teststring done # Only check the string length outside the loop. lt_cv_sys_max_cmd_len=`expr "X$teststring" : ".*" 2>&1` teststring= # Add a significant safety factor because C++ compilers can tack on # massive amounts of additional arguments before passing them to the # linker. It appears as though 1/2 is a usable value. lt_cv_sys_max_cmd_len=`expr $lt_cv_sys_max_cmd_len \/ 2` fi ;; esac fi if test -n $lt_cv_sys_max_cmd_len ; then { $as_echo "$as_me:$LINENO: result: $lt_cv_sys_max_cmd_len" >&5 $as_echo "$lt_cv_sys_max_cmd_len" >&6; } else { $as_echo "$as_me:$LINENO: result: none" >&5 $as_echo "none" >&6; } fi max_cmd_len=$lt_cv_sys_max_cmd_len : ${CP="cp -f"} : ${MV="mv -f"} : ${RM="rm -f"} { $as_echo "$as_me:$LINENO: checking whether the shell understands some XSI constructs" >&5 $as_echo_n "checking whether the shell understands some XSI constructs... " >&6; } # Try some XSI features xsi_shell=no ( _lt_dummy="a/b/c" test "${_lt_dummy##*/},${_lt_dummy%/*},"${_lt_dummy%"$_lt_dummy"}, \ = c,a/b,, \ && eval 'test $(( 1 + 1 )) -eq 2 \ && test "${#_lt_dummy}" -eq 5' ) >/dev/null 2>&1 \ && xsi_shell=yes { $as_echo "$as_me:$LINENO: result: $xsi_shell" >&5 $as_echo "$xsi_shell" >&6; } { $as_echo "$as_me:$LINENO: checking whether the shell understands \"+=\"" >&5 $as_echo_n "checking whether the shell understands \"+=\"... " >&6; } lt_shell_append=no ( foo=bar; set foo baz; eval "$1+=\$2" && test "$foo" = barbaz ) \ >/dev/null 2>&1 \ && lt_shell_append=yes { $as_echo "$as_me:$LINENO: result: $lt_shell_append" >&5 $as_echo "$lt_shell_append" >&6; } if ( (MAIL=60; unset MAIL) || exit) >/dev/null 2>&1; then lt_unset=unset else lt_unset=false fi # test EBCDIC or ASCII case `echo X|tr X '\101'` in A) # ASCII based system # \n is not interpreted correctly by Solaris 8 /usr/ucb/tr lt_SP2NL='tr \040 \012' lt_NL2SP='tr \015\012 \040\040' ;; *) # EBCDIC based system lt_SP2NL='tr \100 \n' lt_NL2SP='tr \r\n \100\100' ;; esac { $as_echo "$as_me:$LINENO: checking for $LD option to reload object files" >&5 $as_echo_n "checking for $LD option to reload object files... " >&6; } if test "${lt_cv_ld_reload_flag+set}" = set; then $as_echo_n "(cached) " >&6 else lt_cv_ld_reload_flag='-r' fi { $as_echo "$as_me:$LINENO: result: $lt_cv_ld_reload_flag" >&5 $as_echo "$lt_cv_ld_reload_flag" >&6; } reload_flag=$lt_cv_ld_reload_flag case $reload_flag in "" | " "*) ;; *) reload_flag=" $reload_flag" ;; esac reload_cmds='$LD$reload_flag -o $output$reload_objs' case $host_os in darwin*) if test "$GCC" = yes; then reload_cmds='$LTCC $LTCFLAGS -nostdlib ${wl}-r -o $output$reload_objs' else reload_cmds='$LD$reload_flag -o $output$reload_objs' fi ;; esac if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}objdump", so it can be a program name with args. set dummy ${ac_tool_prefix}objdump; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_OBJDUMP+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$OBJDUMP"; then ac_cv_prog_OBJDUMP="$OBJDUMP" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_OBJDUMP="${ac_tool_prefix}objdump" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi OBJDUMP=$ac_cv_prog_OBJDUMP if test -n "$OBJDUMP"; then { $as_echo "$as_me:$LINENO: result: $OBJDUMP" >&5 $as_echo "$OBJDUMP" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_OBJDUMP"; then ac_ct_OBJDUMP=$OBJDUMP # Extract the first word of "objdump", so it can be a program name with args. set dummy objdump; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_ac_ct_OBJDUMP+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_OBJDUMP"; then ac_cv_prog_ac_ct_OBJDUMP="$ac_ct_OBJDUMP" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_ac_ct_OBJDUMP="objdump" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_OBJDUMP=$ac_cv_prog_ac_ct_OBJDUMP if test -n "$ac_ct_OBJDUMP"; then { $as_echo "$as_me:$LINENO: result: $ac_ct_OBJDUMP" >&5 $as_echo "$ac_ct_OBJDUMP" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_OBJDUMP" = x; then OBJDUMP="false" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:$LINENO: WARNING: using cross tools not prefixed with host triplet" >&5 $as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;} ac_tool_warned=yes ;; esac OBJDUMP=$ac_ct_OBJDUMP fi else OBJDUMP="$ac_cv_prog_OBJDUMP" fi test -z "$OBJDUMP" && OBJDUMP=objdump { $as_echo "$as_me:$LINENO: checking how to recognize dependent libraries" >&5 $as_echo_n "checking how to recognize dependent libraries... " >&6; } if test "${lt_cv_deplibs_check_method+set}" = set; then $as_echo_n "(cached) " >&6 else lt_cv_file_magic_cmd='$MAGIC_CMD' lt_cv_file_magic_test_file= lt_cv_deplibs_check_method='unknown' # Need to set the preceding variable on all platforms that support # interlibrary dependencies. # 'none' -- dependencies not supported. # `unknown' -- same as none, but documents that we really don't know. # 'pass_all' -- all dependencies passed with no checks. # 'test_compile' -- check by making test program. # 'file_magic [[regex]]' -- check by looking for files in library path # which responds to the $file_magic_cmd with a given extended regex. # If you have `file' or equivalent on your system and you're not sure # whether `pass_all' will *always* work, you probably want this one. case $host_os in aix[4-9]*) lt_cv_deplibs_check_method=pass_all ;; beos*) lt_cv_deplibs_check_method=pass_all ;; bsdi[45]*) lt_cv_deplibs_check_method='file_magic ELF [0-9][0-9]*-bit [ML]SB (shared object|dynamic lib)' lt_cv_file_magic_cmd='/usr/bin/file -L' lt_cv_file_magic_test_file=/shlib/libc.so ;; cygwin*) # func_win32_libid is a shell function defined in ltmain.sh lt_cv_deplibs_check_method='file_magic ^x86 archive import|^x86 DLL' lt_cv_file_magic_cmd='func_win32_libid' ;; mingw* | pw32*) # Base MSYS/MinGW do not provide the 'file' command needed by # func_win32_libid shell function, so use a weaker test based on 'objdump', # unless we find 'file', for example because we are cross-compiling. if ( file / ) >/dev/null 2>&1; then lt_cv_deplibs_check_method='file_magic ^x86 archive import|^x86 DLL' lt_cv_file_magic_cmd='func_win32_libid' else lt_cv_deplibs_check_method='file_magic file format pei*-i386(.*architecture: i386)?' lt_cv_file_magic_cmd='$OBJDUMP -f' fi ;; cegcc) # use the weaker test based on 'objdump'. See mingw*. lt_cv_deplibs_check_method='file_magic file format pe-arm-.*little(.*architecture: arm)?' lt_cv_file_magic_cmd='$OBJDUMP -f' ;; darwin* | rhapsody*) lt_cv_deplibs_check_method=pass_all ;; freebsd* | dragonfly*) if echo __ELF__ | $CC -E - | $GREP __ELF__ > /dev/null; then case $host_cpu in i*86 ) # Not sure whether the presence of OpenBSD here was a mistake. # Let's accept both of them until this is cleared up. lt_cv_deplibs_check_method='file_magic (FreeBSD|OpenBSD|DragonFly)/i[3-9]86 (compact )?demand paged shared library' lt_cv_file_magic_cmd=/usr/bin/file lt_cv_file_magic_test_file=`echo /usr/lib/libc.so.*` ;; esac else lt_cv_deplibs_check_method=pass_all fi ;; gnu*) lt_cv_deplibs_check_method=pass_all ;; hpux10.20* | hpux11*) lt_cv_file_magic_cmd=/usr/bin/file case $host_cpu in ia64*) lt_cv_deplibs_check_method='file_magic (s[0-9][0-9][0-9]|ELF-[0-9][0-9]) shared object file - IA64' lt_cv_file_magic_test_file=/usr/lib/hpux32/libc.so ;; hppa*64*) lt_cv_deplibs_check_method='file_magic (s[0-9][0-9][0-9]|ELF-[0-9][0-9]) shared object file - PA-RISC [0-9].[0-9]' lt_cv_file_magic_test_file=/usr/lib/pa20_64/libc.sl ;; *) lt_cv_deplibs_check_method='file_magic (s[0-9][0-9][0-9]|PA-RISC[0-9].[0-9]) shared library' lt_cv_file_magic_test_file=/usr/lib/libc.sl ;; esac ;; interix[3-9]*) # PIC code is broken on Interix 3.x, that's why |\.a not |_pic\.a here lt_cv_deplibs_check_method='match_pattern /lib[^/]+(\.so|\.a)$' ;; irix5* | irix6* | nonstopux*) case $LD in *-32|*"-32 ") libmagic=32-bit;; *-n32|*"-n32 ") libmagic=N32;; *-64|*"-64 ") libmagic=64-bit;; *) libmagic=never-match;; esac lt_cv_deplibs_check_method=pass_all ;; # This must be Linux ELF. linux* | k*bsd*-gnu) lt_cv_deplibs_check_method=pass_all ;; netbsd*) if echo __ELF__ | $CC -E - | $GREP __ELF__ > /dev/null; then lt_cv_deplibs_check_method='match_pattern /lib[^/]+(\.so\.[0-9]+\.[0-9]+|_pic\.a)$' else lt_cv_deplibs_check_method='match_pattern /lib[^/]+(\.so|_pic\.a)$' fi ;; newos6*) lt_cv_deplibs_check_method='file_magic ELF [0-9][0-9]*-bit [ML]SB (executable|dynamic lib)' lt_cv_file_magic_cmd=/usr/bin/file lt_cv_file_magic_test_file=/usr/lib/libnls.so ;; *nto* | *qnx*) lt_cv_deplibs_check_method=pass_all ;; openbsd*) if test -z "`echo __ELF__ | $CC -E - | $GREP __ELF__`" || test "$host_os-$host_cpu" = "openbsd2.8-powerpc"; then lt_cv_deplibs_check_method='match_pattern /lib[^/]+(\.so\.[0-9]+\.[0-9]+|\.so|_pic\.a)$' else lt_cv_deplibs_check_method='match_pattern /lib[^/]+(\.so\.[0-9]+\.[0-9]+|_pic\.a)$' fi ;; osf3* | osf4* | osf5*) lt_cv_deplibs_check_method=pass_all ;; rdos*) lt_cv_deplibs_check_method=pass_all ;; solaris*) lt_cv_deplibs_check_method=pass_all ;; sysv5* | sco3.2v5* | sco5v6* | unixware* | OpenUNIX* | sysv4*uw2*) lt_cv_deplibs_check_method=pass_all ;; sysv4 | sysv4.3*) case $host_vendor in motorola) lt_cv_deplibs_check_method='file_magic ELF [0-9][0-9]*-bit [ML]SB (shared object|dynamic lib) M[0-9][0-9]* Version [0-9]' lt_cv_file_magic_test_file=`echo /usr/lib/libc.so*` ;; ncr) lt_cv_deplibs_check_method=pass_all ;; sequent) lt_cv_file_magic_cmd='/bin/file' lt_cv_deplibs_check_method='file_magic ELF [0-9][0-9]*-bit [LM]SB (shared object|dynamic lib )' ;; sni) lt_cv_file_magic_cmd='/bin/file' lt_cv_deplibs_check_method="file_magic ELF [0-9][0-9]*-bit [LM]SB dynamic lib" lt_cv_file_magic_test_file=/lib/libc.so ;; siemens) lt_cv_deplibs_check_method=pass_all ;; pc) lt_cv_deplibs_check_method=pass_all ;; esac ;; tpf*) lt_cv_deplibs_check_method=pass_all ;; esac fi { $as_echo "$as_me:$LINENO: result: $lt_cv_deplibs_check_method" >&5 $as_echo "$lt_cv_deplibs_check_method" >&6; } file_magic_cmd=$lt_cv_file_magic_cmd deplibs_check_method=$lt_cv_deplibs_check_method test -z "$deplibs_check_method" && deplibs_check_method=unknown if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}ar", so it can be a program name with args. set dummy ${ac_tool_prefix}ar; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_AR+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$AR"; then ac_cv_prog_AR="$AR" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_AR="${ac_tool_prefix}ar" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi AR=$ac_cv_prog_AR if test -n "$AR"; then { $as_echo "$as_me:$LINENO: result: $AR" >&5 $as_echo "$AR" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_AR"; then ac_ct_AR=$AR # Extract the first word of "ar", so it can be a program name with args. set dummy ar; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_ac_ct_AR+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_AR"; then ac_cv_prog_ac_ct_AR="$ac_ct_AR" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_ac_ct_AR="ar" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_AR=$ac_cv_prog_ac_ct_AR if test -n "$ac_ct_AR"; then { $as_echo "$as_me:$LINENO: result: $ac_ct_AR" >&5 $as_echo "$ac_ct_AR" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_AR" = x; then AR="false" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:$LINENO: WARNING: using cross tools not prefixed with host triplet" >&5 $as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;} ac_tool_warned=yes ;; esac AR=$ac_ct_AR fi else AR="$ac_cv_prog_AR" fi test -z "$AR" && AR=ar test -z "$AR_FLAGS" && AR_FLAGS=cru if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}strip", so it can be a program name with args. set dummy ${ac_tool_prefix}strip; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_STRIP+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$STRIP"; then ac_cv_prog_STRIP="$STRIP" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_STRIP="${ac_tool_prefix}strip" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi STRIP=$ac_cv_prog_STRIP if test -n "$STRIP"; then { $as_echo "$as_me:$LINENO: result: $STRIP" >&5 $as_echo "$STRIP" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_STRIP"; then ac_ct_STRIP=$STRIP # Extract the first word of "strip", so it can be a program name with args. set dummy strip; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_ac_ct_STRIP+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_STRIP"; then ac_cv_prog_ac_ct_STRIP="$ac_ct_STRIP" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_ac_ct_STRIP="strip" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_STRIP=$ac_cv_prog_ac_ct_STRIP if test -n "$ac_ct_STRIP"; then { $as_echo "$as_me:$LINENO: result: $ac_ct_STRIP" >&5 $as_echo "$ac_ct_STRIP" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_STRIP" = x; then STRIP=":" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:$LINENO: WARNING: using cross tools not prefixed with host triplet" >&5 $as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;} ac_tool_warned=yes ;; esac STRIP=$ac_ct_STRIP fi else STRIP="$ac_cv_prog_STRIP" fi test -z "$STRIP" && STRIP=: if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}ranlib", so it can be a program name with args. set dummy ${ac_tool_prefix}ranlib; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_RANLIB+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$RANLIB"; then ac_cv_prog_RANLIB="$RANLIB" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_RANLIB="${ac_tool_prefix}ranlib" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi RANLIB=$ac_cv_prog_RANLIB if test -n "$RANLIB"; then { $as_echo "$as_me:$LINENO: result: $RANLIB" >&5 $as_echo "$RANLIB" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_RANLIB"; then ac_ct_RANLIB=$RANLIB # Extract the first word of "ranlib", so it can be a program name with args. set dummy ranlib; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_ac_ct_RANLIB+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_RANLIB"; then ac_cv_prog_ac_ct_RANLIB="$ac_ct_RANLIB" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_ac_ct_RANLIB="ranlib" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_RANLIB=$ac_cv_prog_ac_ct_RANLIB if test -n "$ac_ct_RANLIB"; then { $as_echo "$as_me:$LINENO: result: $ac_ct_RANLIB" >&5 $as_echo "$ac_ct_RANLIB" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_RANLIB" = x; then RANLIB=":" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:$LINENO: WARNING: using cross tools not prefixed with host triplet" >&5 $as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;} ac_tool_warned=yes ;; esac RANLIB=$ac_ct_RANLIB fi else RANLIB="$ac_cv_prog_RANLIB" fi test -z "$RANLIB" && RANLIB=: # Determine commands to create old-style static archives. old_archive_cmds='$AR $AR_FLAGS $oldlib$oldobjs' old_postinstall_cmds='chmod 644 $oldlib' old_postuninstall_cmds= if test -n "$RANLIB"; then case $host_os in openbsd*) old_postinstall_cmds="$old_postinstall_cmds~\$RANLIB -t \$oldlib" ;; *) old_postinstall_cmds="$old_postinstall_cmds~\$RANLIB \$oldlib" ;; esac old_archive_cmds="$old_archive_cmds~\$RANLIB \$oldlib" fi # If no C compiler was specified, use CC. LTCC=${LTCC-"$CC"} # If no C compiler flags were specified, use CFLAGS. LTCFLAGS=${LTCFLAGS-"$CFLAGS"} # Allow CC to be a program name with arguments. compiler=$CC # Check for command to grab the raw symbol name followed by C symbol from nm. { $as_echo "$as_me:$LINENO: checking command to parse $NM output from $compiler object" >&5 $as_echo_n "checking command to parse $NM output from $compiler object... " >&6; } if test "${lt_cv_sys_global_symbol_pipe+set}" = set; then $as_echo_n "(cached) " >&6 else # These are sane defaults that work on at least a few old systems. # [They come from Ultrix. What could be older than Ultrix?!! ;)] # Character class describing NM global symbol codes. symcode='[BCDEGRST]' # Regexp to match symbols that can be accessed directly from C. sympat='\([_A-Za-z][_A-Za-z0-9]*\)' # Define system-specific variables. case $host_os in aix*) symcode='[BCDT]' ;; cygwin* | mingw* | pw32* | cegcc*) symcode='[ABCDGISTW]' ;; hpux*) if test "$host_cpu" = ia64; then symcode='[ABCDEGRST]' fi ;; irix* | nonstopux*) symcode='[BCDEGRST]' ;; osf*) symcode='[BCDEGQRST]' ;; solaris*) symcode='[BDRT]' ;; sco3.2v5*) symcode='[DT]' ;; sysv4.2uw2*) symcode='[DT]' ;; sysv5* | sco5v6* | unixware* | OpenUNIX*) symcode='[ABDT]' ;; sysv4) symcode='[DFNSTU]' ;; esac # If we're using GNU nm, then use its standard symbol codes. case `$NM -V 2>&1` in *GNU* | *'with BFD'*) symcode='[ABCDGIRSTW]' ;; esac # Transform an extracted symbol line into a proper C declaration. # Some systems (esp. on ia64) link data and code symbols differently, # so use this general approach. lt_cv_sys_global_symbol_to_cdecl="sed -n -e 's/^T .* \(.*\)$/extern int \1();/p' -e 's/^$symcode* .* \(.*\)$/extern char \1;/p'" # Transform an extracted symbol line into symbol name and symbol address lt_cv_sys_global_symbol_to_c_name_address="sed -n -e 's/^: \([^ ]*\) $/ {\\\"\1\\\", (void *) 0},/p' -e 's/^$symcode* \([^ ]*\) \([^ ]*\)$/ {\"\2\", (void *) \&\2},/p'" lt_cv_sys_global_symbol_to_c_name_address_lib_prefix="sed -n -e 's/^: \([^ ]*\) $/ {\\\"\1\\\", (void *) 0},/p' -e 's/^$symcode* \([^ ]*\) \(lib[^ ]*\)$/ {\"\2\", (void *) \&\2},/p' -e 's/^$symcode* \([^ ]*\) \([^ ]*\)$/ {\"lib\2\", (void *) \&\2},/p'" # Handle CRLF in mingw tool chain opt_cr= case $build_os in mingw*) opt_cr=`$ECHO 'x\{0,1\}' | tr x '\015'` # option cr in regexp ;; esac # Try without a prefix underscore, then with it. for ac_symprfx in "" "_"; do # Transform symcode, sympat, and symprfx into a raw symbol and a C symbol. symxfrm="\\1 $ac_symprfx\\2 \\2" # Write the raw and C identifiers. if test "$lt_cv_nm_interface" = "MS dumpbin"; then # Fake it for dumpbin and say T for any non-static function # and D for any global variable. # Also find C++ and __fastcall symbols from MSVC++, # which start with @ or ?. lt_cv_sys_global_symbol_pipe="$AWK '"\ " {last_section=section; section=\$ 3};"\ " /Section length .*#relocs.*(pick any)/{hide[last_section]=1};"\ " \$ 0!~/External *\|/{next};"\ " / 0+ UNDEF /{next}; / UNDEF \([^|]\)*()/{next};"\ " {if(hide[section]) next};"\ " {f=0}; \$ 0~/\(\).*\|/{f=1}; {printf f ? \"T \" : \"D \"};"\ " {split(\$ 0, a, /\||\r/); split(a[2], s)};"\ " s[1]~/^[@?]/{print s[1], s[1]; next};"\ " s[1]~prfx {split(s[1],t,\"@\"); print t[1], substr(t[1],length(prfx))}"\ " ' prfx=^$ac_symprfx" else lt_cv_sys_global_symbol_pipe="sed -n -e 's/^.*[ ]\($symcode$symcode*\)[ ][ ]*$ac_symprfx$sympat$opt_cr$/$symxfrm/p'" fi # Check to see that the pipe works correctly. pipe_works=no rm -f conftest* cat > conftest.$ac_ext <<_LT_EOF #ifdef __cplusplus extern "C" { #endif char nm_test_var; void nm_test_func(void); void nm_test_func(void){} #ifdef __cplusplus } #endif int main(){nm_test_var='a';nm_test_func();return(0);} _LT_EOF if { (eval echo "$as_me:$LINENO: \"$ac_compile\"") >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); }; then # Now try to grab the symbols. nlist=conftest.nm if { (eval echo "$as_me:$LINENO: \"$NM conftest.$ac_objext \| $lt_cv_sys_global_symbol_pipe \> $nlist\"") >&5 (eval $NM conftest.$ac_objext \| $lt_cv_sys_global_symbol_pipe \> $nlist) 2>&5 ac_status=$? $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); } && test -s "$nlist"; then # Try sorting and uniquifying the output. if sort "$nlist" | uniq > "$nlist"T; then mv -f "$nlist"T "$nlist" else rm -f "$nlist"T fi # Make sure that we snagged all the symbols we need. if $GREP ' nm_test_var$' "$nlist" >/dev/null; then if $GREP ' nm_test_func$' "$nlist" >/dev/null; then cat <<_LT_EOF > conftest.$ac_ext #ifdef __cplusplus extern "C" { #endif _LT_EOF # Now generate the symbol file. eval "$lt_cv_sys_global_symbol_to_cdecl"' < "$nlist" | $GREP -v main >> conftest.$ac_ext' cat <<_LT_EOF >> conftest.$ac_ext /* The mapping between symbol names and symbols. */ const struct { const char *name; void *address; } lt__PROGRAM__LTX_preloaded_symbols[] = { { "@PROGRAM@", (void *) 0 }, _LT_EOF $SED "s/^$symcode$symcode* \(.*\) \(.*\)$/ {\"\2\", (void *) \&\2},/" < "$nlist" | $GREP -v main >> conftest.$ac_ext cat <<\_LT_EOF >> conftest.$ac_ext {0, (void *) 0} }; /* This works around a problem in FreeBSD linker */ #ifdef FREEBSD_WORKAROUND static const void *lt_preloaded_setup() { return lt__PROGRAM__LTX_preloaded_symbols; } #endif #ifdef __cplusplus } #endif _LT_EOF # Now try linking the two files. mv conftest.$ac_objext conftstm.$ac_objext lt_save_LIBS="$LIBS" lt_save_CFLAGS="$CFLAGS" LIBS="conftstm.$ac_objext" CFLAGS="$CFLAGS$lt_prog_compiler_no_builtin_flag" if { (eval echo "$as_me:$LINENO: \"$ac_link\"") >&5 (eval $ac_link) 2>&5 ac_status=$? $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); } && test -s conftest${ac_exeext}; then pipe_works=yes fi LIBS="$lt_save_LIBS" CFLAGS="$lt_save_CFLAGS" else echo "cannot find nm_test_func in $nlist" >&5 fi else echo "cannot find nm_test_var in $nlist" >&5 fi else echo "cannot run $lt_cv_sys_global_symbol_pipe" >&5 fi else echo "$progname: failed program was:" >&5 cat conftest.$ac_ext >&5 fi rm -rf conftest* conftst* # Do not use the global_symbol_pipe unless it works. if test "$pipe_works" = yes; then break else lt_cv_sys_global_symbol_pipe= fi done fi if test -z "$lt_cv_sys_global_symbol_pipe"; then lt_cv_sys_global_symbol_to_cdecl= fi if test -z "$lt_cv_sys_global_symbol_pipe$lt_cv_sys_global_symbol_to_cdecl"; then { $as_echo "$as_me:$LINENO: result: failed" >&5 $as_echo "failed" >&6; } else { $as_echo "$as_me:$LINENO: result: ok" >&5 $as_echo "ok" >&6; } fi # Check whether --enable-libtool-lock was given. if test "${enable_libtool_lock+set}" = set; then enableval=$enable_libtool_lock; fi test "x$enable_libtool_lock" != xno && enable_libtool_lock=yes # Some flags need to be propagated to the compiler or linker for good # libtool support. case $host in ia64-*-hpux*) # Find out which ABI we are using. echo 'int i;' > conftest.$ac_ext if { (eval echo "$as_me:$LINENO: \"$ac_compile\"") >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); }; then case `/usr/bin/file conftest.$ac_objext` in *ELF-32*) HPUX_IA64_MODE="32" ;; *ELF-64*) HPUX_IA64_MODE="64" ;; esac fi rm -rf conftest* ;; *-*-irix6*) # Find out which ABI we are using. echo '#line 6025 "configure"' > conftest.$ac_ext if { (eval echo "$as_me:$LINENO: \"$ac_compile\"") >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); }; then if test "$lt_cv_prog_gnu_ld" = yes; then case `/usr/bin/file conftest.$ac_objext` in *32-bit*) LD="${LD-ld} -melf32bsmip" ;; *N32*) LD="${LD-ld} -melf32bmipn32" ;; *64-bit*) LD="${LD-ld} -melf64bmip" ;; esac else case `/usr/bin/file conftest.$ac_objext` in *32-bit*) LD="${LD-ld} -32" ;; *N32*) LD="${LD-ld} -n32" ;; *64-bit*) LD="${LD-ld} -64" ;; esac fi fi rm -rf conftest* ;; x86_64-*kfreebsd*-gnu|x86_64-*linux*|ppc*-*linux*|powerpc*-*linux*| \ s390*-*linux*|s390*-*tpf*|sparc*-*linux*) # Find out which ABI we are using. echo 'int i;' > conftest.$ac_ext if { (eval echo "$as_me:$LINENO: \"$ac_compile\"") >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); }; then case `/usr/bin/file conftest.o` in *32-bit*) case $host in x86_64-*kfreebsd*-gnu) LD="${LD-ld} -m elf_i386_fbsd" ;; x86_64-*linux*) LD="${LD-ld} -m elf_i386" ;; ppc64-*linux*|powerpc64-*linux*) LD="${LD-ld} -m elf32ppclinux" ;; s390x-*linux*) LD="${LD-ld} -m elf_s390" ;; sparc64-*linux*) LD="${LD-ld} -m elf32_sparc" ;; esac ;; *64-bit*) case $host in x86_64-*kfreebsd*-gnu) LD="${LD-ld} -m elf_x86_64_fbsd" ;; x86_64-*linux*) LD="${LD-ld} -m elf_x86_64" ;; ppc*-*linux*|powerpc*-*linux*) LD="${LD-ld} -m elf64ppc" ;; s390*-*linux*|s390*-*tpf*) LD="${LD-ld} -m elf64_s390" ;; sparc*-*linux*) LD="${LD-ld} -m elf64_sparc" ;; esac ;; esac fi rm -rf conftest* ;; *-*-sco3.2v5*) # On SCO OpenServer 5, we need -belf to get full-featured binaries. SAVE_CFLAGS="$CFLAGS" CFLAGS="$CFLAGS -belf" { $as_echo "$as_me:$LINENO: checking whether the C compiler needs -belf" >&5 $as_echo_n "checking whether the C compiler needs -belf... " >&6; } if test "${lt_cv_cc_needs_belf+set}" = set; then $as_echo_n "(cached) " >&6 else ac_ext=c ac_cpp='$CPP $CPPFLAGS' ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5' ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5' ac_compiler_gnu=$ac_cv_c_compiler_gnu cat >conftest.$ac_ext <<_ACEOF /* confdefs.h. */ _ACEOF cat confdefs.h >>conftest.$ac_ext cat >>conftest.$ac_ext <<_ACEOF /* end confdefs.h. */ int main () { ; return 0; } _ACEOF rm -f conftest.$ac_objext conftest$ac_exeext if { (ac_try="$ac_link" case "(($ac_try" in *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;; *) ac_try_echo=$ac_try;; esac eval ac_try_echo="\"\$as_me:$LINENO: $ac_try_echo\"" $as_echo "$ac_try_echo") >&5 (eval "$ac_link") 2>conftest.er1 ac_status=$? grep -v '^ *+' conftest.er1 >conftest.err rm -f conftest.er1 cat conftest.err >&5 $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); } && { test -z "$ac_c_werror_flag" || test ! -s conftest.err } && test -s conftest$ac_exeext && { test "$cross_compiling" = yes || $as_test_x conftest$ac_exeext }; then lt_cv_cc_needs_belf=yes else $as_echo "$as_me: failed program was:" >&5 sed 's/^/| /' conftest.$ac_ext >&5 lt_cv_cc_needs_belf=no fi rm -rf conftest.dSYM rm -f core conftest.err conftest.$ac_objext conftest_ipa8_conftest.oo \ conftest$ac_exeext conftest.$ac_ext ac_ext=c ac_cpp='$CPP $CPPFLAGS' ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5' ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5' ac_compiler_gnu=$ac_cv_c_compiler_gnu fi { $as_echo "$as_me:$LINENO: result: $lt_cv_cc_needs_belf" >&5 $as_echo "$lt_cv_cc_needs_belf" >&6; } if test x"$lt_cv_cc_needs_belf" != x"yes"; then # this is probably gcc 2.8.0, egcs 1.0 or newer; no need for -belf CFLAGS="$SAVE_CFLAGS" fi ;; sparc*-*solaris*) # Find out which ABI we are using. echo 'int i;' > conftest.$ac_ext if { (eval echo "$as_me:$LINENO: \"$ac_compile\"") >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); }; then case `/usr/bin/file conftest.o` in *64-bit*) case $lt_cv_prog_gnu_ld in yes*) LD="${LD-ld} -m elf64_sparc" ;; *) if ${LD-ld} -64 -r -o conftest2.o conftest.o >/dev/null 2>&1; then LD="${LD-ld} -64" fi ;; esac ;; esac fi rm -rf conftest* ;; esac need_locks="$enable_libtool_lock" case $host_os in rhapsody* | darwin*) if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}dsymutil", so it can be a program name with args. set dummy ${ac_tool_prefix}dsymutil; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_DSYMUTIL+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$DSYMUTIL"; then ac_cv_prog_DSYMUTIL="$DSYMUTIL" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_DSYMUTIL="${ac_tool_prefix}dsymutil" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi DSYMUTIL=$ac_cv_prog_DSYMUTIL if test -n "$DSYMUTIL"; then { $as_echo "$as_me:$LINENO: result: $DSYMUTIL" >&5 $as_echo "$DSYMUTIL" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_DSYMUTIL"; then ac_ct_DSYMUTIL=$DSYMUTIL # Extract the first word of "dsymutil", so it can be a program name with args. set dummy dsymutil; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_ac_ct_DSYMUTIL+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_DSYMUTIL"; then ac_cv_prog_ac_ct_DSYMUTIL="$ac_ct_DSYMUTIL" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_ac_ct_DSYMUTIL="dsymutil" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_DSYMUTIL=$ac_cv_prog_ac_ct_DSYMUTIL if test -n "$ac_ct_DSYMUTIL"; then { $as_echo "$as_me:$LINENO: result: $ac_ct_DSYMUTIL" >&5 $as_echo "$ac_ct_DSYMUTIL" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_DSYMUTIL" = x; then DSYMUTIL=":" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:$LINENO: WARNING: using cross tools not prefixed with host triplet" >&5 $as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;} ac_tool_warned=yes ;; esac DSYMUTIL=$ac_ct_DSYMUTIL fi else DSYMUTIL="$ac_cv_prog_DSYMUTIL" fi if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}nmedit", so it can be a program name with args. set dummy ${ac_tool_prefix}nmedit; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_NMEDIT+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$NMEDIT"; then ac_cv_prog_NMEDIT="$NMEDIT" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_NMEDIT="${ac_tool_prefix}nmedit" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi NMEDIT=$ac_cv_prog_NMEDIT if test -n "$NMEDIT"; then { $as_echo "$as_me:$LINENO: result: $NMEDIT" >&5 $as_echo "$NMEDIT" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_NMEDIT"; then ac_ct_NMEDIT=$NMEDIT # Extract the first word of "nmedit", so it can be a program name with args. set dummy nmedit; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_ac_ct_NMEDIT+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_NMEDIT"; then ac_cv_prog_ac_ct_NMEDIT="$ac_ct_NMEDIT" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_ac_ct_NMEDIT="nmedit" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_NMEDIT=$ac_cv_prog_ac_ct_NMEDIT if test -n "$ac_ct_NMEDIT"; then { $as_echo "$as_me:$LINENO: result: $ac_ct_NMEDIT" >&5 $as_echo "$ac_ct_NMEDIT" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_NMEDIT" = x; then NMEDIT=":" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:$LINENO: WARNING: using cross tools not prefixed with host triplet" >&5 $as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;} ac_tool_warned=yes ;; esac NMEDIT=$ac_ct_NMEDIT fi else NMEDIT="$ac_cv_prog_NMEDIT" fi if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}lipo", so it can be a program name with args. set dummy ${ac_tool_prefix}lipo; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_LIPO+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$LIPO"; then ac_cv_prog_LIPO="$LIPO" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_LIPO="${ac_tool_prefix}lipo" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi LIPO=$ac_cv_prog_LIPO if test -n "$LIPO"; then { $as_echo "$as_me:$LINENO: result: $LIPO" >&5 $as_echo "$LIPO" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_LIPO"; then ac_ct_LIPO=$LIPO # Extract the first word of "lipo", so it can be a program name with args. set dummy lipo; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_ac_ct_LIPO+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_LIPO"; then ac_cv_prog_ac_ct_LIPO="$ac_ct_LIPO" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_ac_ct_LIPO="lipo" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_LIPO=$ac_cv_prog_ac_ct_LIPO if test -n "$ac_ct_LIPO"; then { $as_echo "$as_me:$LINENO: result: $ac_ct_LIPO" >&5 $as_echo "$ac_ct_LIPO" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_LIPO" = x; then LIPO=":" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:$LINENO: WARNING: using cross tools not prefixed with host triplet" >&5 $as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;} ac_tool_warned=yes ;; esac LIPO=$ac_ct_LIPO fi else LIPO="$ac_cv_prog_LIPO" fi if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}otool", so it can be a program name with args. set dummy ${ac_tool_prefix}otool; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_OTOOL+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$OTOOL"; then ac_cv_prog_OTOOL="$OTOOL" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_OTOOL="${ac_tool_prefix}otool" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi OTOOL=$ac_cv_prog_OTOOL if test -n "$OTOOL"; then { $as_echo "$as_me:$LINENO: result: $OTOOL" >&5 $as_echo "$OTOOL" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_OTOOL"; then ac_ct_OTOOL=$OTOOL # Extract the first word of "otool", so it can be a program name with args. set dummy otool; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_ac_ct_OTOOL+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_OTOOL"; then ac_cv_prog_ac_ct_OTOOL="$ac_ct_OTOOL" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_ac_ct_OTOOL="otool" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_OTOOL=$ac_cv_prog_ac_ct_OTOOL if test -n "$ac_ct_OTOOL"; then { $as_echo "$as_me:$LINENO: result: $ac_ct_OTOOL" >&5 $as_echo "$ac_ct_OTOOL" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_OTOOL" = x; then OTOOL=":" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:$LINENO: WARNING: using cross tools not prefixed with host triplet" >&5 $as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;} ac_tool_warned=yes ;; esac OTOOL=$ac_ct_OTOOL fi else OTOOL="$ac_cv_prog_OTOOL" fi if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}otool64", so it can be a program name with args. set dummy ${ac_tool_prefix}otool64; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if test "${ac_cv_prog_OTOOL64+set}" = set; then $as_echo_n "(cached) " >&6 else if test -n "$OTOOL64"; then ac_cv_prog_OTOOL64="$OTOOL64" # Let the user override the test. else as_save_IFS=$IFS; IFS=$PATH_SEPARATOR for as_dir in $PATH do IFS=$as_save_IFS test -z "$as_dir" && as_dir=. for ac_exec_ext in '' $ac_executable_extensions; do if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then ac_cv_prog_OTOOL64="${ac_tool_prefix}otool64" $as_echo "$as_me:$LINENO: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi OTOOL64=$ac_cv_prog_OTOOL64 if test -n "$OTOOL64"; then { $as_echo "$as_me:$LINENO: result: $OTOOL64" >&5 $as_echo "$OTOOL64" >&6; } else { $as_echo "$as_me:$LINENO: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_OTOOL64"; then ac_ct_OTOOL64=$OTOOL64 # Extract the first word of "otool64", so it can be a program name with args. set dummy otool64; ac_word=$2 { $as_echo "$as_me:$LINENO: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... 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To avoid this, we pick a random, # 256 KiB-aligned image base between 0x50000000 and 0x6FFC0000 at link # time. Moving up from 0x10000000 also allows more sbrk(2) space. archive_cmds='$CC -shared $pic_flag $libobjs $deplibs $compiler_flags ${wl}-h,$soname ${wl}--image-base,`expr ${RANDOM-$$} % 4096 / 2 \* 262144 + 1342177280` -o $lib' archive_expsym_cmds='sed "s,^,_," $export_symbols >$output_objdir/$soname.expsym~$CC -shared $pic_flag $libobjs $deplibs $compiler_flags ${wl}-h,$soname ${wl}--retain-symbols-file,$output_objdir/$soname.expsym ${wl}--image-base,`expr ${RANDOM-$$} % 4096 / 2 \* 262144 + 1342177280` -o $lib' ;; gnu* | linux* | tpf* | k*bsd*-gnu) tmp_diet=no if test "$host_os" = linux-dietlibc; then case $cc_basename in diet\ *) tmp_diet=yes;; # linux-dietlibc with static linking (!diet-dyn) esac fi if $LD --help 2>&1 | $EGREP ': supported targets:.* elf' > /dev/null \ && test "$tmp_diet" = no then tmp_addflag= tmp_sharedflag='-shared' case $cc_basename,$host_cpu in pgcc*) # Portland Group C compiler whole_archive_flag_spec='${wl}--whole-archive`for conv in $convenience\"\"; do test -n \"$conv\" && new_convenience=\"$new_convenience,$conv\"; done; $ECHO \"$new_convenience\"` ${wl}--no-whole-archive' tmp_addflag=' $pic_flag' ;; pgf77* | pgf90* | pgf95*) # Portland Group f77 and f90 compilers whole_archive_flag_spec='${wl}--whole-archive`for conv in $convenience\"\"; do test -n \"$conv\" && new_convenience=\"$new_convenience,$conv\"; done; $ECHO \"$new_convenience\"` ${wl}--no-whole-archive' tmp_addflag=' $pic_flag -Mnomain' ;; ecc*,ia64* | icc*,ia64*) # Intel C compiler on ia64 tmp_addflag=' -i_dynamic' ;; efc*,ia64* | ifort*,ia64*) # Intel Fortran compiler on ia64 tmp_addflag=' -i_dynamic -nofor_main' ;; ifc* | ifort*) # Intel Fortran compiler tmp_addflag=' -nofor_main' ;; lf95*) # Lahey Fortran 8.1 whole_archive_flag_spec= tmp_sharedflag='--shared' ;; xl[cC]*) # IBM XL C 8.0 on PPC (deal with xlf below) tmp_sharedflag='-qmkshrobj' tmp_addflag= ;; esac case `$CC -V 2>&1 | sed 5q` in *Sun\ C*) # Sun C 5.9 whole_archive_flag_spec='${wl}--whole-archive`new_convenience=; for conv in $convenience\"\"; do test -z \"$conv\" || new_convenience=\"$new_convenience,$conv\"; done; $ECHO \"$new_convenience\"` ${wl}--no-whole-archive' compiler_needs_object=yes tmp_sharedflag='-G' ;; *Sun\ F*) # Sun Fortran 8.3 tmp_sharedflag='-G' ;; esac archive_cmds='$CC '"$tmp_sharedflag""$tmp_addflag"' $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname -o $lib' if test "x$supports_anon_versioning" = xyes; then archive_expsym_cmds='echo "{ global:" > $output_objdir/$libname.ver~ cat $export_symbols | sed -e "s/\(.*\)/\1;/" >> $output_objdir/$libname.ver~ echo "local: *; };" >> $output_objdir/$libname.ver~ $CC '"$tmp_sharedflag""$tmp_addflag"' $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname ${wl}-version-script ${wl}$output_objdir/$libname.ver -o $lib' fi case $cc_basename in xlf*) # IBM XL Fortran 10.1 on PPC cannot create shared libs itself whole_archive_flag_spec='--whole-archive$convenience --no-whole-archive' hardcode_libdir_flag_spec= hardcode_libdir_flag_spec_ld='-rpath $libdir' archive_cmds='$LD -shared $libobjs $deplibs $compiler_flags -soname $soname -o $lib' if test "x$supports_anon_versioning" = xyes; then archive_expsym_cmds='echo "{ global:" > $output_objdir/$libname.ver~ cat $export_symbols | sed -e "s/\(.*\)/\1;/" >> $output_objdir/$libname.ver~ echo "local: *; };" >> $output_objdir/$libname.ver~ $LD -shared $libobjs $deplibs $compiler_flags -soname $soname -version-script $output_objdir/$libname.ver -o $lib' fi ;; esac else ld_shlibs=no fi ;; netbsd*) if echo __ELF__ | $CC -E - | $GREP __ELF__ >/dev/null; then archive_cmds='$LD -Bshareable $libobjs $deplibs $linker_flags -o $lib' wlarc= else archive_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname -o $lib' archive_expsym_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname ${wl}-retain-symbols-file $wl$export_symbols -o $lib' fi ;; solaris*) if $LD -v 2>&1 | $GREP 'BFD 2\.8' > /dev/null; then ld_shlibs=no cat <<_LT_EOF 1>&2 *** Warning: The releases 2.8.* of the GNU linker cannot reliably *** create shared libraries on Solaris systems. Therefore, libtool *** is disabling shared libraries support. We urge you to upgrade GNU *** binutils to release 2.9.1 or newer. Another option is to modify *** your PATH or compiler configuration so that the native linker is *** used, and then restart. _LT_EOF elif $LD --help 2>&1 | $GREP ': supported targets:.* elf' > /dev/null; then archive_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname -o $lib' archive_expsym_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname ${wl}-retain-symbols-file $wl$export_symbols -o $lib' else ld_shlibs=no fi ;; sysv5* | sco3.2v5* | sco5v6* | unixware* | OpenUNIX*) case `$LD -v 2>&1` in *\ [01].* | *\ 2.[0-9].* | *\ 2.1[0-5].*) ld_shlibs=no cat <<_LT_EOF 1>&2 *** Warning: Releases of the GNU linker prior to 2.16.91.0.3 can not *** reliably create shared libraries on SCO systems. Therefore, libtool *** is disabling shared libraries support. We urge you to upgrade GNU *** binutils to release 2.16.91.0.3 or newer. Another option is to modify *** your PATH or compiler configuration so that the native linker is *** used, and then restart. _LT_EOF ;; *) # For security reasons, it is highly recommended that you always # use absolute paths for naming shared libraries, and exclude the # DT_RUNPATH tag from executables and libraries. But doing so # requires that you compile everything twice, which is a pain. if $LD --help 2>&1 | $GREP ': supported targets:.* elf' > /dev/null; then hardcode_libdir_flag_spec='${wl}-rpath ${wl}$libdir' archive_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname -o $lib' archive_expsym_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname ${wl}-retain-symbols-file $wl$export_symbols -o $lib' else ld_shlibs=no fi ;; esac ;; sunos4*) archive_cmds='$LD -assert pure-text -Bshareable -o $lib $libobjs $deplibs $linker_flags' wlarc= hardcode_direct=yes hardcode_shlibpath_var=no ;; *) if $LD --help 2>&1 | $GREP ': supported targets:.* elf' > /dev/null; then archive_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname -o $lib' archive_expsym_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname ${wl}-retain-symbols-file $wl$export_symbols -o $lib' else ld_shlibs=no fi ;; esac if test "$ld_shlibs" = no; then runpath_var= hardcode_libdir_flag_spec= export_dynamic_flag_spec= whole_archive_flag_spec= fi else # PORTME fill in a description of your system's linker (not GNU ld) case $host_os in aix3*) allow_undefined_flag=unsupported always_export_symbols=yes archive_expsym_cmds='$LD -o $output_objdir/$soname $libobjs $deplibs $linker_flags -bE:$export_symbols -T512 -H512 -bM:SRE~$AR $AR_FLAGS $lib $output_objdir/$soname' # Note: this linker hardcodes the directories in LIBPATH if there # are no directories specified by -L. hardcode_minus_L=yes if test "$GCC" = yes && test -z "$lt_prog_compiler_static"; then # Neither direct hardcoding nor static linking is supported with a # broken collect2. hardcode_direct=unsupported fi ;; aix[4-9]*) if test "$host_cpu" = ia64; then # On IA64, the linker does run time linking by default, so we don't # have to do anything special. aix_use_runtimelinking=no exp_sym_flag='-Bexport' no_entry_flag="" else # If we're using GNU nm, then we don't want the "-C" option. # -C means demangle to AIX nm, but means don't demangle with GNU nm if $NM -V 2>&1 | $GREP 'GNU' > /dev/null; then export_symbols_cmds='$NM -Bpg $libobjs $convenience | awk '\''{ if (((\$ 2 == "T") || (\$ 2 == "D") || (\$ 2 == "B")) && (substr(\$ 3,1,1) != ".")) { print \$ 3 } }'\'' | sort -u > $export_symbols' else export_symbols_cmds='$NM -BCpg $libobjs $convenience | awk '\''{ if (((\$ 2 == "T") || (\$ 2 == "D") || (\$ 2 == "B")) && (substr(\$ 3,1,1) != ".")) { print \$ 3 } }'\'' | sort -u > $export_symbols' fi aix_use_runtimelinking=no # Test if we are trying to use run time linking or normal # AIX style linking. If -brtl is somewhere in LDFLAGS, we # need to do runtime linking. case $host_os in aix4.[23]|aix4.[23].*|aix[5-9]*) for ld_flag in $LDFLAGS; do if (test $ld_flag = "-brtl" || test $ld_flag = "-Wl,-brtl"); then aix_use_runtimelinking=yes break fi done ;; esac exp_sym_flag='-bexport' no_entry_flag='-bnoentry' fi # When large executables or shared objects are built, AIX ld can # have problems creating the table of contents. If linking a library # or program results in "error TOC overflow" add -mminimal-toc to # CXXFLAGS/CFLAGS for g++/gcc. In the cases where that is not # enough to fix the problem, add -Wl,-bbigtoc to LDFLAGS. archive_cmds='' hardcode_direct=yes hardcode_direct_absolute=yes hardcode_libdir_separator=':' link_all_deplibs=yes file_list_spec='${wl}-f,' if test "$GCC" = yes; then case $host_os in aix4.[012]|aix4.[012].*) # We only want to do this on AIX 4.2 and lower, the check # below for broken collect2 doesn't work under 4.3+ collect2name=`${CC} -print-prog-name=collect2` if test -f "$collect2name" && strings "$collect2name" | $GREP resolve_lib_name >/dev/null then # We have reworked collect2 : else # We have old collect2 hardcode_direct=unsupported # It fails to find uninstalled libraries when the uninstalled # path is not listed in the libpath. Setting hardcode_minus_L # to unsupported forces relinking hardcode_minus_L=yes hardcode_libdir_flag_spec='-L$libdir' hardcode_libdir_separator= fi ;; esac shared_flag='-shared' if test "$aix_use_runtimelinking" = yes; then shared_flag="$shared_flag "'${wl}-G' fi else # not using gcc if test "$host_cpu" = ia64; then # VisualAge C++, Version 5.5 for AIX 5L for IA-64, Beta 3 Release # chokes on -Wl,-G. The following line is correct: shared_flag='-G' else if test "$aix_use_runtimelinking" = yes; then shared_flag='${wl}-G' else shared_flag='${wl}-bM:SRE' fi fi fi export_dynamic_flag_spec='${wl}-bexpall' # It seems that -bexpall does not export symbols beginning with # underscore (_), so it is better to generate a list of symbols to export. always_export_symbols=yes if test "$aix_use_runtimelinking" = yes; then # Warning - without using the other runtime loading flags (-brtl), # -berok will link without error, but may produce a broken library. allow_undefined_flag='-berok' # Determine the default libpath from the value encoded in an # empty executable. cat >conftest.$ac_ext <<_ACEOF /* confdefs.h. */ _ACEOF cat confdefs.h >>conftest.$ac_ext cat >>conftest.$ac_ext <<_ACEOF /* end confdefs.h. */ int main () { ; return 0; } _ACEOF rm -f conftest.$ac_objext conftest$ac_exeext if { (ac_try="$ac_link" case "(($ac_try" in *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;; *) ac_try_echo=$ac_try;; esac eval ac_try_echo="\"\$as_me:$LINENO: $ac_try_echo\"" $as_echo "$ac_try_echo") >&5 (eval "$ac_link") 2>conftest.er1 ac_status=$? grep -v '^ *+' conftest.er1 >conftest.err rm -f conftest.er1 cat conftest.err >&5 $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); } && { test -z "$ac_c_werror_flag" || test ! -s conftest.err } && test -s conftest$ac_exeext && { test "$cross_compiling" = yes || $as_test_x conftest$ac_exeext }; then lt_aix_libpath_sed=' /Import File Strings/,/^$/ { /^0/ { s/^0 *\(.*\)$/\1/ p } }' aix_libpath=`dump -H conftest$ac_exeext 2>/dev/null | $SED -n -e "$lt_aix_libpath_sed"` # Check for a 64-bit object if we didn't find anything. if test -z "$aix_libpath"; then aix_libpath=`dump -HX64 conftest$ac_exeext 2>/dev/null | $SED -n -e "$lt_aix_libpath_sed"` fi else $as_echo "$as_me: failed program was:" >&5 sed 's/^/| /' conftest.$ac_ext >&5 fi rm -rf conftest.dSYM rm -f core conftest.err conftest.$ac_objext conftest_ipa8_conftest.oo \ conftest$ac_exeext conftest.$ac_ext if test -z "$aix_libpath"; then aix_libpath="/usr/lib:/lib"; fi hardcode_libdir_flag_spec='${wl}-blibpath:$libdir:'"$aix_libpath" archive_expsym_cmds='$CC -o $output_objdir/$soname $libobjs $deplibs '"\${wl}$no_entry_flag"' $compiler_flags `if test "x${allow_undefined_flag}" != "x"; then $ECHO "X${wl}${allow_undefined_flag}" | $Xsed; else :; fi` '"\${wl}$exp_sym_flag:\$export_symbols $shared_flag" else if test "$host_cpu" = ia64; then hardcode_libdir_flag_spec='${wl}-R $libdir:/usr/lib:/lib' allow_undefined_flag="-z nodefs" archive_expsym_cmds="\$CC $shared_flag"' -o $output_objdir/$soname $libobjs $deplibs '"\${wl}$no_entry_flag"' $compiler_flags ${wl}${allow_undefined_flag} '"\${wl}$exp_sym_flag:\$export_symbols" else # Determine the default libpath from the value encoded in an # empty executable. cat >conftest.$ac_ext <<_ACEOF /* confdefs.h. */ _ACEOF cat confdefs.h >>conftest.$ac_ext cat >>conftest.$ac_ext <<_ACEOF /* end confdefs.h. */ int main () { ; return 0; } _ACEOF rm -f conftest.$ac_objext conftest$ac_exeext if { (ac_try="$ac_link" case "(($ac_try" in *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;; *) ac_try_echo=$ac_try;; esac eval ac_try_echo="\"\$as_me:$LINENO: $ac_try_echo\"" $as_echo "$ac_try_echo") >&5 (eval "$ac_link") 2>conftest.er1 ac_status=$? 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Future versions do this automatically, but an explicit c++rt0.o # does not break anything, and helps significantly (at the cost of a little # extra space). freebsd2.2*) archive_cmds='$LD -Bshareable -o $lib $libobjs $deplibs $linker_flags /usr/lib/c++rt0.o' hardcode_libdir_flag_spec='-R$libdir' hardcode_direct=yes hardcode_shlibpath_var=no ;; # Unfortunately, older versions of FreeBSD 2 do not have this feature. freebsd2*) archive_cmds='$LD -Bshareable -o $lib $libobjs $deplibs $linker_flags' hardcode_direct=yes hardcode_minus_L=yes hardcode_shlibpath_var=no ;; # FreeBSD 3 and greater uses gcc -shared to do shared libraries. freebsd* | dragonfly*) archive_cmds='$CC -shared -o $lib $libobjs $deplibs $compiler_flags' hardcode_libdir_flag_spec='-R$libdir' hardcode_direct=yes hardcode_shlibpath_var=no ;; hpux9*) if test "$GCC" = yes; then archive_cmds='$RM $output_objdir/$soname~$CC -shared -fPIC ${wl}+b ${wl}$install_libdir -o $output_objdir/$soname $libobjs $deplibs $compiler_flags~test $output_objdir/$soname = $lib || mv $output_objdir/$soname $lib' else archive_cmds='$RM $output_objdir/$soname~$LD -b +b $install_libdir -o $output_objdir/$soname $libobjs $deplibs $linker_flags~test $output_objdir/$soname = $lib || mv $output_objdir/$soname $lib' fi hardcode_libdir_flag_spec='${wl}+b ${wl}$libdir' hardcode_libdir_separator=: hardcode_direct=yes # hardcode_minus_L: Not really in the search PATH, # but as the default location of the library. hardcode_minus_L=yes export_dynamic_flag_spec='${wl}-E' ;; hpux10*) if test "$GCC" = yes -a "$with_gnu_ld" = no; then archive_cmds='$CC -shared -fPIC ${wl}+h ${wl}$soname ${wl}+b ${wl}$install_libdir -o $lib $libobjs $deplibs $compiler_flags' else archive_cmds='$LD -b +h $soname +b $install_libdir -o $lib $libobjs $deplibs $linker_flags' fi if test "$with_gnu_ld" = no; then hardcode_libdir_flag_spec='${wl}+b ${wl}$libdir' hardcode_libdir_flag_spec_ld='+b $libdir' hardcode_libdir_separator=: hardcode_direct=yes hardcode_direct_absolute=yes export_dynamic_flag_spec='${wl}-E' # hardcode_minus_L: Not really in the search PATH, # but as the default location of the library. hardcode_minus_L=yes fi ;; hpux11*) if test "$GCC" = yes -a "$with_gnu_ld" = no; then case $host_cpu in hppa*64*) archive_cmds='$CC -shared ${wl}+h ${wl}$soname -o $lib $libobjs $deplibs $compiler_flags' ;; ia64*) archive_cmds='$CC -shared -fPIC ${wl}+h ${wl}$soname ${wl}+nodefaultrpath -o $lib $libobjs $deplibs $compiler_flags' ;; *) archive_cmds='$CC -shared -fPIC ${wl}+h ${wl}$soname ${wl}+b ${wl}$install_libdir -o $lib $libobjs $deplibs $compiler_flags' ;; esac else case $host_cpu in hppa*64*) archive_cmds='$CC -b ${wl}+h ${wl}$soname -o $lib $libobjs $deplibs $compiler_flags' ;; ia64*) archive_cmds='$CC -b ${wl}+h ${wl}$soname ${wl}+nodefaultrpath -o $lib $libobjs $deplibs $compiler_flags' ;; *) archive_cmds='$CC -b ${wl}+h ${wl}$soname ${wl}+b ${wl}$install_libdir -o $lib $libobjs $deplibs $compiler_flags' ;; esac fi if test "$with_gnu_ld" = no; then hardcode_libdir_flag_spec='${wl}+b ${wl}$libdir' hardcode_libdir_separator=: case $host_cpu in hppa*64*|ia64*) hardcode_direct=no hardcode_shlibpath_var=no ;; *) hardcode_direct=yes hardcode_direct_absolute=yes export_dynamic_flag_spec='${wl}-E' # hardcode_minus_L: Not really in the search PATH, # but as the default location of the library. hardcode_minus_L=yes ;; esac fi ;; irix5* | irix6* | nonstopux*) if test "$GCC" = yes; then archive_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname ${wl}$soname `test -n "$verstring" && $ECHO "X${wl}-set_version ${wl}$verstring" | $Xsed` ${wl}-update_registry ${wl}${output_objdir}/so_locations -o $lib' # Try to use the -exported_symbol ld option, if it does not # work, assume that -exports_file does not work either and # implicitly export all symbols. save_LDFLAGS="$LDFLAGS" LDFLAGS="$LDFLAGS -shared ${wl}-exported_symbol ${wl}foo ${wl}-update_registry ${wl}/dev/null" cat >conftest.$ac_ext <<_ACEOF int foo(void) {} _ACEOF rm -f conftest.$ac_objext conftest$ac_exeext if { (ac_try="$ac_link" case "(($ac_try" in *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;; *) ac_try_echo=$ac_try;; esac eval ac_try_echo="\"\$as_me:$LINENO: $ac_try_echo\"" $as_echo "$ac_try_echo") >&5 (eval "$ac_link") 2>conftest.er1 ac_status=$? grep -v '^ *+' conftest.er1 >conftest.err rm -f conftest.er1 cat conftest.err >&5 $as_echo "$as_me:$LINENO: \$? = $ac_status" >&5 (exit $ac_status); } && { test -z "$ac_c_werror_flag" || test ! -s conftest.err } && test -s conftest$ac_exeext && { test "$cross_compiling" = yes || $as_test_x conftest$ac_exeext }; then archive_expsym_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname ${wl}$soname `test -n "$verstring" && $ECHO "X${wl}-set_version ${wl}$verstring" | $Xsed` ${wl}-update_registry ${wl}${output_objdir}/so_locations ${wl}-exports_file ${wl}$export_symbols -o $lib' else $as_echo "$as_me: failed program was:" >&5 sed 's/^/| /' conftest.$ac_ext >&5 fi rm -rf conftest.dSYM rm -f core conftest.err conftest.$ac_objext conftest_ipa8_conftest.oo \ conftest$ac_exeext conftest.$ac_ext LDFLAGS="$save_LDFLAGS" else archive_cmds='$CC -shared $libobjs $deplibs $compiler_flags -soname $soname `test -n "$verstring" && $ECHO "X-set_version $verstring" | $Xsed` -update_registry ${output_objdir}/so_locations -o $lib' archive_expsym_cmds='$CC -shared $libobjs $deplibs $compiler_flags -soname $soname `test -n "$verstring" && $ECHO "X-set_version $verstring" | $Xsed` -update_registry ${output_objdir}/so_locations -exports_file $export_symbols -o $lib' fi archive_cmds_need_lc='no' hardcode_libdir_flag_spec='${wl}-rpath ${wl}$libdir' hardcode_libdir_separator=: inherit_rpath=yes link_all_deplibs=yes ;; netbsd*) if echo __ELF__ | $CC -E - | $GREP __ELF__ >/dev/null; then archive_cmds='$LD -Bshareable -o $lib $libobjs $deplibs $linker_flags' # a.out else archive_cmds='$LD -shared -o $lib $libobjs $deplibs $linker_flags' # ELF fi hardcode_libdir_flag_spec='-R$libdir' hardcode_direct=yes hardcode_shlibpath_var=no ;; newsos6) archive_cmds='$LD -G -h $soname -o $lib $libobjs $deplibs $linker_flags' hardcode_direct=yes hardcode_libdir_flag_spec='${wl}-rpath ${wl}$libdir' hardcode_libdir_separator=: hardcode_shlibpath_var=no ;; *nto* | *qnx*) ;; openbsd*) if test -f /usr/libexec/ld.so; then hardcode_direct=yes hardcode_shlibpath_var=no hardcode_direct_absolute=yes if test -z "`echo __ELF__ | $CC -E - | $GREP __ELF__`" || test "$host_os-$host_cpu" = "openbsd2.8-powerpc"; then archive_cmds='$CC -shared $pic_flag -o $lib $libobjs $deplibs $compiler_flags' archive_expsym_cmds='$CC -shared $pic_flag -o $lib $libobjs $deplibs $compiler_flags ${wl}-retain-symbols-file,$export_symbols' hardcode_libdir_flag_spec='${wl}-rpath,$libdir' export_dynamic_flag_spec='${wl}-E' else case $host_os in openbsd[01].* | openbsd2.[0-7] | openbsd2.[0-7].*) archive_cmds='$LD -Bshareable -o $lib $libobjs $deplibs $linker_flags' hardcode_libdir_flag_spec='-R$libdir' ;; *) archive_cmds='$CC -shared $pic_flag -o $lib $libobjs $deplibs $compiler_flags' hardcode_libdir_flag_spec='${wl}-rpath,$libdir' ;; esac fi else ld_shlibs=no fi ;; os2*) hardcode_libdir_flag_spec='-L$libdir' hardcode_minus_L=yes allow_undefined_flag=unsupported archive_cmds='$ECHO "LIBRARY $libname INITINSTANCE" > $output_objdir/$libname.def~$ECHO "DESCRIPTION \"$libname\"" >> $output_objdir/$libname.def~$ECHO DATA >> $output_objdir/$libname.def~$ECHO " SINGLE NONSHARED" >> $output_objdir/$libname.def~$ECHO EXPORTS >> $output_objdir/$libname.def~emxexp $libobjs >> $output_objdir/$libname.def~$CC -Zdll -Zcrtdll -o $lib $libobjs $deplibs $compiler_flags $output_objdir/$libname.def' old_archive_from_new_cmds='emximp -o $output_objdir/$libname.a $output_objdir/$libname.def' ;; osf3*) if test "$GCC" = yes; then allow_undefined_flag=' ${wl}-expect_unresolved ${wl}\*' archive_cmds='$CC -shared${allow_undefined_flag} $libobjs $deplibs $compiler_flags ${wl}-soname ${wl}$soname `test -n "$verstring" && $ECHO "X${wl}-set_version ${wl}$verstring" | $Xsed` ${wl}-update_registry ${wl}${output_objdir}/so_locations -o $lib' else allow_undefined_flag=' -expect_unresolved \*' archive_cmds='$CC -shared${allow_undefined_flag} $libobjs $deplibs $compiler_flags -soname $soname `test -n "$verstring" && $ECHO "X-set_version $verstring" | $Xsed` -update_registry ${output_objdir}/so_locations -o $lib' fi archive_cmds_need_lc='no' hardcode_libdir_flag_spec='${wl}-rpath ${wl}$libdir' hardcode_libdir_separator=: ;; 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solaris*) no_undefined_flag=' -z defs' if test "$GCC" = yes; then wlarc='${wl}' archive_cmds='$CC -shared ${wl}-z ${wl}text ${wl}-h ${wl}$soname -o $lib $libobjs $deplibs $compiler_flags' archive_expsym_cmds='echo "{ global:" > $lib.exp~cat $export_symbols | $SED -e "s/\(.*\)/\1;/" >> $lib.exp~echo "local: *; };" >> $lib.exp~ $CC -shared ${wl}-z ${wl}text ${wl}-M ${wl}$lib.exp ${wl}-h ${wl}$soname -o $lib $libobjs $deplibs $compiler_flags~$RM $lib.exp' else case `$CC -V 2>&1` in *"Compilers 5.0"*) wlarc='' archive_cmds='$LD -G${allow_undefined_flag} -h $soname -o $lib $libobjs $deplibs $linker_flags' archive_expsym_cmds='echo "{ global:" > $lib.exp~cat $export_symbols | $SED -e "s/\(.*\)/\1;/" >> $lib.exp~echo "local: *; };" >> $lib.exp~ $LD -G${allow_undefined_flag} -M $lib.exp -h $soname -o $lib $libobjs $deplibs $linker_flags~$RM $lib.exp' ;; *) wlarc='${wl}' archive_cmds='$CC -G${allow_undefined_flag} -h $soname -o $lib $libobjs $deplibs $compiler_flags' archive_expsym_cmds='echo "{ global:" > $lib.exp~cat $export_symbols | $SED -e "s/\(.*\)/\1;/" >> $lib.exp~echo "local: *; };" >> $lib.exp~ $CC -G${allow_undefined_flag} -M $lib.exp -h $soname -o $lib $libobjs $deplibs $compiler_flags~$RM $lib.exp' ;; esac fi hardcode_libdir_flag_spec='-R$libdir' hardcode_shlibpath_var=no case $host_os in solaris2.[0-5] | solaris2.[0-5].*) ;; *) # The compiler driver will combine and reorder linker options, # but understands `-z linker_flag'. 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But MiNT is downward compatible to TOS, so this should # be no problem. atarist[e]:*MiNT:*:* | atarist[e]:*mint:*:* | atarist[e]:*TOS:*:*) echo m68k-atari-mint${UNAME_RELEASE} exit ;; atari*:*MiNT:*:* | atari*:*mint:*:* | atarist[e]:*TOS:*:*) echo m68k-atari-mint${UNAME_RELEASE} exit ;; *falcon*:*MiNT:*:* | *falcon*:*mint:*:* | *falcon*:*TOS:*:*) echo m68k-atari-mint${UNAME_RELEASE} exit ;; milan*:*MiNT:*:* | milan*:*mint:*:* | *milan*:*TOS:*:*) echo m68k-milan-mint${UNAME_RELEASE} exit ;; hades*:*MiNT:*:* | hades*:*mint:*:* | *hades*:*TOS:*:*) echo m68k-hades-mint${UNAME_RELEASE} exit ;; *:*MiNT:*:* | *:*mint:*:* | *:*TOS:*:*) echo m68k-unknown-mint${UNAME_RELEASE} exit ;; m68k:machten:*:*) echo m68k-apple-machten${UNAME_RELEASE} exit ;; powerpc:machten:*:*) echo powerpc-apple-machten${UNAME_RELEASE} exit ;; RISC*:Mach:*:*) echo mips-dec-mach_bsd4.3 exit ;; RISC*:ULTRIX:*:*) echo mips-dec-ultrix${UNAME_RELEASE} exit ;; VAX*:ULTRIX*:*:*) echo vax-dec-ultrix${UNAME_RELEASE} exit ;; 2020:CLIX:*:* | 2430:CLIX:*:*) echo clipper-intergraph-clix${UNAME_RELEASE} exit ;; mips:*:*:UMIPS | mips:*:*:RISCos) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #ifdef __cplusplus #include /* for printf() prototype */ int main (int argc, char *argv[]) { #else int main (argc, argv) int argc; char *argv[]; { #endif #if defined (host_mips) && defined (MIPSEB) #if defined (SYSTYPE_SYSV) printf ("mips-mips-riscos%ssysv\n", argv[1]); exit (0); #endif #if defined (SYSTYPE_SVR4) printf ("mips-mips-riscos%ssvr4\n", argv[1]); exit (0); #endif #if defined (SYSTYPE_BSD43) || defined(SYSTYPE_BSD) printf ("mips-mips-riscos%sbsd\n", argv[1]); exit (0); #endif #endif exit (-1); } EOF $CC_FOR_BUILD -o $dummy $dummy.c && dummyarg=`echo "${UNAME_RELEASE}" | sed -n 's/\([0-9]*\).*/\1/p'` && SYSTEM_NAME=`$dummy $dummyarg` && { echo "$SYSTEM_NAME"; exit; } echo mips-mips-riscos${UNAME_RELEASE} exit ;; Motorola:PowerMAX_OS:*:*) echo powerpc-motorola-powermax exit ;; Motorola:*:4.3:PL8-*) echo powerpc-harris-powermax exit ;; Night_Hawk:*:*:PowerMAX_OS | Synergy:PowerMAX_OS:*:*) echo powerpc-harris-powermax exit ;; Night_Hawk:Power_UNIX:*:*) echo powerpc-harris-powerunix exit ;; m88k:CX/UX:7*:*) echo m88k-harris-cxux7 exit ;; m88k:*:4*:R4*) echo m88k-motorola-sysv4 exit ;; m88k:*:3*:R3*) echo m88k-motorola-sysv3 exit ;; AViiON:dgux:*:*) # DG/UX returns AViiON for all architectures UNAME_PROCESSOR=`/usr/bin/uname -p` if [ $UNAME_PROCESSOR = mc88100 ] || [ $UNAME_PROCESSOR = mc88110 ] then if [ ${TARGET_BINARY_INTERFACE}x = m88kdguxelfx ] || \ [ ${TARGET_BINARY_INTERFACE}x = x ] then echo m88k-dg-dgux${UNAME_RELEASE} else echo m88k-dg-dguxbcs${UNAME_RELEASE} fi else echo i586-dg-dgux${UNAME_RELEASE} fi exit ;; M88*:DolphinOS:*:*) # DolphinOS (SVR3) echo m88k-dolphin-sysv3 exit ;; M88*:*:R3*:*) # Delta 88k system running SVR3 echo m88k-motorola-sysv3 exit ;; XD88*:*:*:*) # Tektronix XD88 system running UTekV (SVR3) echo m88k-tektronix-sysv3 exit ;; Tek43[0-9][0-9]:UTek:*:*) # Tektronix 4300 system running UTek (BSD) echo m68k-tektronix-bsd exit ;; *:IRIX*:*:*) echo mips-sgi-irix`echo ${UNAME_RELEASE}|sed -e 's/-/_/g'` exit ;; ????????:AIX?:[12].1:2) # AIX 2.2.1 or AIX 2.1.1 is RT/PC AIX. echo romp-ibm-aix # uname -m gives an 8 hex-code CPU id exit ;; # Note that: echo "'`uname -s`'" gives 'AIX ' i*86:AIX:*:*) echo i386-ibm-aix exit ;; ia64:AIX:*:*) if [ -x /usr/bin/oslevel ] ; then IBM_REV=`/usr/bin/oslevel` else IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE} fi echo ${UNAME_MACHINE}-ibm-aix${IBM_REV} exit ;; *:AIX:2:3) if grep bos325 /usr/include/stdio.h >/dev/null 2>&1; then eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #include main() { if (!__power_pc()) exit(1); puts("powerpc-ibm-aix3.2.5"); exit(0); } EOF if $CC_FOR_BUILD -o $dummy $dummy.c && SYSTEM_NAME=`$dummy` then echo "$SYSTEM_NAME" else echo rs6000-ibm-aix3.2.5 fi elif grep bos324 /usr/include/stdio.h >/dev/null 2>&1; then echo rs6000-ibm-aix3.2.4 else echo rs6000-ibm-aix3.2 fi exit ;; *:AIX:*:[456]) IBM_CPU_ID=`/usr/sbin/lsdev -C -c processor -S available | sed 1q | awk '{ print $1 }'` if /usr/sbin/lsattr -El ${IBM_CPU_ID} | grep ' POWER' >/dev/null 2>&1; then IBM_ARCH=rs6000 else IBM_ARCH=powerpc fi if [ -x /usr/bin/oslevel ] ; then IBM_REV=`/usr/bin/oslevel` else IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE} fi echo ${IBM_ARCH}-ibm-aix${IBM_REV} exit ;; *:AIX:*:*) echo rs6000-ibm-aix exit ;; ibmrt:4.4BSD:*|romp-ibm:BSD:*) echo romp-ibm-bsd4.4 exit ;; ibmrt:*BSD:*|romp-ibm:BSD:*) # covers RT/PC BSD and echo romp-ibm-bsd${UNAME_RELEASE} # 4.3 with uname added to exit ;; # report: romp-ibm BSD 4.3 *:BOSX:*:*) echo rs6000-bull-bosx exit ;; DPX/2?00:B.O.S.:*:*) echo m68k-bull-sysv3 exit ;; 9000/[34]??:4.3bsd:1.*:*) echo m68k-hp-bsd exit ;; hp300:4.4BSD:*:* | 9000/[34]??:4.3bsd:2.*:*) echo m68k-hp-bsd4.4 exit ;; 9000/[34678]??:HP-UX:*:*) HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'` case "${UNAME_MACHINE}" in 9000/31? ) HP_ARCH=m68000 ;; 9000/[34]?? ) HP_ARCH=m68k ;; 9000/[678][0-9][0-9]) if [ -x /usr/bin/getconf ]; then sc_cpu_version=`/usr/bin/getconf SC_CPU_VERSION 2>/dev/null` sc_kernel_bits=`/usr/bin/getconf SC_KERNEL_BITS 2>/dev/null` case "${sc_cpu_version}" in 523) HP_ARCH="hppa1.0" ;; # CPU_PA_RISC1_0 528) HP_ARCH="hppa1.1" ;; # CPU_PA_RISC1_1 532) # CPU_PA_RISC2_0 case "${sc_kernel_bits}" in 32) HP_ARCH="hppa2.0n" ;; 64) HP_ARCH="hppa2.0w" ;; '') HP_ARCH="hppa2.0" ;; # HP-UX 10.20 esac ;; esac fi if [ "${HP_ARCH}" = "" ]; then eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #define _HPUX_SOURCE #include #include int main () { #if defined(_SC_KERNEL_BITS) long bits = sysconf(_SC_KERNEL_BITS); #endif long cpu = sysconf (_SC_CPU_VERSION); switch (cpu) { case CPU_PA_RISC1_0: puts ("hppa1.0"); break; case CPU_PA_RISC1_1: puts ("hppa1.1"); break; case CPU_PA_RISC2_0: #if defined(_SC_KERNEL_BITS) switch (bits) { case 64: puts ("hppa2.0w"); break; case 32: puts ("hppa2.0n"); break; default: puts ("hppa2.0"); break; } break; #else /* !defined(_SC_KERNEL_BITS) */ puts ("hppa2.0"); break; #endif default: puts ("hppa1.0"); break; } exit (0); } EOF (CCOPTS= $CC_FOR_BUILD -o $dummy $dummy.c 2>/dev/null) && HP_ARCH=`$dummy` test -z "$HP_ARCH" && HP_ARCH=hppa fi ;; esac if [ ${HP_ARCH} = "hppa2.0w" ] then eval $set_cc_for_build # hppa2.0w-hp-hpux* has a 64-bit kernel and a compiler generating # 32-bit code. hppa64-hp-hpux* has the same kernel and a compiler # generating 64-bit code. GNU and HP use different nomenclature: # # $ CC_FOR_BUILD=cc ./config.guess # => hppa2.0w-hp-hpux11.23 # $ CC_FOR_BUILD="cc +DA2.0w" ./config.guess # => hppa64-hp-hpux11.23 if echo __LP64__ | (CCOPTS= $CC_FOR_BUILD -E - 2>/dev/null) | grep __LP64__ >/dev/null then HP_ARCH="hppa2.0w" else HP_ARCH="hppa64" fi fi echo ${HP_ARCH}-hp-hpux${HPUX_REV} exit ;; ia64:HP-UX:*:*) HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'` echo ia64-hp-hpux${HPUX_REV} exit ;; 3050*:HI-UX:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #include int main () { long cpu = sysconf (_SC_CPU_VERSION); /* The order matters, because CPU_IS_HP_MC68K erroneously returns true for CPU_PA_RISC1_0. CPU_IS_PA_RISC returns correct results, however. */ if (CPU_IS_PA_RISC (cpu)) { switch (cpu) { case CPU_PA_RISC1_0: puts ("hppa1.0-hitachi-hiuxwe2"); break; case CPU_PA_RISC1_1: puts ("hppa1.1-hitachi-hiuxwe2"); break; case CPU_PA_RISC2_0: puts ("hppa2.0-hitachi-hiuxwe2"); break; default: puts ("hppa-hitachi-hiuxwe2"); break; } } else if (CPU_IS_HP_MC68K (cpu)) puts ("m68k-hitachi-hiuxwe2"); else puts ("unknown-hitachi-hiuxwe2"); exit (0); } EOF $CC_FOR_BUILD -o $dummy $dummy.c && SYSTEM_NAME=`$dummy` && { echo "$SYSTEM_NAME"; exit; } echo unknown-hitachi-hiuxwe2 exit ;; 9000/7??:4.3bsd:*:* | 9000/8?[79]:4.3bsd:*:* ) echo hppa1.1-hp-bsd exit ;; 9000/8??:4.3bsd:*:*) echo hppa1.0-hp-bsd exit ;; *9??*:MPE/iX:*:* | *3000*:MPE/iX:*:*) echo hppa1.0-hp-mpeix exit ;; hp7??:OSF1:*:* | hp8?[79]:OSF1:*:* ) echo hppa1.1-hp-osf exit ;; hp8??:OSF1:*:*) echo hppa1.0-hp-osf exit ;; i*86:OSF1:*:*) if [ -x /usr/sbin/sysversion ] ; then echo ${UNAME_MACHINE}-unknown-osf1mk else echo ${UNAME_MACHINE}-unknown-osf1 fi exit ;; parisc*:Lites*:*:*) echo hppa1.1-hp-lites exit ;; C1*:ConvexOS:*:* | convex:ConvexOS:C1*:*) echo c1-convex-bsd exit ;; C2*:ConvexOS:*:* | convex:ConvexOS:C2*:*) if getsysinfo -f scalar_acc then echo c32-convex-bsd else echo c2-convex-bsd fi exit ;; C34*:ConvexOS:*:* | convex:ConvexOS:C34*:*) echo c34-convex-bsd exit ;; C38*:ConvexOS:*:* | convex:ConvexOS:C38*:*) echo c38-convex-bsd exit ;; C4*:ConvexOS:*:* | convex:ConvexOS:C4*:*) echo c4-convex-bsd exit ;; CRAY*Y-MP:*:*:*) echo ymp-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; CRAY*[A-Z]90:*:*:*) echo ${UNAME_MACHINE}-cray-unicos${UNAME_RELEASE} \ | sed -e 's/CRAY.*\([A-Z]90\)/\1/' \ -e y/ABCDEFGHIJKLMNOPQRSTUVWXYZ/abcdefghijklmnopqrstuvwxyz/ \ -e 's/\.[^.]*$/.X/' exit ;; CRAY*TS:*:*:*) echo t90-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; CRAY*T3E:*:*:*) echo alphaev5-cray-unicosmk${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; CRAY*SV1:*:*:*) echo sv1-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; *:UNICOS/mp:*:*) echo craynv-cray-unicosmp${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/' exit ;; F30[01]:UNIX_System_V:*:* | F700:UNIX_System_V:*:*) FUJITSU_PROC=`uname -m | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz'` FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'` FUJITSU_REL=`echo ${UNAME_RELEASE} | sed -e 's/ /_/'` echo "${FUJITSU_PROC}-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}" exit ;; 5000:UNIX_System_V:4.*:*) FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'` FUJITSU_REL=`echo ${UNAME_RELEASE} | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/ /_/'` echo "sparc-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}" exit ;; i*86:BSD/386:*:* | i*86:BSD/OS:*:* | *:Ascend\ Embedded/OS:*:*) echo ${UNAME_MACHINE}-pc-bsdi${UNAME_RELEASE} exit ;; sparc*:BSD/OS:*:*) echo sparc-unknown-bsdi${UNAME_RELEASE} exit ;; *:BSD/OS:*:*) echo ${UNAME_MACHINE}-unknown-bsdi${UNAME_RELEASE} exit ;; *:FreeBSD:*:*) case ${UNAME_MACHINE} in pc98) echo i386-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; amd64) echo x86_64-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; *) echo ${UNAME_MACHINE}-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;; esac exit ;; i*:CYGWIN*:*) echo ${UNAME_MACHINE}-pc-cygwin exit ;; *:MINGW*:*) echo ${UNAME_MACHINE}-pc-mingw32 exit ;; i*:windows32*:*) # uname -m includes "-pc" on this system. echo ${UNAME_MACHINE}-mingw32 exit ;; i*:PW*:*) echo ${UNAME_MACHINE}-pc-pw32 exit ;; *:Interix*:[3456]*) case ${UNAME_MACHINE} in x86) echo i586-pc-interix${UNAME_RELEASE} exit ;; EM64T | authenticamd | genuineintel) echo x86_64-unknown-interix${UNAME_RELEASE} exit ;; IA64) echo ia64-unknown-interix${UNAME_RELEASE} exit ;; esac ;; [345]86:Windows_95:* | [345]86:Windows_98:* | [345]86:Windows_NT:*) echo i${UNAME_MACHINE}-pc-mks exit ;; i*:Windows_NT*:* | Pentium*:Windows_NT*:*) # How do we know it's Interix rather than the generic POSIX subsystem? # It also conflicts with pre-2.0 versions of AT&T UWIN. Should we # UNAME_MACHINE based on the output of uname instead of i386? echo i586-pc-interix exit ;; i*:UWIN*:*) echo ${UNAME_MACHINE}-pc-uwin exit ;; amd64:CYGWIN*:*:* | x86_64:CYGWIN*:*:*) echo x86_64-unknown-cygwin exit ;; p*:CYGWIN*:*) echo powerpcle-unknown-cygwin exit ;; prep*:SunOS:5.*:*) echo powerpcle-unknown-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; *:GNU:*:*) # the GNU system echo `echo ${UNAME_MACHINE}|sed -e 's,[-/].*$,,'`-unknown-gnu`echo ${UNAME_RELEASE}|sed -e 's,/.*$,,'` exit ;; *:GNU/*:*:*) # other systems with GNU libc and userland echo ${UNAME_MACHINE}-unknown-`echo ${UNAME_SYSTEM} | sed 's,^[^/]*/,,' | tr '[A-Z]' '[a-z]'``echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'`-gnu exit ;; i*86:Minix:*:*) echo ${UNAME_MACHINE}-pc-minix exit ;; arm*:Linux:*:*) eval $set_cc_for_build if echo __ARM_EABI__ | $CC_FOR_BUILD -E - 2>/dev/null \ | grep -q __ARM_EABI__ then echo ${UNAME_MACHINE}-unknown-linux-gnu else echo ${UNAME_MACHINE}-unknown-linux-gnueabi fi exit ;; avr32*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; cris:Linux:*:*) echo cris-axis-linux-gnu exit ;; crisv32:Linux:*:*) echo crisv32-axis-linux-gnu exit ;; frv:Linux:*:*) echo frv-unknown-linux-gnu exit ;; ia64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; m32r*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; m68*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; mips:Linux:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #undef CPU #undef mips #undef mipsel #if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL) CPU=mipsel #else #if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB) CPU=mips #else CPU= #endif #endif EOF eval "`$CC_FOR_BUILD -E $dummy.c 2>/dev/null | sed -n ' /^CPU/{ s: ::g p }'`" test x"${CPU}" != x && { echo "${CPU}-unknown-linux-gnu"; exit; } ;; mips64:Linux:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #undef CPU #undef mips64 #undef mips64el #if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL) CPU=mips64el #else #if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB) CPU=mips64 #else CPU= #endif #endif EOF eval "`$CC_FOR_BUILD -E $dummy.c 2>/dev/null | sed -n ' /^CPU/{ s: ::g p }'`" test x"${CPU}" != x && { echo "${CPU}-unknown-linux-gnu"; exit; } ;; or32:Linux:*:*) echo or32-unknown-linux-gnu exit ;; ppc:Linux:*:*) echo powerpc-unknown-linux-gnu exit ;; ppc64:Linux:*:*) echo powerpc64-unknown-linux-gnu exit ;; alpha:Linux:*:*) case `sed -n '/^cpu model/s/^.*: \(.*\)/\1/p' < /proc/cpuinfo` in EV5) UNAME_MACHINE=alphaev5 ;; EV56) UNAME_MACHINE=alphaev56 ;; PCA56) UNAME_MACHINE=alphapca56 ;; PCA57) UNAME_MACHINE=alphapca56 ;; EV6) UNAME_MACHINE=alphaev6 ;; EV67) UNAME_MACHINE=alphaev67 ;; EV68*) UNAME_MACHINE=alphaev68 ;; esac objdump --private-headers /bin/sh | grep ld.so.1 >/dev/null if test "$?" = 0 ; then LIBC="libc1" ; else LIBC="" ; fi echo ${UNAME_MACHINE}-unknown-linux-gnu${LIBC} exit ;; padre:Linux:*:*) echo sparc-unknown-linux-gnu exit ;; parisc:Linux:*:* | hppa:Linux:*:*) # Look for CPU level case `grep '^cpu[^a-z]*:' /proc/cpuinfo 2>/dev/null | cut -d' ' -f2` in PA7*) echo hppa1.1-unknown-linux-gnu ;; PA8*) echo hppa2.0-unknown-linux-gnu ;; *) echo hppa-unknown-linux-gnu ;; esac exit ;; parisc64:Linux:*:* | hppa64:Linux:*:*) echo hppa64-unknown-linux-gnu exit ;; s390:Linux:*:* | s390x:Linux:*:*) echo ${UNAME_MACHINE}-ibm-linux exit ;; sh64*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; sh*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; sparc:Linux:*:* | sparc64:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; vax:Linux:*:*) echo ${UNAME_MACHINE}-dec-linux-gnu exit ;; x86_64:Linux:*:*) echo x86_64-unknown-linux-gnu exit ;; xtensa*:Linux:*:*) echo ${UNAME_MACHINE}-unknown-linux-gnu exit ;; i*86:Linux:*:*) # The BFD linker knows what the default object file format is, so # first see if it will tell us. cd to the root directory to prevent # problems with other programs or directories called `ld' in the path. # Set LC_ALL=C to ensure ld outputs messages in English. ld_supported_targets=`cd /; LC_ALL=C ld --help 2>&1 \ | sed -ne '/supported targets:/!d s/[ ][ ]*/ /g s/.*supported targets: *// s/ .*// p'` case "$ld_supported_targets" in elf32-i386) TENTATIVE="${UNAME_MACHINE}-pc-linux-gnu" ;; a.out-i386-linux) echo "${UNAME_MACHINE}-pc-linux-gnuaout" exit ;; 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shouldn't enum..by_name[] and enum..by_number[] in the generated-code be static?? -------------------- --- NEEDED TESTS --- -------------------- - test: - service method lookups - out-of-order fields in messages (ie if the number isn't ascending) - gaps in numbers: check that the number of ranges is correct - default values - message unpack alloc failures when allocating new slab - message unpack alloc failures when allocating unknown field buffers - packed message corruption. - meta-todo: get a list of all the unpack errors together to check off - run gcov --------------------- --- DOCUMENTATION --- --------------------- Document: - services - check over documentation again -------------------------- --- LOW PRIORITY STUFF --- -------------------------- - support Group (whatever it is) - proper support for extensions - slot for ranges in descriptor - extends is implemented as c-style function whose name is built from the package, the base message type-name and the member. which takes the base message and returns the value, if it is found in "unknown_values". boolean package__extension_member_name__get(Message *message, type *out); void package__extension_member_name__set_raw(type in, ProtobufCUnknownValue *to_init); ------------------------------------ --- EXTREMELY LOW PRIORITY STUFF --- ------------------------------------ - stop using qsort in the code generator: find some c++ish way to do it ---------------------------------------------- --- ISSUES WE ARE PROBABLY GOING TO IGNORE --- ---------------------------------------------- - strings may not contain NULs ------------------------- --- IDEAS TO CONSIDER --- ------------------------- - optimization: structures without repeated members could skip the ScannedMember phase - optimization: a way to ignore unknown-fields when unpacking - optimization: certain functions are not well setup for WORDSIZE==64; especially the int64 routines are inefficient that way. 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(for SysV at least) may be exceeded. .NOEXPORT: protobuf-c-0.15/src/test/test-generated-code2.c0000644000175000017500000014754711536220130016272 00000000000000#include #include #include #include "generated-code/test-full.pb-c.h" #include "generated-code/test-full-cxx-output.inc" #define TEST_ENUM_SMALL_TYPE_NAME Foo__TestEnumSmall #define TEST_ENUM_SMALL(shortname) FOO__TEST_ENUM_SMALL__##shortname #define TEST_ENUM_TYPE_NAME Foo__TestEnum #include "common-test-arrays.h" #define N_ELEMENTS(arr) (sizeof(arr)/sizeof((arr)[0])) /* ==== helper functions ==== */ static protobuf_c_boolean are_bytes_equal (unsigned actual_len, const uint8_t *actual_data, unsigned expected_len, const uint8_t *expected_data) { if (actual_len != expected_len) return 0; return memcmp (actual_data, expected_data, actual_len) == 0; } static void dump_bytes_stderr (size_t len, const uint8_t *data) { size_t i; for (i = 0; i < len; i++) fprintf(stderr," %02x", data[i]); fprintf(stderr,"\n"); } static void test_versus_static_array(unsigned actual_len, const uint8_t *actual_data, unsigned expected_len, const uint8_t *expected_data, const char *static_buf_name, const char *filename, unsigned lineno) { if (are_bytes_equal (actual_len, actual_data, expected_len, expected_data)) return; fprintf (stderr, "test_versus_static_array failed:\n" "actual: [length=%u]\n", actual_len); dump_bytes_stderr (actual_len, actual_data); fprintf (stderr, "expected: [length=%u] [buffer %s]\n", expected_len, static_buf_name); dump_bytes_stderr (expected_len, expected_data); fprintf (stderr, "at line %u of %s.\n", lineno, filename); abort(); } #define TEST_VERSUS_STATIC_ARRAY(actual_len, actual_data, buf) \ test_versus_static_array(actual_len,actual_data, \ sizeof(buf), buf, #buf, __FILE__, __LINE__) /* rv is unpacked message */ static void * test_compare_pack_methods (ProtobufCMessage *message, size_t *packed_len_out, uint8_t **packed_out) { unsigned char scratch[16]; ProtobufCBufferSimple bs = PROTOBUF_C_BUFFER_SIMPLE_INIT (scratch); size_t siz1 = protobuf_c_message_get_packed_size (message); size_t siz2; size_t siz3 = protobuf_c_message_pack_to_buffer (message, &bs.base); void *packed1 = malloc (siz1); void *rv; assert (packed1 != NULL); assert (siz1 == siz3); siz2 = protobuf_c_message_pack (message, packed1); assert (siz1 == siz2); assert (bs.len == siz1); assert (memcmp (bs.data, packed1, siz1) == 0); rv = protobuf_c_message_unpack (message->descriptor, NULL, siz1, packed1); assert (rv != NULL); PROTOBUF_C_BUFFER_SIMPLE_CLEAR (&bs); *packed_len_out = siz1; *packed_out = packed1; return rv; } #define NUMERIC_EQUALS(a,b) ((a) == (b)) #define STRING_EQUALS(a,b) (strcmp((a),(b))==0) static protobuf_c_boolean binary_data_equals (ProtobufCBinaryData a, ProtobufCBinaryData b) { if (a.len != b.len) return 0; return memcmp (a.data, b.data, a.len) == 0; } static protobuf_c_boolean submesses_equals (Foo__SubMess *a, Foo__SubMess *b) { assert(a->base.descriptor == &foo__sub_mess__descriptor); assert(b->base.descriptor == &foo__sub_mess__descriptor); return a->test == b->test; } /* === the actual tests === */ /* === misc fencepost tests === */ static void test_enum_small (void) { #define DO_TEST(UC_VALUE) \ do{ \ Foo__TestMessRequiredEnumSmall small = FOO__TEST_MESS_REQUIRED_ENUM_SMALL__INIT; \ size_t len; \ uint8_t *data; \ Foo__TestMessRequiredEnumSmall *unpacked; \ small.test = FOO__TEST_ENUM_SMALL__##UC_VALUE; \ unpacked = test_compare_pack_methods ((ProtobufCMessage*)&small, &len, &data); \ assert (unpacked->test == FOO__TEST_ENUM_SMALL__##UC_VALUE); \ foo__test_mess_required_enum_small__free_unpacked (unpacked, NULL); \ TEST_VERSUS_STATIC_ARRAY (len, data, test_enum_small_##UC_VALUE); \ free (data); \ }while(0) assert (sizeof (Foo__TestEnumSmall) == 4); DO_TEST(VALUE); DO_TEST(OTHER_VALUE); #undef DO_TEST } static void test_enum_big (void) { Foo__TestMessRequiredEnum big = FOO__TEST_MESS_REQUIRED_ENUM__INIT; size_t len; uint8_t *data; Foo__TestMessRequiredEnum *unpacked; assert (sizeof (Foo__TestEnum) == 4); #define DO_ONE_TEST(shortname, numeric_value, encoded_len) \ do{ \ big.test = FOO__TEST_ENUM__##shortname; \ unpacked = test_compare_pack_methods ((ProtobufCMessage*)&big, &len, &data); \ assert (unpacked->test == FOO__TEST_ENUM__##shortname); \ foo__test_mess_required_enum__free_unpacked (unpacked, NULL); \ TEST_VERSUS_STATIC_ARRAY (len, data, test_enum_big_##shortname); \ assert (encoded_len + 1 == len); \ assert (big.test == numeric_value); \ free (data); \ }while(0) DO_ONE_TEST(VALUE0, 0, 1); DO_ONE_TEST(VALUE127, 127, 1); DO_ONE_TEST(VALUE128, 128, 2); DO_ONE_TEST(VALUE16383, 16383, 2); DO_ONE_TEST(VALUE16384, 16384, 3); DO_ONE_TEST(VALUE2097151, 2097151, 3); DO_ONE_TEST(VALUE2097152, 2097152, 4); DO_ONE_TEST(VALUE268435455, 268435455, 4); DO_ONE_TEST(VALUE268435456, 268435456, 5); #undef DO_ONE_TEST } static void test_field_numbers (void) { size_t len; uint8_t *data; #define DO_ONE_TEST(num, exp_len) \ { \ Foo__TestFieldNo##num t = FOO__TEST_FIELD_NO##num##__INIT; \ Foo__TestFieldNo##num *t2; \ t.test = "tst"; \ t2 = test_compare_pack_methods ((ProtobufCMessage*)(&t), &len, &data); \ assert (strcmp (t2->test, "tst") == 0); \ TEST_VERSUS_STATIC_ARRAY (len, data, test_field_number_##num); \ assert (len == exp_len); \ free (data); \ foo__test_field_no##num##__free_unpacked (t2, NULL); \ } DO_ONE_TEST (15, 1 + 1 + 3); DO_ONE_TEST (16, 2 + 1 + 3); DO_ONE_TEST (2047, 2 + 1 + 3); DO_ONE_TEST (2048, 3 + 1 + 3); DO_ONE_TEST (262143, 3 + 1 + 3); DO_ONE_TEST (262144, 4 + 1 + 3); DO_ONE_TEST (33554431, 4 + 1 + 3); DO_ONE_TEST (33554432, 5 + 1 + 3); #undef DO_ONE_TEST } /* === Required type fields === */ #define DO_TEST_REQUIRED(Type, TYPE, type, value, example_packed_data, equal_func) \ do{ \ Foo__TestMessRequired##Type opt = FOO__TEST_MESS_REQUIRED_##TYPE##__INIT; \ Foo__TestMessRequired##Type *mess; \ size_t len; uint8_t *data; \ opt.test = value; \ mess = test_compare_pack_methods (&opt.base, &len, &data); \ TEST_VERSUS_STATIC_ARRAY (len, data, example_packed_data); \ assert (equal_func (mess->test, value)); \ foo__test_mess_required_##type##__free_unpacked (mess, NULL); \ free (data); \ }while(0) static void test_required_int32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(Int32, INT32, int32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(INT32_MIN, test_required_int32_min); DO_TEST(-1000, test_required_int32_m1000); DO_TEST(0, test_required_int32_0); DO_TEST(INT32_MAX, test_required_int32_max); #undef DO_TEST } static void test_required_sint32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(SInt32, SINT32, sint32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(INT32_MIN, test_required_sint32_min); DO_TEST(-1000, test_required_sint32_m1000); DO_TEST(0, test_required_sint32_0); DO_TEST(INT32_MAX, test_required_sint32_max); #undef DO_TEST } static void test_required_sfixed32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(SFixed32, SFIXED32, sfixed32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(INT32_MIN, test_required_sfixed32_min); DO_TEST(-1000, test_required_sfixed32_m1000); DO_TEST(0, test_required_sfixed32_0); DO_TEST(INT32_MAX, test_required_sfixed32_max); #undef DO_TEST } static void test_required_uint32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(UInt32, UINT32, uint32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(0, test_required_uint32_0); DO_TEST(MILLION, test_required_uint32_million); DO_TEST(UINT32_MAX, test_required_uint32_max); #undef DO_TEST } static void test_required_fixed32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(Fixed32, FIXED32, fixed32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(0, test_required_fixed32_0); DO_TEST(MILLION, test_required_fixed32_million); DO_TEST(UINT32_MAX, test_required_fixed32_max); #undef DO_TEST } static void test_required_int64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(Int64, INT64, int64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(INT64_MIN, test_required_int64_min); DO_TEST(-TRILLION, test_required_int64_mtril); DO_TEST(0, test_required_int64_0); DO_TEST(QUADRILLION, test_required_int64_quad); DO_TEST(INT64_MAX, test_required_int64_max); #undef DO_TEST } static void test_required_sint64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(SInt64, SINT64, sint64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(INT64_MIN, test_required_sint64_min); DO_TEST(-TRILLION, test_required_sint64_mtril); DO_TEST(0, test_required_sint64_0); DO_TEST(QUADRILLION, test_required_sint64_quad); DO_TEST(INT64_MAX, test_required_sint64_max); #undef DO_TEST } static void test_required_sfixed64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(SFixed64, SFIXED64, sfixed64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(INT64_MIN, test_required_sfixed64_min); DO_TEST(-TRILLION, test_required_sfixed64_mtril); DO_TEST(0, test_required_sfixed64_0); DO_TEST(QUADRILLION, test_required_sfixed64_quad); DO_TEST(INT64_MAX, test_required_sfixed64_max); #undef DO_TEST } static void test_required_uint64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(UInt64, UINT64, uint64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(0, test_required_uint64_0); DO_TEST(THOUSAND, test_required_uint64_thou); DO_TEST(MILLION, test_required_uint64_mill); DO_TEST(BILLION, test_required_uint64_bill); DO_TEST(TRILLION, test_required_uint64_tril); DO_TEST(QUADRILLION, test_required_uint64_quad); DO_TEST(QUINTILLION, test_required_uint64_quint); DO_TEST(UINT64_MAX, test_required_uint64_max); #undef DO_TEST } static void test_required_fixed64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(Fixed64, FIXED64, fixed64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(0, test_required_fixed64_0); DO_TEST(THOUSAND, test_required_fixed64_thou); DO_TEST(MILLION, test_required_fixed64_mill); DO_TEST(BILLION, test_required_fixed64_bill); DO_TEST(TRILLION, test_required_fixed64_tril); DO_TEST(QUADRILLION, test_required_fixed64_quad); DO_TEST(QUINTILLION, test_required_fixed64_quint); DO_TEST(UINT64_MAX, test_required_fixed64_max); #undef DO_TEST } static void test_required_float (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(Float, FLOAT, float, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(-THOUSAND, test_required_float_mthou); DO_TEST(0, test_required_float_0); DO_TEST(420, test_required_float_420); #undef DO_TEST } static void test_required_double (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(Double, DOUBLE, double, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(-THOUSAND, test_required_double_mthou); DO_TEST(0, test_required_double_0); DO_TEST(420, test_required_double_420); #undef DO_TEST } static void test_required_bool (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(Bool, BOOL, bool, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(0, test_required_bool_0); DO_TEST(1, test_required_bool_1); #undef DO_TEST } static void test_required_TestEnumSmall (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(EnumSmall, ENUM_SMALL, enum_small, value, example_packed_data, NUMERIC_EQUALS) DO_TEST(FOO__TEST_ENUM_SMALL__VALUE, test_required_enum_small_VALUE); DO_TEST(FOO__TEST_ENUM_SMALL__OTHER_VALUE, test_required_enum_small_OTHER_VALUE); #undef DO_TEST } static void test_required_TestEnum (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(Enum, ENUM, enum, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (FOO__TEST_ENUM__VALUE0, test_required_enum_0); DO_TEST (FOO__TEST_ENUM__VALUE1, test_required_enum_1); DO_TEST (FOO__TEST_ENUM__VALUE127, test_required_enum_127); DO_TEST (FOO__TEST_ENUM__VALUE128, test_required_enum_128); DO_TEST (FOO__TEST_ENUM__VALUE16383, test_required_enum_16383); DO_TEST (FOO__TEST_ENUM__VALUE16384, test_required_enum_16384); DO_TEST (FOO__TEST_ENUM__VALUE2097151, test_required_enum_2097151); DO_TEST (FOO__TEST_ENUM__VALUE2097152, test_required_enum_2097152); DO_TEST (FOO__TEST_ENUM__VALUE268435455, test_required_enum_268435455); DO_TEST (FOO__TEST_ENUM__VALUE268435456, test_required_enum_268435456); #undef DO_TEST } static void test_required_string (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED(String, STRING, string, value, example_packed_data, STRING_EQUALS) DO_TEST("", test_required_string_empty); DO_TEST("hello", test_required_string_hello); DO_TEST("two hundred xs follow: xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx", test_required_string_long); #undef DO_TEST } static void test_required_bytes (void) { static ProtobufCBinaryData bd_empty = { 0, (uint8_t*)"" }; static ProtobufCBinaryData bd_hello = { 5, (uint8_t*)"hello" }; static ProtobufCBinaryData bd_random = { 5, (uint8_t*)"\1\0\375\2\4" }; #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED (Bytes, BYTES, bytes, value, example_packed_data, binary_data_equals) DO_TEST (bd_empty, test_required_bytes_empty); DO_TEST (bd_hello, test_required_bytes_hello); DO_TEST (bd_random, test_required_bytes_random); #undef DO_TEST } static void test_required_SubMess (void) { Foo__SubMess submess = FOO__SUB_MESS__INIT; #define DO_TEST(value, example_packed_data) \ DO_TEST_REQUIRED (Message, MESSAGE, message, value, example_packed_data, submesses_equals) submess.test = 0; DO_TEST (&submess, test_required_submess_0); submess.test = 42; DO_TEST (&submess, test_required_submess_42); #undef DO_TEST } /* === Optional type fields === */ static void test_empty_optional (void) { Foo__TestMessOptional mess = FOO__TEST_MESS_OPTIONAL__INIT; size_t len; uint8_t *data; Foo__TestMessOptional *mess2 = test_compare_pack_methods (&mess.base, &len, &data); assert (len == 0); free (data); foo__test_mess_optional__free_unpacked (mess2, NULL); } #define DO_TEST_OPTIONAL(base_member, value, example_packed_data, equal_func) \ do{ \ Foo__TestMessOptional opt = FOO__TEST_MESS_OPTIONAL__INIT; \ Foo__TestMessOptional *mess; \ size_t len; uint8_t *data; \ opt.has_##base_member = 1; \ opt.base_member = value; \ mess = test_compare_pack_methods (&opt.base, &len, &data); \ TEST_VERSUS_STATIC_ARRAY (len, data, example_packed_data); \ assert (mess->has_##base_member); \ assert (equal_func (mess->base_member, value)); \ foo__test_mess_optional__free_unpacked (mess, NULL); \ free (data); \ }while(0) static void test_optional_int32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_int32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (INT32_MIN, test_optional_int32_min); DO_TEST (-1, test_optional_int32_m1); DO_TEST (0, test_optional_int32_0); DO_TEST (666, test_optional_int32_666); DO_TEST (INT32_MAX, test_optional_int32_max); #undef DO_TEST } static void test_optional_sint32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_sint32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (INT32_MIN, test_optional_sint32_min); DO_TEST (-1, test_optional_sint32_m1); DO_TEST (0, test_optional_sint32_0); DO_TEST (666, test_optional_sint32_666); DO_TEST (INT32_MAX, test_optional_sint32_max); #undef DO_TEST } static void test_optional_sfixed32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_sfixed32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (INT32_MIN, test_optional_sfixed32_min); DO_TEST (-1, test_optional_sfixed32_m1); DO_TEST (0, test_optional_sfixed32_0); DO_TEST (666, test_optional_sfixed32_666); DO_TEST (INT32_MAX, test_optional_sfixed32_max); #undef DO_TEST } static void test_optional_int64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_int64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (INT64_MIN, test_optional_int64_min); DO_TEST (-1111111111LL, test_optional_int64_m1111111111LL); DO_TEST (0, test_optional_int64_0); DO_TEST (QUINTILLION, test_optional_int64_quintillion); DO_TEST (INT64_MAX, test_optional_int64_max); #undef DO_TEST } static void test_optional_sint64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_sint64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (INT64_MIN, test_optional_sint64_min); DO_TEST (-1111111111LL, test_optional_sint64_m1111111111LL); DO_TEST (0, test_optional_sint64_0); DO_TEST (QUINTILLION, test_optional_sint64_quintillion); DO_TEST (INT64_MAX, test_optional_sint64_max); #undef DO_TEST } static void test_optional_sfixed64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_sfixed64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (INT64_MIN, test_optional_sfixed64_min); DO_TEST (-1111111111LL, test_optional_sfixed64_m1111111111LL); DO_TEST (0, test_optional_sfixed64_0); DO_TEST (QUINTILLION, test_optional_sfixed64_quintillion); DO_TEST (INT64_MAX, test_optional_sfixed64_max); #undef DO_TEST } static void test_optional_uint32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_uint32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (0, test_optional_uint32_0); DO_TEST (669, test_optional_uint32_669); DO_TEST (UINT32_MAX, test_optional_uint32_max); #undef DO_TEST } static void test_optional_fixed32 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_fixed32, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (0, test_optional_fixed32_0); DO_TEST (669, test_optional_fixed32_669); DO_TEST (UINT32_MAX, test_optional_fixed32_max); #undef DO_TEST } static void test_optional_uint64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_uint64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (0, test_optional_uint64_0); DO_TEST (669669669669669ULL, test_optional_uint64_669669669669669); DO_TEST (UINT64_MAX, test_optional_uint64_max); #undef DO_TEST } static void test_optional_fixed64 (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_fixed64, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (0, test_optional_fixed64_0); DO_TEST (669669669669669ULL, test_optional_fixed64_669669669669669); DO_TEST (UINT64_MAX, test_optional_fixed64_max); #undef DO_TEST } static void test_optional_float (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_float, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (-100, test_optional_float_m100); DO_TEST (0, test_optional_float_0); DO_TEST (141243, test_optional_float_141243); #undef DO_TEST } static void test_optional_double (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_double, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (-100, test_optional_double_m100); DO_TEST (0, test_optional_double_0); DO_TEST (141243, test_optional_double_141243); #undef DO_TEST } static void test_optional_bool (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_boolean, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (0, test_optional_bool_0); DO_TEST (1, test_optional_bool_1); #undef DO_TEST } static void test_optional_TestEnumSmall (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_enum_small, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (0, test_optional_enum_small_0); DO_TEST (1, test_optional_enum_small_1); #undef DO_TEST } static void test_optional_TestEnum (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL(test_enum, value, example_packed_data, NUMERIC_EQUALS) DO_TEST (FOO__TEST_ENUM__VALUE0, test_optional_enum_0); DO_TEST (FOO__TEST_ENUM__VALUE1, test_optional_enum_1); DO_TEST (FOO__TEST_ENUM__VALUE127, test_optional_enum_127); DO_TEST (FOO__TEST_ENUM__VALUE128, test_optional_enum_128); DO_TEST (FOO__TEST_ENUM__VALUE16383, test_optional_enum_16383); DO_TEST (FOO__TEST_ENUM__VALUE16384, test_optional_enum_16384); DO_TEST (FOO__TEST_ENUM__VALUE2097151, test_optional_enum_2097151); DO_TEST (FOO__TEST_ENUM__VALUE2097152, test_optional_enum_2097152); DO_TEST (FOO__TEST_ENUM__VALUE268435455, test_optional_enum_268435455); DO_TEST (FOO__TEST_ENUM__VALUE268435456, test_optional_enum_268435456); #undef DO_TEST } #define DO_TEST_OPTIONAL__NO_HAS(base_member, value, example_packed_data, equal_func) \ do{ \ Foo__TestMessOptional opt = FOO__TEST_MESS_OPTIONAL__INIT; \ Foo__TestMessOptional *mess; \ size_t len; uint8_t *data; \ opt.base_member = value; \ mess = test_compare_pack_methods (&opt.base, &len, &data); \ TEST_VERSUS_STATIC_ARRAY (len, data, example_packed_data); \ assert (mess->base_member != NULL); \ assert (equal_func (mess->base_member, value)); \ foo__test_mess_optional__free_unpacked (mess, NULL); \ free (data); \ }while(0) static void test_optional_string (void) { #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL__NO_HAS (test_string, value, example_packed_data, STRING_EQUALS) DO_TEST ("", test_optional_string_empty); DO_TEST ("hello", test_optional_string_hello); #undef DO_TEST } static void test_optional_bytes (void) { static ProtobufCBinaryData bd_empty = { 0, (uint8_t*)"" }; static ProtobufCBinaryData bd_hello = { 5, (uint8_t*)"hello" }; static ProtobufCBinaryData bd_random = { 5, (uint8_t*)"\1\0\375\2\4" }; #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL (test_bytes, value, example_packed_data, binary_data_equals) DO_TEST (bd_empty, test_optional_bytes_empty); DO_TEST (bd_hello, test_optional_bytes_hello); DO_TEST (bd_random, test_optional_bytes_random); #undef DO_TEST } static void test_optional_SubMess (void) { Foo__SubMess submess = FOO__SUB_MESS__INIT; #define DO_TEST(value, example_packed_data) \ DO_TEST_OPTIONAL__NO_HAS (test_message, value, example_packed_data, submesses_equals) submess.test = 0; DO_TEST (&submess, test_optional_submess_0); submess.test = 42; DO_TEST (&submess, test_optional_submess_42); #undef DO_TEST } /* === repeated type fields === */ #define DO_TEST_REPEATED(lc_member_name, cast, \ static_array, example_packed_data, \ equals_macro) \ do{ \ Foo__TestMess mess = FOO__TEST_MESS__INIT; \ Foo__TestMess *mess2; \ size_t len; \ uint8_t *data; \ unsigned i; \ mess.n_##lc_member_name = N_ELEMENTS (static_array); \ mess.lc_member_name = cast static_array; \ mess2 = test_compare_pack_methods ((ProtobufCMessage*)(&mess), &len, &data); \ assert(mess2->n_##lc_member_name == N_ELEMENTS (static_array)); \ for (i = 0; i < N_ELEMENTS (static_array); i++) \ assert(equals_macro(mess2->lc_member_name[i], static_array[i])); \ TEST_VERSUS_STATIC_ARRAY (len, data, example_packed_data); \ free (data); \ foo__test_mess__free_unpacked (mess2, NULL); \ }while(0) static void test_empty_repeated (void) { Foo__TestMess mess = FOO__TEST_MESS__INIT; size_t len; uint8_t *data; Foo__TestMess *mess2 = test_compare_pack_methods (&mess.base, &len, &data); assert (len == 0); free (data); foo__test_mess__free_unpacked (mess2, NULL); } static void test_repeated_int32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_int32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int32_arr0, test_repeated_int32_arr0); DO_TEST (int32_arr1, test_repeated_int32_arr1); DO_TEST (int32_arr_min_max, test_repeated_int32_arr_min_max); #undef DO_TEST } static void test_repeated_sint32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_sint32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int32_arr0, test_repeated_sint32_arr0); DO_TEST (int32_arr1, test_repeated_sint32_arr1); DO_TEST (int32_arr_min_max, test_repeated_sint32_arr_min_max); #undef DO_TEST } static void test_repeated_sfixed32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_sfixed32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int32_arr0, test_repeated_sfixed32_arr0); DO_TEST (int32_arr1, test_repeated_sfixed32_arr1); DO_TEST (int32_arr_min_max, test_repeated_sfixed32_arr_min_max); #undef DO_TEST } static void test_repeated_uint32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_uint32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (uint32_roundnumbers, test_repeated_uint32_roundnumbers); DO_TEST (uint32_0_max, test_repeated_uint32_0_max); #undef DO_TEST } static void test_repeated_fixed32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_fixed32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (uint32_roundnumbers, test_repeated_fixed32_roundnumbers); DO_TEST (uint32_0_max, test_repeated_fixed32_0_max); #undef DO_TEST } static void test_repeated_int64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_int64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int64_roundnumbers, test_repeated_int64_roundnumbers); DO_TEST (int64_min_max, test_repeated_int64_min_max); #undef DO_TEST } static void test_repeated_sint64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_sint64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int64_roundnumbers, test_repeated_sint64_roundnumbers); DO_TEST (int64_min_max, test_repeated_sint64_min_max); #undef DO_TEST } static void test_repeated_sfixed64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_sfixed64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int64_roundnumbers, test_repeated_sfixed64_roundnumbers); DO_TEST (int64_min_max, test_repeated_sfixed64_min_max); #undef DO_TEST } static void test_repeated_uint64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_uint64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(uint64_roundnumbers, test_repeated_uint64_roundnumbers); DO_TEST(uint64_0_1_max, test_repeated_uint64_0_1_max); DO_TEST(uint64_random, test_repeated_uint64_random); #undef DO_TEST } static void test_repeated_fixed64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_fixed64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(uint64_roundnumbers, test_repeated_fixed64_roundnumbers); DO_TEST(uint64_0_1_max, test_repeated_fixed64_0_1_max); DO_TEST(uint64_random, test_repeated_fixed64_random); #undef DO_TEST } static void test_repeated_float (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_float, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(float_random, test_repeated_float_random); #undef DO_TEST } static void test_repeated_double (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_double, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(double_random, test_repeated_double_random); #undef DO_TEST } static void test_repeated_boolean (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_boolean, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(boolean_0, test_repeated_boolean_0); DO_TEST(boolean_1, test_repeated_boolean_1); DO_TEST(boolean_random, test_repeated_boolean_random); #undef DO_TEST } static void test_repeated_TestEnumSmall (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_enum_small, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(enum_small_0, test_repeated_enum_small_0); DO_TEST(enum_small_1, test_repeated_enum_small_1); DO_TEST(enum_small_random, test_repeated_enum_small_random); #undef DO_TEST } static void test_repeated_TestEnum (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_enum, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(enum_0, test_repeated_enum_0); DO_TEST(enum_1, test_repeated_enum_1); DO_TEST(enum_random, test_repeated_enum_random); #undef DO_TEST } static void test_repeated_string (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_string, (char **), \ static_array, example_packed_data, \ STRING_EQUALS) DO_TEST(repeated_strings_0, test_repeated_strings_0); DO_TEST(repeated_strings_1, test_repeated_strings_1); DO_TEST(repeated_strings_2, test_repeated_strings_2); DO_TEST(repeated_strings_3, test_repeated_strings_3); #undef DO_TEST } static void test_repeated_bytes (void) { static ProtobufCBinaryData test_binary_data_0[] = { { 4, (uint8_t *) "text" }, { 9, (uint8_t *) "str\1\2\3\4\5\0" }, { 10, (uint8_t *) "gobble\0foo" } }; #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_bytes, , \ static_array, example_packed_data, \ binary_data_equals) DO_TEST (test_binary_data_0, test_repeated_bytes_0); #undef DO_TEST } static void test_repeated_SubMess (void) { static Foo__SubMess submess0 = FOO__SUB_MESS__INIT; static Foo__SubMess submess1 = FOO__SUB_MESS__INIT; static Foo__SubMess submess2 = FOO__SUB_MESS__INIT; static Foo__SubMess *submesses[3] = { &submess0, &submess1, &submess2 }; #define DO_TEST(static_array, example_packed_data) \ DO_TEST_REPEATED(test_message, , \ static_array, example_packed_data, \ submesses_equals) DO_TEST (submesses, test_repeated_submess_0); submess0.test = 42; submess1.test = -10000; submess2.test = 667; DO_TEST (submesses, test_repeated_submess_1); #undef DO_TEST } #define DO_TEST_PACKED_REPEATED(lc_member_name, cast, \ static_array, example_packed_data, \ equals_macro) \ do{ \ Foo__TestMessPacked mess = FOO__TEST_MESS_PACKED__INIT; \ Foo__TestMessPacked *mess2; \ size_t len; \ uint8_t *data; \ unsigned i; \ mess.n_##lc_member_name = N_ELEMENTS (static_array); \ mess.lc_member_name = cast static_array; \ mess2 = test_compare_pack_methods ((ProtobufCMessage*)(&mess), &len, &data); \ TEST_VERSUS_STATIC_ARRAY (len, data, example_packed_data); \ assert(mess2->n_##lc_member_name == N_ELEMENTS (static_array)); \ for (i = 0; i < N_ELEMENTS (static_array); i++) \ assert(equals_macro(mess2->lc_member_name[i], static_array[i])); \ free (data); \ foo__test_mess_packed__free_unpacked (mess2, NULL); \ }while(0) static void test_packed_repeated_int32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_int32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int32_arr0, test_packed_repeated_int32_arr0); DO_TEST (int32_arr1, test_packed_repeated_int32_arr1); DO_TEST (int32_arr_min_max, test_packed_repeated_int32_arr_min_max); #undef DO_TEST } static void test_packed_repeated_sint32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_sint32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int32_arr0, test_packed_repeated_sint32_arr0); DO_TEST (int32_arr1, test_packed_repeated_sint32_arr1); DO_TEST (int32_arr_min_max, test_packed_repeated_sint32_arr_min_max); #undef DO_TEST } static void test_packed_repeated_sfixed32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_sfixed32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int32_arr0, test_packed_repeated_sfixed32_arr0); DO_TEST (int32_arr1, test_packed_repeated_sfixed32_arr1); DO_TEST (int32_arr_min_max, test_packed_repeated_sfixed32_arr_min_max); #undef DO_TEST } static void test_packed_repeated_uint32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_uint32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (uint32_roundnumbers, test_packed_repeated_uint32_roundnumbers); DO_TEST (uint32_0_max, test_packed_repeated_uint32_0_max); #undef DO_TEST } static void test_packed_repeated_fixed32 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_fixed32, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (uint32_roundnumbers, test_packed_repeated_fixed32_roundnumbers); DO_TEST (uint32_0_max, test_packed_repeated_fixed32_0_max); #undef DO_TEST } static void test_packed_repeated_int64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_int64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int64_roundnumbers, test_packed_repeated_int64_roundnumbers); DO_TEST (int64_min_max, test_packed_repeated_int64_min_max); #undef DO_TEST } static void test_packed_repeated_sint64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_sint64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int64_roundnumbers, test_packed_repeated_sint64_roundnumbers); DO_TEST (int64_min_max, test_packed_repeated_sint64_min_max); #undef DO_TEST } static void test_packed_repeated_sfixed64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_sfixed64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST (int64_roundnumbers, test_packed_repeated_sfixed64_roundnumbers); DO_TEST (int64_min_max, test_packed_repeated_sfixed64_min_max); #undef DO_TEST } static void test_packed_repeated_uint64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_uint64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(uint64_roundnumbers, test_packed_repeated_uint64_roundnumbers); DO_TEST(uint64_0_1_max, test_packed_repeated_uint64_0_1_max); DO_TEST(uint64_random, test_packed_repeated_uint64_random); #undef DO_TEST } static void test_packed_repeated_fixed64 (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_fixed64, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(uint64_roundnumbers, test_packed_repeated_fixed64_roundnumbers); DO_TEST(uint64_0_1_max, test_packed_repeated_fixed64_0_1_max); DO_TEST(uint64_random, test_packed_repeated_fixed64_random); #undef DO_TEST } static void test_packed_repeated_float (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_float, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(float_random, test_packed_repeated_float_random); #undef DO_TEST } static void test_packed_repeated_double (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_double, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(double_random, test_packed_repeated_double_random); #undef DO_TEST } static void test_packed_repeated_boolean (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_boolean, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(boolean_0, test_packed_repeated_boolean_0); DO_TEST(boolean_1, test_packed_repeated_boolean_1); DO_TEST(boolean_random, test_packed_repeated_boolean_random); #undef DO_TEST } static void test_packed_repeated_TestEnumSmall (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_enum_small, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(enum_small_0, test_packed_repeated_enum_small_0); DO_TEST(enum_small_1, test_packed_repeated_enum_small_1); DO_TEST(enum_small_random, test_packed_repeated_enum_small_random); #undef DO_TEST } static void test_packed_repeated_TestEnum (void) { #define DO_TEST(static_array, example_packed_data) \ DO_TEST_PACKED_REPEATED(test_enum, , \ static_array, example_packed_data, \ NUMERIC_EQUALS) DO_TEST(enum_0, test_packed_repeated_enum_0); DO_TEST(enum_1, test_packed_repeated_enum_1); DO_TEST(enum_random, test_packed_repeated_enum_random); #undef DO_TEST } static void test_unknown_fields (void) { static Foo__EmptyMess mess = FOO__EMPTY_MESS__INIT; static Foo__EmptyMess *mess2; ProtobufCMessageUnknownField fields[2]; size_t len; uint8_t *data; mess.base.n_unknown_fields = 2; mess.base.unknown_fields = fields; fields[0].tag = 5454; fields[0].wire_type = PROTOBUF_C_WIRE_TYPE_VARINT; fields[0].len = 2; fields[0].data = (uint8_t*)"\377\1"; fields[1].tag = 5555; fields[1].wire_type = PROTOBUF_C_WIRE_TYPE_32BIT; fields[1].len = 4; fields[1].data = (uint8_t*)"\4\1\0\0"; mess2 = test_compare_pack_methods (&mess.base, &len, &data); assert (mess2->base.n_unknown_fields == 2); assert (mess2->base.unknown_fields[0].tag == 5454); assert (mess2->base.unknown_fields[0].wire_type == PROTOBUF_C_WIRE_TYPE_VARINT); assert (mess2->base.unknown_fields[0].len == 2); assert (memcmp (mess2->base.unknown_fields[0].data, fields[0].data, 2) == 0); assert (mess2->base.unknown_fields[1].tag == 5555); assert (mess2->base.unknown_fields[1].wire_type == PROTOBUF_C_WIRE_TYPE_32BIT); assert (mess2->base.unknown_fields[1].len == 4); assert (memcmp (mess2->base.unknown_fields[1].data, fields[1].data, 4) == 0); TEST_VERSUS_STATIC_ARRAY (len, data, test_unknown_fields_0); free (data); foo__empty_mess__free_unpacked (mess2, NULL); fields[0].tag = 6666; fields[0].wire_type = PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED; fields[0].len = 9; fields[0].data = (uint8_t*)"\10xxxxxxxx"; fields[1].tag = 7777; fields[1].wire_type = PROTOBUF_C_WIRE_TYPE_64BIT; fields[1].len = 8; fields[1].data = (uint8_t*)"\1\1\1\0\0\0\0\0"; mess2 = test_compare_pack_methods (&mess.base, &len, &data); assert (mess2->base.n_unknown_fields == 2); assert (mess2->base.unknown_fields[0].tag == 6666); assert (mess2->base.unknown_fields[0].wire_type == PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED); assert (mess2->base.unknown_fields[0].len == 9); assert (memcmp (mess2->base.unknown_fields[0].data, fields[0].data, 9) == 0); assert (mess2->base.unknown_fields[1].tag == 7777); assert (mess2->base.unknown_fields[1].wire_type == PROTOBUF_C_WIRE_TYPE_64BIT); assert (mess2->base.unknown_fields[1].len == 8); assert (memcmp (mess2->base.unknown_fields[1].data, fields[1].data, 8) == 0); TEST_VERSUS_STATIC_ARRAY (len, data, test_unknown_fields_1); free (data); foo__empty_mess__free_unpacked (mess2, NULL); } static void test_enum_descriptor (const ProtobufCEnumDescriptor *desc) { unsigned i; for (i = 0; i < desc->n_values; i++) { const ProtobufCEnumValue *sv = desc->values + i; const ProtobufCEnumValue *vv; const ProtobufCEnumValue *vn; vv = protobuf_c_enum_descriptor_get_value (desc, sv->value); vn = protobuf_c_enum_descriptor_get_value_by_name (desc, sv->name); assert (sv == vv); assert (sv == vn); } for (i = 0; i < desc->n_value_names; i++) { const char *name = desc->values_by_name[i].name; const ProtobufCEnumValue *v; v = protobuf_c_enum_descriptor_get_value_by_name (desc, name); assert (v != NULL); } } static void test_enum_by_name (const ProtobufCEnumDescriptor *desc, const char *name, int expected_value) { const ProtobufCEnumValue *v; v = protobuf_c_enum_descriptor_get_value_by_name (desc, name); assert (v != NULL); assert (v->value == expected_value); } static void test_enum_lookups (void) { test_enum_descriptor (&foo__test_enum__descriptor); test_enum_descriptor (&foo__test_enum_small__descriptor); test_enum_descriptor (&foo__test_enum_dup_values__descriptor); #define TEST_ENUM_DUP_VALUES(str, shortname) \ test_enum_by_name (&foo__test_enum_dup_values__descriptor, \ str, FOO__TEST_ENUM_DUP_VALUES__##shortname) TEST_ENUM_DUP_VALUES ("VALUE_A", VALUE_A); TEST_ENUM_DUP_VALUES ("VALUE_B", VALUE_B); TEST_ENUM_DUP_VALUES ("VALUE_C", VALUE_C); TEST_ENUM_DUP_VALUES ("VALUE_D", VALUE_D); TEST_ENUM_DUP_VALUES ("VALUE_E", VALUE_E); TEST_ENUM_DUP_VALUES ("VALUE_F", VALUE_F); TEST_ENUM_DUP_VALUES ("VALUE_AA", VALUE_AA); TEST_ENUM_DUP_VALUES ("VALUE_BB", VALUE_BB); #undef TEST_ENUM_DUP_VALUES } static void test_message_descriptor (const ProtobufCMessageDescriptor *desc) { unsigned i; for (i = 0; i < desc->n_fields; i++) { const ProtobufCFieldDescriptor *f = desc->fields + i; const ProtobufCFieldDescriptor *fv; const ProtobufCFieldDescriptor *fn; fv = protobuf_c_message_descriptor_get_field (desc, f->id); fn = protobuf_c_message_descriptor_get_field_by_name (desc, f->name); assert (f == fv); assert (f == fn); } } static void test_message_lookups (void) { test_message_descriptor (&foo__test_mess__descriptor); test_message_descriptor (&foo__test_mess_optional__descriptor); test_message_descriptor (&foo__test_mess_required_enum__descriptor); } static void assert_required_default_values_are_default (Foo__DefaultRequiredValues *mess) { assert (mess->v_int32 == -42); assert (mess->v_uint32 == 666); assert (mess->v_int64 == 100000); assert (mess->v_uint64 == 100001); assert (mess->v_float == 2.5); assert (mess->v_double == 4.5); assert (strcmp (mess->v_string, "hi mom\n") == 0); assert (mess->v_bytes.len = /* a */ 1 + /* space */ 1 + /* NUL */ 1 + /* space */ 1 + /* "character" */ 9); assert (memcmp (mess->v_bytes.data, "a \0 character", 13) == 0); } static void test_required_default_values (void) { Foo__DefaultRequiredValues mess = FOO__DEFAULT_REQUIRED_VALUES__INIT; Foo__DefaultRequiredValues *mess2; size_t len; uint8_t *data; assert_required_default_values_are_default (&mess); mess2 = test_compare_pack_methods (&mess.base, &len, &data); free (data); assert_required_default_values_are_default (mess2); foo__default_required_values__free_unpacked (mess2, NULL); } static void assert_optional_default_values_are_default (Foo__DefaultOptionalValues *mess) { assert (!mess->has_v_int32); assert (mess->v_int32 == -42); assert (!mess->has_v_uint32); assert (mess->v_uint32 == 666); assert (!mess->has_v_int64); assert (mess->v_int64 == 100000); assert (!mess->has_v_uint64); assert (mess->v_uint64 == 100001); assert (!mess->has_v_float); assert (mess->v_float == 2.5); assert (!mess->has_v_double); assert (mess->v_double == 4.5); assert (strcmp (mess->v_string, "hi mom\n") == 0); assert (!mess->has_v_bytes); assert (mess->v_bytes.len = /* a */ 1 + /* space */ 1 + /* NUL */ 1 + /* space */ 1 + /* "character" */ 9); assert (memcmp (mess->v_bytes.data, "a \0 character", 13) == 0); } static void test_optional_default_values (void) { Foo__DefaultOptionalValues mess = FOO__DEFAULT_OPTIONAL_VALUES__INIT; Foo__DefaultOptionalValues *mess2; size_t len; uint8_t *data; assert_optional_default_values_are_default (&mess); mess2 = test_compare_pack_methods (&mess.base, &len, &data); assert (len == 0); /* no non-default values */ free (data); assert_optional_default_values_are_default (mess2); foo__default_optional_values__free_unpacked (mess2, NULL); } static struct alloc_data { uint32_t alloc_count; int32_t allocs_left; } test_allocator_data; static void *test_alloc(void *allocator_data, size_t size) { struct alloc_data *ad = allocator_data; void *rv = NULL; if (ad->allocs_left-- > 0) rv = malloc (size); /* fprintf (stderr, "alloc %d = %p\n", size, rv); */ if (rv) ad->alloc_count++; return rv; } static void test_free (void *allocator_data, void *data) { struct alloc_data *ad = allocator_data; /* fprintf (stderr, "free %p\n", data); */ free (data); if (data) ad->alloc_count--; } static ProtobufCAllocator test_allocator = { test_alloc, test_free, 0, 0, &test_allocator_data }; #define SETUP_TEST_ALLOC_BUFFER(pbuf, len) \ uint8_t bytes[] = "some bytes", *pbuf; \ size_t len, _len2; \ Foo__DefaultRequiredValues _req = FOO__DEFAULT_REQUIRED_VALUES__INIT; \ Foo__AllocValues _mess = FOO__ALLOC_VALUES__INIT; \ _mess.a_string = "some string"; \ _mess.r_string = repeated_strings_2; \ _mess.n_r_string = sizeof(repeated_strings_2) / sizeof(*repeated_strings_2); \ _mess.a_bytes.len = sizeof(bytes); \ _mess.a_bytes.data = bytes; \ _mess.a_mess = &_req; \ len = foo__alloc_values__get_packed_size (&_mess); \ pbuf = malloc (len); \ assert (pbuf); \ _len2 = foo__alloc_values__pack (&_mess, pbuf); \ assert (len == _len2); static void test_alloc_graceful_cleanup (uint8_t *packed, size_t len, int good_allocs) { Foo__AllocValues *mess; test_allocator_data.alloc_count = 0; test_allocator_data.allocs_left = good_allocs; mess = foo__alloc_values__unpack (&test_allocator, len, packed); assert (test_allocator_data.allocs_left < 0 ? !mess : !!mess); if (mess) foo__alloc_values__free_unpacked (mess, &test_allocator); assert (0 == test_allocator_data.alloc_count); } static void test_alloc_free_all (void) { SETUP_TEST_ALLOC_BUFFER (packed, len); test_alloc_graceful_cleanup (packed, len, INT32_MAX); free (packed); } /* TODO: test alloc failure for slab, unknown fields */ static void test_alloc_fail (void) { int i = 0; SETUP_TEST_ALLOC_BUFFER (packed, len); do test_alloc_graceful_cleanup (packed, len, i++); while (test_allocator_data.allocs_left < 0); free (packed); } /* === simple testing framework === */ typedef void (*TestFunc) (void); typedef struct { const char *name; TestFunc func; } Test; static Test tests[] = { { "small enums", test_enum_small }, { "big enums", test_enum_big }, { "test field numbers", test_field_numbers }, { "test required int32", test_required_int32 }, { "test required sint32", test_required_sint32 }, { "test required sfixed32", test_required_sfixed32 }, { "test required int64", test_required_int64 }, { "test required sint64", test_required_sint64 }, { "test required sfixed64", test_required_sfixed64 }, { "test required uint32", test_required_uint32 }, { "test required fixed32", test_required_fixed32 }, { "test required uint64", test_required_uint64 }, { "test required fixed64", test_required_fixed64 }, { "test required float", test_required_float }, { "test required double", test_required_double }, { "test required bool", test_required_bool }, { "test required TestEnumSmall", test_required_TestEnumSmall }, { "test required TestEnum", test_required_TestEnum }, { "test required string", test_required_string }, { "test required bytes", test_required_bytes }, { "test required SubMess", test_required_SubMess }, { "test empty optional" ,test_empty_optional }, { "test optional int32", test_optional_int32 }, { "test optional sint32", test_optional_sint32 }, { "test optional sfixed32", test_optional_sfixed32 }, { "test optional int64", test_optional_int64 }, { "test optional sint64", test_optional_sint64 }, { "test optional sfixed64", test_optional_sfixed64 }, { "test optional uint32", test_optional_uint32 }, { "test optional fixed32", test_optional_fixed32 }, { "test optional uint64", test_optional_uint64 }, { "test optional fixed64", test_optional_fixed64 }, { "test optional float", test_optional_float }, { "test optional double", test_optional_double }, { "test optional bool", test_optional_bool }, { "test optional TestEnumSmall", test_optional_TestEnumSmall }, { "test optional TestEnum", test_optional_TestEnum }, { "test optional string", test_optional_string }, { "test optional bytes", test_optional_bytes }, { "test optional SubMess", test_optional_SubMess }, { "test empty repeated" ,test_empty_repeated }, { "test repeated int32" ,test_repeated_int32 }, { "test repeated sint32" ,test_repeated_sint32 }, { "test repeated sfixed32" ,test_repeated_sfixed32 }, { "test repeated uint32", test_repeated_uint32 }, { "test repeated int64", test_repeated_int64 }, { "test repeated sint64", test_repeated_sint64 }, { "test repeated sfixed64", test_repeated_sfixed64 }, { "test repeated fixed32", test_repeated_fixed32 }, { "test repeated uint64", test_repeated_uint64 }, { "test repeated fixed64", test_repeated_fixed64 }, { "test repeated float", test_repeated_float }, { "test repeated double", test_repeated_double }, { "test repeated boolean", test_repeated_boolean }, { "test repeated TestEnumSmall", test_repeated_TestEnumSmall }, { "test repeated TestEnum", test_repeated_TestEnum }, { "test repeated string", test_repeated_string }, { "test repeated bytes", test_repeated_bytes }, { "test repeated SubMess", test_repeated_SubMess }, { "test packed repeated int32", test_packed_repeated_int32 }, { "test packed repeated sint32", test_packed_repeated_sint32 }, { "test packed repeated sfixed32" ,test_packed_repeated_sfixed32 }, { "test packed repeated uint32", test_packed_repeated_uint32 }, { "test packed repeated int64", test_packed_repeated_int64 }, { "test packed repeated sint64", test_packed_repeated_sint64 }, { "test packed repeated sfixed64", test_packed_repeated_sfixed64 }, { "test packed repeated fixed32", test_packed_repeated_fixed32 }, { "test packed repeated uint64", test_packed_repeated_uint64 }, { "test packed repeated fixed64", test_packed_repeated_fixed64 }, { "test packed repeated float", test_packed_repeated_float }, { "test packed repeated double", test_packed_repeated_double }, { "test packed repeated boolean", test_packed_repeated_boolean }, { "test packed repeated TestEnumSmall", test_packed_repeated_TestEnumSmall }, { "test packed repeated TestEnum", test_packed_repeated_TestEnum }, { "test unknown fields", test_unknown_fields }, { "test enum lookups", test_enum_lookups }, { "test message lookups", test_message_lookups }, { "test required default values", test_required_default_values }, { "test optional default values", test_optional_default_values }, { "test free unpacked", test_alloc_free_all }, { "test alloc failure", test_alloc_fail }, }; #define n_tests (sizeof(tests)/sizeof(Test)) int main () { unsigned i; for (i = 0; i < n_tests; i++) { fprintf (stderr, "Test: %s... ", tests[i].name); tests[i].func (); fprintf (stderr, " done.\n"); } return 0; } protobuf-c-0.15/src/test/test-full.proto0000644000175000017500000001336211451005340015210 00000000000000package foo; message SubMess { required int32 test = 4; }; enum TestEnumSmall { VALUE = 0; OTHER_VALUE = 1; } // these number are specifically chosen to test the // boundaries of when an enum requires a certain number of bytes. // e.g. 16383 requires 3 bytes; 16384 requires 4. enum TestEnum { VALUE0 = 0; VALUE1 = 1; VALUE127 = 127; VALUE128 = 128; VALUE16383 = 16383; VALUE16384 = 16384; VALUE2097151 = 2097151; VALUE2097152 = 2097152; VALUE268435455 = 268435455; VALUE268435456 = 268435456; } enum TestEnumDupValues { VALUE_A = 42; VALUE_B = 42; VALUE_C = 42; VALUE_D = 666; VALUE_E = 666; VALUE_F = 1000; VALUE_AA = 1000; VALUE_BB = 1001; } message TestFieldNo15 { // should use 1 byte header required string test = 15; } message TestFieldNo16 { // requires 2 byte header required string test = 16; } message TestFieldNo2047 { // should use 2 byte header required string test = 2047; } message TestFieldNo2048 { // requires 3 byte header required string test = 2048; } message TestFieldNo262143 { // should use 3 byte header required string test = 262143; } message TestFieldNo262144 { // requires 4 byte header required string test = 262144; } message TestFieldNo33554431 { // should use 4 byte header required string test = 33554431; } message TestFieldNo33554432 { // requires 5 byte header required string test = 33554432; } message TestMess { repeated int32 test_int32 = 1; repeated sint32 test_sint32 = 2; repeated sfixed32 test_sfixed32 = 3; repeated int64 test_int64 = 4; repeated sint64 test_sint64 = 5; repeated sfixed64 test_sfixed64 = 6; repeated uint32 test_uint32 = 7; repeated fixed32 test_fixed32 = 8; repeated uint64 test_uint64 = 9; repeated fixed64 test_fixed64 = 10; repeated float test_float = 11; repeated double test_double = 12; repeated bool test_boolean = 13; repeated TestEnumSmall test_enum_small = 14; repeated TestEnum test_enum = 15; repeated string test_string = 16; repeated bytes test_bytes = 17; repeated SubMess test_message = 18; } message TestMessPacked { repeated int32 test_int32 = 1 [packed=true]; repeated sint32 test_sint32 = 2 [packed=true]; repeated sfixed32 test_sfixed32 = 3 [packed=true]; repeated int64 test_int64 = 4 [packed=true]; repeated sint64 test_sint64 = 5 [packed=true]; repeated sfixed64 test_sfixed64 = 6 [packed=true]; repeated uint32 test_uint32 = 7 [packed=true]; repeated fixed32 test_fixed32 = 8 [packed=true]; repeated uint64 test_uint64 = 9 [packed=true]; repeated fixed64 test_fixed64 = 10 [packed=true]; repeated float test_float = 11 [packed=true]; repeated double test_double = 12 [packed=true]; repeated bool test_boolean = 13 [packed=true]; repeated TestEnumSmall test_enum_small = 14 [packed=true]; repeated TestEnum test_enum = 15 [packed=true]; } message TestMessOptional { optional int32 test_int32 = 1; optional sint32 test_sint32 = 2; optional sfixed32 test_sfixed32 = 3; optional int64 test_int64 = 4; optional sint64 test_sint64 = 5; optional sfixed64 test_sfixed64 = 6; optional uint32 test_uint32 = 7; optional fixed32 test_fixed32 = 8; optional uint64 test_uint64 = 9; optional fixed64 test_fixed64 = 10; optional float test_float = 11; optional double test_double = 12; optional bool test_boolean = 13; optional TestEnumSmall test_enum_small = 14; optional TestEnum test_enum = 15; optional string test_string = 16; optional bytes test_bytes = 17; optional SubMess test_message = 18; } message TestMessRequiredInt32 { required int32 test = 42; } message TestMessRequiredSInt32 { required sint32 test = 43; } message TestMessRequiredSFixed32 { required sfixed32 test = 100; } message TestMessRequiredInt64 { required int64 test = 1; } message TestMessRequiredSInt64 { required sint64 test = 11; } message TestMessRequiredSFixed64 { required sfixed64 test = 12; } message TestMessRequiredUInt32 { required uint32 test = 1; } message TestMessRequiredFixed32 { required fixed32 test = 1; } message TestMessRequiredUInt64 { required uint64 test = 1; } message TestMessRequiredFixed64 { required fixed64 test = 1; } message TestMessRequiredFloat { required float test = 1; } message TestMessRequiredDouble { required double test = 1; } message TestMessRequiredBool { required bool test = 1; } message TestMessRequiredEnum { required TestEnum test = 1; } message TestMessRequiredEnumSmall { required TestEnumSmall test = 1; } message TestMessRequiredString { required string test = 1; } message TestMessRequiredBytes { required bytes test = 1; } message TestMessRequiredMessage { required SubMess test = 1; } message EmptyMess { } message DefaultRequiredValues { required int32 v_int32 = 1 [default = -42]; required uint32 v_uint32 = 2 [default = 666]; required int32 v_int64 = 3 [default = 100000]; required uint32 v_uint64 = 4 [default = 100001]; required float v_float = 5 [default = 2.5]; required double v_double = 6 [default = 4.5]; required string v_string = 7 [default = "hi mom\n"]; required bytes v_bytes = 8 [default = "a \0 character"]; } message DefaultOptionalValues { optional int32 v_int32 = 1 [default = -42]; optional uint32 v_uint32 = 2 [default = 666]; optional int32 v_int64 = 3 [default = 100000]; optional uint32 v_uint64 = 4 [default = 100001]; optional float v_float = 5 [default = 2.5]; optional double v_double = 6 [default = 4.5]; optional string v_string = 7 [default = "hi mom\n"]; optional bytes v_bytes = 8 [default = "a \0 character"]; } message AllocValues { optional bytes o_bytes = 1; repeated string r_string = 2; required string a_string = 3; required bytes a_bytes = 4; required DefaultRequiredValues a_mess = 5; } protobuf-c-0.15/src/test/cxx-generate-packed-data.cc0000644000175000017500000010644111536220130017242 00000000000000/* generate byte arrays that match the constructs in test-generated-code2.c. * these are tested against eachother to make sure the c and c++ agree. */ #define __STDC_LIMIT_MACROS #include "generated-code/test-full.pb.h" #include # if defined(_MSC_VER) /* On windows, in ms visual studio, define the types ourselves */ # define int32_t signed __int32 # define INT32_MIN _I32_MIN # define INT32_MAX _I32_MAX # define uint32_t unsigned __int32 # define UINT32_MIN _UI32_MIN # define UINT32_MAX _UI32_MAX # define int64_t signed __int64 # define INT64_MIN _I64_MIN # define INT64_MAX _I64_MAX # define uint64_t unsigned __int64 # define UINT64_MIN _UI64_MIN # define UINT64_MAX _UI64_MAX # define uint8_t unsigned char # else /* Use the system inttypes.h */ # include # endif #include using namespace foo; #define protobuf_c_boolean bool #define TEST_ENUM_SMALL_TYPE_NAME TestEnumSmall #define TEST_ENUM_SMALL(NAME) foo::NAME #define TEST_ENUM_TYPE_NAME TestEnum #define TEST_ENUM(NAME) foo::NAME #include "common-test-arrays.h" #define N_ELEMENTS(arr) (sizeof(arr)/sizeof((arr)[0])) static void dump_message_bytes(google::protobuf::Message *message, const char *label) { std::string rv; unsigned char *bytes; unsigned len; if (!message->SerializeToString(&rv)) assert(0); bytes = (unsigned char *) rv.data(); len = rv.size(); printf ("static const uint8_t %s[%u] = { ", label, len); for (unsigned i = 0; i < len; i++) { if (i) printf (", "); printf ("0x%02x", bytes[i]); } printf (" };\n"); } static void dump_test_enum_small (void) { TestMessRequiredEnumSmall es; es.set_test(VALUE); dump_message_bytes(&es, "test_enum_small_VALUE"); es.set_test(OTHER_VALUE); dump_message_bytes(&es, "test_enum_small_OTHER_VALUE"); } static void dump_test_enum_big (void) { TestMessRequiredEnum eb; eb.set_test(VALUE0); dump_message_bytes(&eb, "test_enum_big_VALUE0"); eb.set_test(VALUE127); dump_message_bytes(&eb, "test_enum_big_VALUE127"); eb.set_test(VALUE128); dump_message_bytes(&eb, "test_enum_big_VALUE128"); eb.set_test(VALUE16383); dump_message_bytes(&eb, "test_enum_big_VALUE16383"); eb.set_test(VALUE16384); dump_message_bytes(&eb, "test_enum_big_VALUE16384"); eb.set_test(VALUE2097151); dump_message_bytes(&eb, "test_enum_big_VALUE2097151"); eb.set_test(VALUE2097152); dump_message_bytes(&eb, "test_enum_big_VALUE2097152"); eb.set_test(VALUE268435455); dump_message_bytes(&eb, "test_enum_big_VALUE268435455"); eb.set_test(VALUE268435456); dump_message_bytes(&eb, "test_enum_big_VALUE268435456"); } static void dump_test_field_numbers (void) { #define DUMP_ONE(num) \ { TestFieldNo##num f; \ f.set_test("tst"); \ dump_message_bytes(&f, "test_field_number_" #num); } DUMP_ONE (15) DUMP_ONE (16) DUMP_ONE (2047) DUMP_ONE (2048) DUMP_ONE (262143) DUMP_ONE (262144) DUMP_ONE (33554431) DUMP_ONE (33554432) #undef DUMP_ONE } static void dump_test_required_int32 (void) { TestMessRequiredInt32 mess; mess.set_test (INT32_MIN); dump_message_bytes (&mess, "test_required_int32_min"); mess.set_test (-1000); dump_message_bytes (&mess, "test_required_int32_m1000"); mess.set_test (0); dump_message_bytes (&mess, "test_required_int32_0"); mess.set_test (INT32_MAX); dump_message_bytes (&mess, "test_required_int32_max"); } static void dump_test_required_sint32 (void) { TestMessRequiredSInt32 mess; mess.set_test (INT32_MIN); dump_message_bytes (&mess, "test_required_sint32_min"); mess.set_test (-1000); dump_message_bytes (&mess, "test_required_sint32_m1000"); mess.set_test (0); dump_message_bytes (&mess, "test_required_sint32_0"); mess.set_test (INT32_MAX); dump_message_bytes (&mess, "test_required_sint32_max"); } static void dump_test_required_sfixed32 (void) { TestMessRequiredSFixed32 mess; mess.set_test (INT32_MIN); dump_message_bytes (&mess, "test_required_sfixed32_min"); mess.set_test (-1000); dump_message_bytes (&mess, "test_required_sfixed32_m1000"); mess.set_test (0); dump_message_bytes (&mess, "test_required_sfixed32_0"); mess.set_test (INT32_MAX); dump_message_bytes (&mess, "test_required_sfixed32_max"); } static void dump_test_required_uint32 (void) { TestMessRequiredUInt32 mess; mess.set_test (0); dump_message_bytes (&mess, "test_required_uint32_0"); mess.set_test (MILLION); dump_message_bytes (&mess, "test_required_uint32_million"); mess.set_test (UINT32_MAX); dump_message_bytes (&mess, "test_required_uint32_max"); } static void dump_test_required_fixed32 (void) { TestMessRequiredFixed32 mess; mess.set_test (0); dump_message_bytes (&mess, "test_required_fixed32_0"); mess.set_test (MILLION); dump_message_bytes (&mess, "test_required_fixed32_million"); mess.set_test (UINT32_MAX); dump_message_bytes (&mess, "test_required_fixed32_max"); } static void dump_test_required_int64 (void) { TestMessRequiredInt64 mess; mess.set_test (INT64_MIN); dump_message_bytes (&mess, "test_required_int64_min"); mess.set_test (-TRILLION); dump_message_bytes (&mess, "test_required_int64_mtril"); mess.set_test (0); dump_message_bytes (&mess, "test_required_int64_0"); mess.set_test (QUADRILLION); dump_message_bytes (&mess, "test_required_int64_quad"); mess.set_test (INT64_MAX); dump_message_bytes (&mess, "test_required_int64_max"); } static void dump_test_required_sint64 (void) { TestMessRequiredSInt64 mess; mess.set_test (INT64_MIN); dump_message_bytes (&mess, "test_required_sint64_min"); mess.set_test (-TRILLION); dump_message_bytes (&mess, "test_required_sint64_mtril"); mess.set_test (0); dump_message_bytes (&mess, "test_required_sint64_0"); mess.set_test (QUADRILLION); dump_message_bytes (&mess, "test_required_sint64_quad"); mess.set_test (INT64_MAX); dump_message_bytes (&mess, "test_required_sint64_max"); } static void dump_test_required_sfixed64 (void) { TestMessRequiredSFixed64 mess; mess.set_test (INT64_MIN); dump_message_bytes (&mess, "test_required_sfixed64_min"); mess.set_test (-TRILLION); dump_message_bytes (&mess, "test_required_sfixed64_mtril"); mess.set_test (0); dump_message_bytes (&mess, "test_required_sfixed64_0"); mess.set_test (QUADRILLION); dump_message_bytes (&mess, "test_required_sfixed64_quad"); mess.set_test (INT64_MAX); dump_message_bytes (&mess, "test_required_sfixed64_max"); } static void dump_test_required_uint64 (void) { TestMessRequiredUInt64 mess; mess.set_test (0); dump_message_bytes (&mess, "test_required_uint64_0"); mess.set_test (THOUSAND); dump_message_bytes (&mess, "test_required_uint64_thou"); mess.set_test (MILLION); dump_message_bytes (&mess, "test_required_uint64_mill"); mess.set_test (BILLION); dump_message_bytes (&mess, "test_required_uint64_bill"); mess.set_test (TRILLION); dump_message_bytes (&mess, "test_required_uint64_tril"); mess.set_test (QUADRILLION); dump_message_bytes (&mess, "test_required_uint64_quad"); mess.set_test (QUINTILLION); dump_message_bytes (&mess, "test_required_uint64_quint"); mess.set_test (UINT64_MAX); dump_message_bytes (&mess, "test_required_uint64_max"); } static void dump_test_required_fixed64 (void) { TestMessRequiredFixed64 mess; mess.set_test (0); dump_message_bytes (&mess, "test_required_fixed64_0"); mess.set_test (THOUSAND); dump_message_bytes (&mess, "test_required_fixed64_thou"); mess.set_test (MILLION); dump_message_bytes (&mess, "test_required_fixed64_mill"); mess.set_test (BILLION); dump_message_bytes (&mess, "test_required_fixed64_bill"); mess.set_test (TRILLION); dump_message_bytes (&mess, "test_required_fixed64_tril"); mess.set_test (QUADRILLION); dump_message_bytes (&mess, "test_required_fixed64_quad"); mess.set_test (QUINTILLION); dump_message_bytes (&mess, "test_required_fixed64_quint"); mess.set_test (UINT64_MAX); dump_message_bytes (&mess, "test_required_fixed64_max"); } static void dump_test_required_float (void) { TestMessRequiredFloat mess; mess.set_test(-THOUSAND); dump_message_bytes (&mess, "test_required_float_mthou"); mess.set_test(0); dump_message_bytes (&mess, "test_required_float_0"); mess.set_test(420); dump_message_bytes (&mess, "test_required_float_420"); } static void dump_test_required_double (void) { TestMessRequiredDouble mess; mess.set_test(-THOUSAND); dump_message_bytes (&mess, "test_required_double_mthou"); mess.set_test(0); dump_message_bytes (&mess, "test_required_double_0"); mess.set_test(420); dump_message_bytes (&mess, "test_required_double_420"); } static void dump_test_required_bool (void) { TestMessRequiredBool mess; mess.set_test(false); dump_message_bytes (&mess, "test_required_bool_0"); mess.set_test(true); dump_message_bytes (&mess, "test_required_bool_1"); } static void dump_test_required_enum_small (void) { TestMessRequiredEnumSmall mess; mess.set_test(VALUE); dump_message_bytes (&mess, "test_required_enum_small_VALUE"); mess.set_test(OTHER_VALUE); dump_message_bytes (&mess, "test_required_enum_small_OTHER_VALUE"); } static void dump_test_required_enum (void) { TestMessRequiredEnum mess; mess.set_test (VALUE0); dump_message_bytes (&mess, "test_required_enum_0"); mess.set_test (VALUE1); dump_message_bytes (&mess, "test_required_enum_1"); mess.set_test (VALUE127); dump_message_bytes (&mess, "test_required_enum_127"); mess.set_test (VALUE128); dump_message_bytes (&mess, "test_required_enum_128"); mess.set_test (VALUE16383); dump_message_bytes (&mess, "test_required_enum_16383"); mess.set_test (VALUE16384); dump_message_bytes (&mess, "test_required_enum_16384"); mess.set_test (VALUE2097151); dump_message_bytes (&mess, "test_required_enum_2097151"); mess.set_test (VALUE2097152); dump_message_bytes (&mess, "test_required_enum_2097152"); mess.set_test (VALUE268435455); dump_message_bytes (&mess, "test_required_enum_268435455"); mess.set_test (VALUE268435456); dump_message_bytes (&mess, "test_required_enum_268435456"); } static void dump_test_required_string (void) { TestMessRequiredString mess; mess.set_test (""); dump_message_bytes(&mess, "test_required_string_empty"); mess.set_test ("hello"); dump_message_bytes(&mess, "test_required_string_hello"); mess.set_test ("two hundred xs follow: xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx"); dump_message_bytes(&mess, "test_required_string_long"); } static void dump_test_required_bytes (void) { TestMessRequiredBytes mess; mess.set_test (""); dump_message_bytes (&mess, "test_required_bytes_empty"); mess.set_test ("hello"); dump_message_bytes (&mess, "test_required_bytes_hello"); mess.set_test (std::string("\1") + '\0' + "\375\2\4"); dump_message_bytes (&mess, "test_required_bytes_random"); } static void dump_test_required_message (void) { TestMessRequiredMessage mess; mess.mutable_test()->set_test(0); dump_message_bytes (&mess, "test_required_submess_0"); mess.mutable_test()->set_test(42); dump_message_bytes (&mess, "test_required_submess_42"); } static void dump_test_optional_int32 (void) { TestMessOptional opt; opt.set_test_int32 (INT32_MIN); dump_message_bytes (&opt, "test_optional_int32_min"); opt.set_test_int32 (-1); dump_message_bytes (&opt, "test_optional_int32_m1"); opt.set_test_int32 (0); dump_message_bytes (&opt, "test_optional_int32_0"); opt.set_test_int32 (666); dump_message_bytes (&opt, "test_optional_int32_666"); opt.set_test_int32 (INT32_MAX); dump_message_bytes (&opt, "test_optional_int32_max"); } static void dump_test_optional_sint32 (void) { TestMessOptional opt; opt.set_test_sint32 (INT32_MIN); dump_message_bytes (&opt, "test_optional_sint32_min"); opt.set_test_sint32 (-1); dump_message_bytes (&opt, "test_optional_sint32_m1"); opt.set_test_sint32 (0); dump_message_bytes (&opt, "test_optional_sint32_0"); opt.set_test_sint32 (666); dump_message_bytes (&opt, "test_optional_sint32_666"); opt.set_test_sint32 (INT32_MAX); dump_message_bytes (&opt, "test_optional_sint32_max"); } static void dump_test_optional_sfixed32 (void) { TestMessOptional opt; opt.set_test_sfixed32 (INT32_MIN); dump_message_bytes (&opt, "test_optional_sfixed32_min"); opt.set_test_sfixed32 (-1); dump_message_bytes (&opt, "test_optional_sfixed32_m1"); opt.set_test_sfixed32 (0); dump_message_bytes (&opt, "test_optional_sfixed32_0"); opt.set_test_sfixed32 (666); dump_message_bytes (&opt, "test_optional_sfixed32_666"); opt.set_test_sfixed32 (INT32_MAX); dump_message_bytes (&opt, "test_optional_sfixed32_max"); } static void dump_test_optional_int64 (void) { TestMessOptional opt; opt.set_test_int64 (INT64_MIN); dump_message_bytes (&opt, "test_optional_int64_min"); opt.set_test_int64 (-1111111111LL); dump_message_bytes (&opt, "test_optional_int64_m1111111111LL"); opt.set_test_int64 (0); dump_message_bytes (&opt, "test_optional_int64_0"); opt.set_test_int64 (QUINTILLION); dump_message_bytes (&opt, "test_optional_int64_quintillion"); opt.set_test_int64 (INT64_MAX); dump_message_bytes (&opt, "test_optional_int64_max"); } static void dump_test_optional_sint64 (void) { TestMessOptional opt; opt.set_test_sint64 (INT64_MIN); dump_message_bytes (&opt, "test_optional_sint64_min"); opt.set_test_sint64 (-1111111111LL); dump_message_bytes (&opt, "test_optional_sint64_m1111111111LL"); opt.set_test_sint64 (0); dump_message_bytes (&opt, "test_optional_sint64_0"); opt.set_test_sint64 (QUINTILLION); dump_message_bytes (&opt, "test_optional_sint64_quintillion"); opt.set_test_sint64 (INT64_MAX); dump_message_bytes (&opt, "test_optional_sint64_max"); } static void dump_test_optional_sfixed64 (void) { TestMessOptional opt; opt.set_test_sfixed64 (INT64_MIN); dump_message_bytes (&opt, "test_optional_sfixed64_min"); opt.set_test_sfixed64 (-1111111111LL); dump_message_bytes (&opt, "test_optional_sfixed64_m1111111111LL"); opt.set_test_sfixed64 (0); dump_message_bytes (&opt, "test_optional_sfixed64_0"); opt.set_test_sfixed64 (QUINTILLION); dump_message_bytes (&opt, "test_optional_sfixed64_quintillion"); opt.set_test_sfixed64 (INT64_MAX); dump_message_bytes (&opt, "test_optional_sfixed64_max"); } static void dump_test_optional_uint32 (void) { TestMessOptional opt; opt.set_test_uint32(0); dump_message_bytes (&opt, "test_optional_uint32_0"); opt.set_test_uint32(669); dump_message_bytes (&opt, "test_optional_uint32_669"); opt.set_test_uint32(UINT32_MAX); dump_message_bytes (&opt, "test_optional_uint32_max"); } static void dump_test_optional_fixed32 (void) { TestMessOptional opt; opt.set_test_fixed32(0); dump_message_bytes (&opt, "test_optional_fixed32_0"); opt.set_test_fixed32(669); dump_message_bytes (&opt, "test_optional_fixed32_669"); opt.set_test_fixed32(UINT32_MAX); dump_message_bytes (&opt, "test_optional_fixed32_max"); } static void dump_test_optional_uint64 (void) { TestMessOptional opt; opt.set_test_uint64(0); dump_message_bytes (&opt, "test_optional_uint64_0"); opt.set_test_uint64(669669669669669ULL); dump_message_bytes (&opt, "test_optional_uint64_669669669669669"); opt.set_test_uint64(UINT64_MAX); dump_message_bytes (&opt, "test_optional_uint64_max"); } static void dump_test_optional_fixed64 (void) { TestMessOptional opt; opt.set_test_fixed64(0); dump_message_bytes (&opt, "test_optional_fixed64_0"); opt.set_test_fixed64(669669669669669ULL); dump_message_bytes (&opt, "test_optional_fixed64_669669669669669"); opt.set_test_fixed64(UINT64_MAX); dump_message_bytes (&opt, "test_optional_fixed64_max"); } static void dump_test_optional_float (void) { TestMessOptional opt; opt.set_test_float (-100); dump_message_bytes (&opt, "test_optional_float_m100"); opt.set_test_float (0); dump_message_bytes (&opt, "test_optional_float_0"); opt.set_test_float (141243); dump_message_bytes (&opt, "test_optional_float_141243"); } static void dump_test_optional_double (void) { TestMessOptional opt; opt.set_test_double (-100); dump_message_bytes (&opt, "test_optional_double_m100"); opt.set_test_double (0); dump_message_bytes (&opt, "test_optional_double_0"); opt.set_test_double (141243); dump_message_bytes (&opt, "test_optional_double_141243"); } static void dump_test_optional_bool (void) { TestMessOptional opt; opt.set_test_boolean (false); dump_message_bytes (&opt, "test_optional_bool_0"); opt.set_test_boolean (true); dump_message_bytes (&opt, "test_optional_bool_1"); } static void dump_test_optional_enum_small (void) { TestMessOptional opt; opt.set_test_enum_small (VALUE); dump_message_bytes (&opt, "test_optional_enum_small_0"); opt.set_test_enum_small (OTHER_VALUE); dump_message_bytes (&opt, "test_optional_enum_small_1"); } static void dump_test_optional_enum (void) { TestMessOptional opt; //for a in 0 1 127 128 16383 16384 2097151 2097152 268435455 268435456 ; do //echo ' opt.set_test_enum (VALUE'$a'); //dump_message_bytes (&opt, "test_optional_enum_'$a'");' //done opt.set_test_enum (VALUE0); dump_message_bytes (&opt, "test_optional_enum_0"); opt.set_test_enum (VALUE1); dump_message_bytes (&opt, "test_optional_enum_1"); opt.set_test_enum (VALUE127); dump_message_bytes (&opt, "test_optional_enum_127"); opt.set_test_enum (VALUE128); dump_message_bytes (&opt, "test_optional_enum_128"); opt.set_test_enum (VALUE16383); dump_message_bytes (&opt, "test_optional_enum_16383"); opt.set_test_enum (VALUE16384); dump_message_bytes (&opt, "test_optional_enum_16384"); opt.set_test_enum (VALUE2097151); dump_message_bytes (&opt, "test_optional_enum_2097151"); opt.set_test_enum (VALUE2097152); dump_message_bytes (&opt, "test_optional_enum_2097152"); opt.set_test_enum (VALUE268435455); dump_message_bytes (&opt, "test_optional_enum_268435455"); opt.set_test_enum (VALUE268435456); dump_message_bytes (&opt, "test_optional_enum_268435456"); } static void dump_test_optional_string (void) { TestMessOptional opt; opt.set_test_string (""); dump_message_bytes (&opt, "test_optional_string_empty"); opt.set_test_string ("hello"); dump_message_bytes (&opt, "test_optional_string_hello"); } static void dump_test_optional_bytes (void) { TestMessOptional opt; opt.set_test_bytes (""); dump_message_bytes (&opt, "test_optional_bytes_empty"); opt.set_test_bytes ("hello"); dump_message_bytes (&opt, "test_optional_bytes_hello"); opt.set_test_bytes (std::string("\1") + '\0' + "\375\2\4"); dump_message_bytes (&opt, "test_optional_bytes_random"); } static void dump_test_optional_message (void) { TestMessOptional opt; opt.mutable_test_message()->set_test(0); dump_message_bytes (&opt, "test_optional_submess_0"); opt.mutable_test_message()->set_test(42); dump_message_bytes (&opt, "test_optional_submess_42"); } #define DUMP_STATIC_ARRAY_GENERIC(member, static_array, output_array_name) \ do{ \ TestMess mess; \ for (unsigned i = 0; i < N_ELEMENTS (static_array); i++) \ mess.add_##member(static_array[i]); \ dump_message_bytes(&mess, output_array_name); \ }while(0) static void dump_test_repeated_int32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_int32, static_array, output_array_name) DUMP_STATIC_ARRAY (int32_arr0, "test_repeated_int32_arr0"); DUMP_STATIC_ARRAY (int32_arr1, "test_repeated_int32_arr1"); DUMP_STATIC_ARRAY (int32_arr_min_max, "test_repeated_int32_arr_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_sint32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_sint32, static_array, output_array_name) DUMP_STATIC_ARRAY (int32_arr0, "test_repeated_sint32_arr0"); DUMP_STATIC_ARRAY (int32_arr1, "test_repeated_sint32_arr1"); DUMP_STATIC_ARRAY (int32_arr_min_max, "test_repeated_sint32_arr_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_uint32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_uint32, static_array, output_array_name) DUMP_STATIC_ARRAY (uint32_roundnumbers, "test_repeated_uint32_roundnumbers"); DUMP_STATIC_ARRAY (uint32_0_max, "test_repeated_uint32_0_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_sfixed32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_sfixed32, static_array, output_array_name) DUMP_STATIC_ARRAY (int32_arr0, "test_repeated_sfixed32_arr0"); DUMP_STATIC_ARRAY (int32_arr1, "test_repeated_sfixed32_arr1"); DUMP_STATIC_ARRAY (int32_arr_min_max, "test_repeated_sfixed32_arr_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_fixed32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_fixed32, static_array, output_array_name) DUMP_STATIC_ARRAY (uint32_roundnumbers, "test_repeated_fixed32_roundnumbers"); DUMP_STATIC_ARRAY (uint32_0_max, "test_repeated_fixed32_0_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_int64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_int64, static_array, output_array_name) DUMP_STATIC_ARRAY (int64_roundnumbers, "test_repeated_int64_roundnumbers"); DUMP_STATIC_ARRAY (int64_min_max, "test_repeated_int64_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_sint64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_sint64, static_array, output_array_name) DUMP_STATIC_ARRAY (int64_roundnumbers, "test_repeated_sint64_roundnumbers"); DUMP_STATIC_ARRAY (int64_min_max, "test_repeated_sint64_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_sfixed64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_sfixed64, static_array, output_array_name) DUMP_STATIC_ARRAY (int64_roundnumbers, "test_repeated_sfixed64_roundnumbers"); DUMP_STATIC_ARRAY (int64_min_max, "test_repeated_sfixed64_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_uint64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC (test_uint64, static_array, output_array_name) DUMP_STATIC_ARRAY(uint64_roundnumbers, "test_repeated_uint64_roundnumbers"); DUMP_STATIC_ARRAY(uint64_0_1_max, "test_repeated_uint64_0_1_max"); DUMP_STATIC_ARRAY(uint64_random, "test_repeated_uint64_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_fixed64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_fixed64, static_array, output_array_name) DUMP_STATIC_ARRAY(uint64_roundnumbers, "test_repeated_fixed64_roundnumbers"); DUMP_STATIC_ARRAY(uint64_0_1_max, "test_repeated_fixed64_0_1_max"); DUMP_STATIC_ARRAY(uint64_random, "test_repeated_fixed64_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_float (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_float, static_array, output_array_name) DUMP_STATIC_ARRAY(float_random, "test_repeated_float_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_double (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_double, static_array, output_array_name) DUMP_STATIC_ARRAY(double_random, "test_repeated_double_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_boolean (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_boolean, static_array, output_array_name) DUMP_STATIC_ARRAY(boolean_0, "test_repeated_boolean_0"); DUMP_STATIC_ARRAY(boolean_1, "test_repeated_boolean_1"); DUMP_STATIC_ARRAY(boolean_random, "test_repeated_boolean_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_enum_small (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC (test_enum_small, static_array, output_array_name) DUMP_STATIC_ARRAY (enum_small_0, "test_repeated_enum_small_0"); DUMP_STATIC_ARRAY (enum_small_1, "test_repeated_enum_small_1"); DUMP_STATIC_ARRAY (enum_small_random, "test_repeated_enum_small_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_enum (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC (test_enum, static_array, output_array_name) DUMP_STATIC_ARRAY (enum_0, "test_repeated_enum_0"); DUMP_STATIC_ARRAY (enum_1, "test_repeated_enum_1"); DUMP_STATIC_ARRAY (enum_random, "test_repeated_enum_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_string (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC (test_string, static_array, output_array_name) DUMP_STATIC_ARRAY (repeated_strings_0, "test_repeated_strings_0"); DUMP_STATIC_ARRAY (repeated_strings_1, "test_repeated_strings_1"); DUMP_STATIC_ARRAY (repeated_strings_2, "test_repeated_strings_2"); DUMP_STATIC_ARRAY (repeated_strings_3, "test_repeated_strings_3"); #undef DUMP_STATIC_ARRAY } static void dump_test_repeated_bytes (void) { TestMess mess; mess.add_test_bytes(std::string("text")); mess.add_test_bytes(std::string("str\1\2\3\4\5") + '\0'); mess.add_test_bytes(std::string("gobble") + '\0' + "foo"); dump_message_bytes(&mess, "test_repeated_bytes_0"); } static void dump_test_repeated_SubMess (void) { TestMess mess; mess.add_test_message()->set_test(0); mess.add_test_message()->set_test(0); mess.add_test_message()->set_test(0); dump_message_bytes(&mess, "test_repeated_submess_0"); mess.clear_test_message(); mess.add_test_message()->set_test(42); mess.add_test_message()->set_test(-10000); mess.add_test_message()->set_test(667); dump_message_bytes(&mess, "test_repeated_submess_1"); } #undef DUMP_STATIC_ARRAY_GENERIC #define DUMP_STATIC_ARRAY_GENERIC(member, static_array, output_array_name) \ do{ \ TestMessPacked mess; \ for (unsigned i = 0; i < N_ELEMENTS (static_array); i++) \ mess.add_##member(static_array[i]); \ dump_message_bytes(&mess, output_array_name); \ }while(0) static void dump_test_packed_repeated_int32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_int32, static_array, output_array_name) DUMP_STATIC_ARRAY (int32_arr0, "test_packed_repeated_int32_arr0"); DUMP_STATIC_ARRAY (int32_arr1, "test_packed_repeated_int32_arr1"); DUMP_STATIC_ARRAY (int32_arr_min_max, "test_packed_repeated_int32_arr_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_sint32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_sint32, static_array, output_array_name) DUMP_STATIC_ARRAY (int32_arr0, "test_packed_repeated_sint32_arr0"); DUMP_STATIC_ARRAY (int32_arr1, "test_packed_repeated_sint32_arr1"); DUMP_STATIC_ARRAY (int32_arr_min_max, "test_packed_repeated_sint32_arr_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_uint32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_uint32, static_array, output_array_name) DUMP_STATIC_ARRAY (uint32_roundnumbers, "test_packed_repeated_uint32_roundnumbers"); DUMP_STATIC_ARRAY (uint32_0_max, "test_packed_repeated_uint32_0_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_sfixed32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_sfixed32, static_array, output_array_name) DUMP_STATIC_ARRAY (int32_arr0, "test_packed_repeated_sfixed32_arr0"); DUMP_STATIC_ARRAY (int32_arr1, "test_packed_repeated_sfixed32_arr1"); DUMP_STATIC_ARRAY (int32_arr_min_max, "test_packed_repeated_sfixed32_arr_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_fixed32 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_fixed32, static_array, output_array_name) DUMP_STATIC_ARRAY (uint32_roundnumbers, "test_packed_repeated_fixed32_roundnumbers"); DUMP_STATIC_ARRAY (uint32_0_max, "test_packed_repeated_fixed32_0_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_int64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_int64, static_array, output_array_name) DUMP_STATIC_ARRAY (int64_roundnumbers, "test_packed_repeated_int64_roundnumbers"); DUMP_STATIC_ARRAY (int64_min_max, "test_packed_repeated_int64_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_sint64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_sint64, static_array, output_array_name) DUMP_STATIC_ARRAY (int64_roundnumbers, "test_packed_repeated_sint64_roundnumbers"); DUMP_STATIC_ARRAY (int64_min_max, "test_packed_repeated_sint64_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_sfixed64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_sfixed64, static_array, output_array_name) DUMP_STATIC_ARRAY (int64_roundnumbers, "test_packed_repeated_sfixed64_roundnumbers"); DUMP_STATIC_ARRAY (int64_min_max, "test_packed_repeated_sfixed64_min_max"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_uint64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC (test_uint64, static_array, output_array_name) DUMP_STATIC_ARRAY(uint64_roundnumbers, "test_packed_repeated_uint64_roundnumbers"); DUMP_STATIC_ARRAY(uint64_0_1_max, "test_packed_repeated_uint64_0_1_max"); DUMP_STATIC_ARRAY(uint64_random, "test_packed_repeated_uint64_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_fixed64 (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_fixed64, static_array, output_array_name) DUMP_STATIC_ARRAY(uint64_roundnumbers, "test_packed_repeated_fixed64_roundnumbers"); DUMP_STATIC_ARRAY(uint64_0_1_max, "test_packed_repeated_fixed64_0_1_max"); DUMP_STATIC_ARRAY(uint64_random, "test_packed_repeated_fixed64_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_float (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_float, static_array, output_array_name) DUMP_STATIC_ARRAY(float_random, "test_packed_repeated_float_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_double (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_double, static_array, output_array_name) DUMP_STATIC_ARRAY(double_random, "test_packed_repeated_double_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_boolean (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC(test_boolean, static_array, output_array_name) DUMP_STATIC_ARRAY(boolean_0, "test_packed_repeated_boolean_0"); DUMP_STATIC_ARRAY(boolean_1, "test_packed_repeated_boolean_1"); DUMP_STATIC_ARRAY(boolean_random, "test_packed_repeated_boolean_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_enum_small (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC (test_enum_small, static_array, output_array_name) DUMP_STATIC_ARRAY (enum_small_0, "test_packed_repeated_enum_small_0"); DUMP_STATIC_ARRAY (enum_small_1, "test_packed_repeated_enum_small_1"); DUMP_STATIC_ARRAY (enum_small_random, "test_packed_repeated_enum_small_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_packed_repeated_enum (void) { #define DUMP_STATIC_ARRAY(static_array, output_array_name) \ DUMP_STATIC_ARRAY_GENERIC (test_enum, static_array, output_array_name) DUMP_STATIC_ARRAY (enum_0, "test_packed_repeated_enum_0"); DUMP_STATIC_ARRAY (enum_1, "test_packed_repeated_enum_1"); DUMP_STATIC_ARRAY (enum_random, "test_packed_repeated_enum_random"); #undef DUMP_STATIC_ARRAY } static void dump_test_unknown_fields (void) { EmptyMess mess; const google::protobuf::Message::Reflection *reflection = mess.GetReflection(); google::protobuf::UnknownFieldSet *fs = reflection->MutableUnknownFields(&mess); #if GOOGLE_PROTOBUF_VERSION >= 2001000 fs->AddVarint(5454, 255); fs->AddFixed32(5555, 260); #else google::protobuf::UnknownField *f; f = fs->AddField(5454); f->add_varint(255); f = fs->AddField(5555); f->add_fixed32(260); #endif dump_message_bytes (&mess, "test_unknown_fields_0"); fs->Clear(); #if GOOGLE_PROTOBUF_VERSION >= 2001000 fs->AddLengthDelimited(6666, "xxxxxxxx"); fs->AddFixed64(7777, 0x10101); #else f = fs->AddField(6666); f->add_length_delimited("xxxxxxxx"); f = fs->AddField(7777); f->add_fixed64(0x10101); #endif dump_message_bytes (&mess, "test_unknown_fields_1"); } int main() { dump_test_enum_small (); dump_test_enum_big (); dump_test_field_numbers (); dump_test_required_int32 (); dump_test_required_sint32 (); dump_test_required_sfixed32 (); dump_test_required_uint32 (); dump_test_required_fixed32 (); dump_test_required_int64 (); dump_test_required_sint64 (); dump_test_required_sfixed64 (); dump_test_required_uint64 (); dump_test_required_fixed64 (); dump_test_required_float (); dump_test_required_double (); dump_test_required_bool (); dump_test_required_enum_small (); dump_test_required_enum (); dump_test_required_string (); dump_test_required_bytes (); dump_test_required_message (); dump_test_optional_int32 (); dump_test_optional_sint32 (); dump_test_optional_sfixed32 (); dump_test_optional_int64 (); dump_test_optional_sint64 (); dump_test_optional_sfixed64 (); dump_test_optional_uint32 (); dump_test_optional_fixed32 (); dump_test_optional_uint64 (); dump_test_optional_fixed64 (); dump_test_optional_float (); dump_test_optional_double (); dump_test_optional_bool (); dump_test_optional_enum_small (); dump_test_optional_enum (); dump_test_optional_string (); dump_test_optional_bytes (); dump_test_optional_message (); dump_test_repeated_int32 (); dump_test_repeated_sint32 (); dump_test_repeated_uint32 (); dump_test_repeated_sfixed32 (); dump_test_repeated_fixed32 (); dump_test_repeated_int64 (); dump_test_repeated_sint64 (); dump_test_repeated_sfixed64 (); dump_test_repeated_uint64 (); dump_test_repeated_fixed64 (); dump_test_repeated_float (); dump_test_repeated_double (); dump_test_repeated_boolean (); dump_test_repeated_enum_small (); dump_test_repeated_enum (); dump_test_repeated_string (); dump_test_repeated_bytes (); dump_test_repeated_SubMess (); dump_test_packed_repeated_int32 (); dump_test_packed_repeated_sint32 (); dump_test_packed_repeated_uint32 (); dump_test_packed_repeated_sfixed32 (); dump_test_packed_repeated_fixed32 (); dump_test_packed_repeated_int64 (); dump_test_packed_repeated_sint64 (); dump_test_packed_repeated_sfixed64 (); dump_test_packed_repeated_uint64 (); dump_test_packed_repeated_fixed64 (); dump_test_packed_repeated_float (); dump_test_packed_repeated_double (); dump_test_packed_repeated_boolean (); dump_test_packed_repeated_enum_small (); dump_test_packed_repeated_enum (); dump_test_unknown_fields (); return 0; } protobuf-c-0.15/src/test/generated-code/0000777000175000017500000000000011536221215015136 500000000000000protobuf-c-0.15/src/test/generated-code/test-full.pb-c.c0000644000175000017500000037560511536220610017773 00000000000000/* Generated by the protocol buffer compiler. DO NOT EDIT! */ /* Do not generate deprecated warnings for self */ #ifndef PROTOBUF_C_NO_DEPRECATED #define PROTOBUF_C_NO_DEPRECATED #endif #include "test-full.pb-c.h" void foo__sub_mess__init (Foo__SubMess *message) { static Foo__SubMess init_value = FOO__SUB_MESS__INIT; *message = init_value; } size_t foo__sub_mess__get_packed_size (const Foo__SubMess *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__sub_mess__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__sub_mess__pack (const Foo__SubMess *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__sub_mess__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__sub_mess__pack_to_buffer (const Foo__SubMess *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__sub_mess__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__SubMess * foo__sub_mess__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__SubMess *) protobuf_c_message_unpack (&foo__sub_mess__descriptor, allocator, len, data); } void foo__sub_mess__free_unpacked (Foo__SubMess *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__sub_mess__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_field_no15__init (Foo__TestFieldNo15 *message) { static Foo__TestFieldNo15 init_value = FOO__TEST_FIELD_NO15__INIT; *message = init_value; } size_t foo__test_field_no15__get_packed_size (const Foo__TestFieldNo15 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no15__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_field_no15__pack (const Foo__TestFieldNo15 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no15__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_field_no15__pack_to_buffer (const Foo__TestFieldNo15 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no15__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestFieldNo15 * foo__test_field_no15__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestFieldNo15 *) protobuf_c_message_unpack (&foo__test_field_no15__descriptor, allocator, len, data); } void foo__test_field_no15__free_unpacked (Foo__TestFieldNo15 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no15__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_field_no16__init (Foo__TestFieldNo16 *message) { static Foo__TestFieldNo16 init_value = FOO__TEST_FIELD_NO16__INIT; *message = init_value; } size_t foo__test_field_no16__get_packed_size (const Foo__TestFieldNo16 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no16__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_field_no16__pack (const Foo__TestFieldNo16 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no16__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_field_no16__pack_to_buffer (const Foo__TestFieldNo16 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no16__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestFieldNo16 * foo__test_field_no16__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestFieldNo16 *) protobuf_c_message_unpack (&foo__test_field_no16__descriptor, allocator, len, data); } void foo__test_field_no16__free_unpacked (Foo__TestFieldNo16 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no16__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_field_no2047__init (Foo__TestFieldNo2047 *message) { static Foo__TestFieldNo2047 init_value = FOO__TEST_FIELD_NO2047__INIT; *message = init_value; } size_t foo__test_field_no2047__get_packed_size (const Foo__TestFieldNo2047 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no2047__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_field_no2047__pack (const Foo__TestFieldNo2047 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no2047__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_field_no2047__pack_to_buffer (const Foo__TestFieldNo2047 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no2047__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestFieldNo2047 * foo__test_field_no2047__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestFieldNo2047 *) protobuf_c_message_unpack (&foo__test_field_no2047__descriptor, allocator, len, data); } void foo__test_field_no2047__free_unpacked (Foo__TestFieldNo2047 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no2047__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_field_no2048__init (Foo__TestFieldNo2048 *message) { static Foo__TestFieldNo2048 init_value = FOO__TEST_FIELD_NO2048__INIT; *message = init_value; } size_t foo__test_field_no2048__get_packed_size (const Foo__TestFieldNo2048 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no2048__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_field_no2048__pack (const Foo__TestFieldNo2048 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no2048__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_field_no2048__pack_to_buffer (const Foo__TestFieldNo2048 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no2048__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestFieldNo2048 * foo__test_field_no2048__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestFieldNo2048 *) protobuf_c_message_unpack (&foo__test_field_no2048__descriptor, allocator, len, data); } void foo__test_field_no2048__free_unpacked (Foo__TestFieldNo2048 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no2048__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_field_no262143__init (Foo__TestFieldNo262143 *message) { static Foo__TestFieldNo262143 init_value = FOO__TEST_FIELD_NO262143__INIT; *message = init_value; } size_t foo__test_field_no262143__get_packed_size (const Foo__TestFieldNo262143 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no262143__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_field_no262143__pack (const Foo__TestFieldNo262143 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no262143__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_field_no262143__pack_to_buffer (const Foo__TestFieldNo262143 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no262143__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestFieldNo262143 * foo__test_field_no262143__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestFieldNo262143 *) protobuf_c_message_unpack (&foo__test_field_no262143__descriptor, allocator, len, data); } void foo__test_field_no262143__free_unpacked (Foo__TestFieldNo262143 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no262143__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_field_no262144__init (Foo__TestFieldNo262144 *message) { static Foo__TestFieldNo262144 init_value = FOO__TEST_FIELD_NO262144__INIT; *message = init_value; } size_t foo__test_field_no262144__get_packed_size (const Foo__TestFieldNo262144 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no262144__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_field_no262144__pack (const Foo__TestFieldNo262144 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no262144__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_field_no262144__pack_to_buffer (const Foo__TestFieldNo262144 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no262144__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestFieldNo262144 * foo__test_field_no262144__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestFieldNo262144 *) protobuf_c_message_unpack (&foo__test_field_no262144__descriptor, allocator, len, data); } void foo__test_field_no262144__free_unpacked (Foo__TestFieldNo262144 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no262144__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_field_no33554431__init (Foo__TestFieldNo33554431 *message) { static Foo__TestFieldNo33554431 init_value = FOO__TEST_FIELD_NO33554431__INIT; *message = init_value; } size_t foo__test_field_no33554431__get_packed_size (const Foo__TestFieldNo33554431 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no33554431__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_field_no33554431__pack (const Foo__TestFieldNo33554431 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no33554431__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_field_no33554431__pack_to_buffer (const Foo__TestFieldNo33554431 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no33554431__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestFieldNo33554431 * foo__test_field_no33554431__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestFieldNo33554431 *) protobuf_c_message_unpack (&foo__test_field_no33554431__descriptor, allocator, len, data); } void foo__test_field_no33554431__free_unpacked (Foo__TestFieldNo33554431 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no33554431__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_field_no33554432__init (Foo__TestFieldNo33554432 *message) { static Foo__TestFieldNo33554432 init_value = FOO__TEST_FIELD_NO33554432__INIT; *message = init_value; } size_t foo__test_field_no33554432__get_packed_size (const Foo__TestFieldNo33554432 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no33554432__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_field_no33554432__pack (const Foo__TestFieldNo33554432 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no33554432__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_field_no33554432__pack_to_buffer (const Foo__TestFieldNo33554432 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no33554432__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestFieldNo33554432 * foo__test_field_no33554432__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestFieldNo33554432 *) protobuf_c_message_unpack (&foo__test_field_no33554432__descriptor, allocator, len, data); } void foo__test_field_no33554432__free_unpacked (Foo__TestFieldNo33554432 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_field_no33554432__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess__init (Foo__TestMess *message) { static Foo__TestMess init_value = FOO__TEST_MESS__INIT; *message = init_value; } size_t foo__test_mess__get_packed_size (const Foo__TestMess *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess__pack (const Foo__TestMess *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess__pack_to_buffer (const Foo__TestMess *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMess * foo__test_mess__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMess *) protobuf_c_message_unpack (&foo__test_mess__descriptor, allocator, len, data); } void foo__test_mess__free_unpacked (Foo__TestMess *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_packed__init (Foo__TestMessPacked *message) { static Foo__TestMessPacked init_value = FOO__TEST_MESS_PACKED__INIT; *message = init_value; } size_t foo__test_mess_packed__get_packed_size (const Foo__TestMessPacked *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_packed__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_packed__pack (const Foo__TestMessPacked *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_packed__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_packed__pack_to_buffer (const Foo__TestMessPacked *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_packed__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessPacked * foo__test_mess_packed__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessPacked *) protobuf_c_message_unpack (&foo__test_mess_packed__descriptor, allocator, len, data); } void foo__test_mess_packed__free_unpacked (Foo__TestMessPacked *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_packed__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_optional__init (Foo__TestMessOptional *message) { static Foo__TestMessOptional init_value = FOO__TEST_MESS_OPTIONAL__INIT; *message = init_value; } size_t foo__test_mess_optional__get_packed_size (const Foo__TestMessOptional *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_optional__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_optional__pack (const Foo__TestMessOptional *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_optional__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_optional__pack_to_buffer (const Foo__TestMessOptional *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_optional__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessOptional * foo__test_mess_optional__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessOptional *) protobuf_c_message_unpack (&foo__test_mess_optional__descriptor, allocator, len, data); } void foo__test_mess_optional__free_unpacked (Foo__TestMessOptional *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_optional__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_int32__init (Foo__TestMessRequiredInt32 *message) { static Foo__TestMessRequiredInt32 init_value = FOO__TEST_MESS_REQUIRED_INT32__INIT; *message = init_value; } size_t foo__test_mess_required_int32__get_packed_size (const Foo__TestMessRequiredInt32 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_int32__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_int32__pack (const Foo__TestMessRequiredInt32 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_int32__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_int32__pack_to_buffer (const Foo__TestMessRequiredInt32 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_int32__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredInt32 * foo__test_mess_required_int32__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredInt32 *) protobuf_c_message_unpack (&foo__test_mess_required_int32__descriptor, allocator, len, data); } void foo__test_mess_required_int32__free_unpacked (Foo__TestMessRequiredInt32 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_int32__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_sint32__init (Foo__TestMessRequiredSInt32 *message) { static Foo__TestMessRequiredSInt32 init_value = FOO__TEST_MESS_REQUIRED_SINT32__INIT; *message = init_value; } size_t foo__test_mess_required_sint32__get_packed_size (const Foo__TestMessRequiredSInt32 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sint32__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_sint32__pack (const Foo__TestMessRequiredSInt32 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sint32__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_sint32__pack_to_buffer (const Foo__TestMessRequiredSInt32 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sint32__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredSInt32 * foo__test_mess_required_sint32__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredSInt32 *) protobuf_c_message_unpack (&foo__test_mess_required_sint32__descriptor, allocator, len, data); } void foo__test_mess_required_sint32__free_unpacked (Foo__TestMessRequiredSInt32 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sint32__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_sfixed32__init (Foo__TestMessRequiredSFixed32 *message) { static Foo__TestMessRequiredSFixed32 init_value = FOO__TEST_MESS_REQUIRED_SFIXED32__INIT; *message = init_value; } size_t foo__test_mess_required_sfixed32__get_packed_size (const Foo__TestMessRequiredSFixed32 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sfixed32__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_sfixed32__pack (const Foo__TestMessRequiredSFixed32 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sfixed32__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_sfixed32__pack_to_buffer (const Foo__TestMessRequiredSFixed32 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sfixed32__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredSFixed32 * foo__test_mess_required_sfixed32__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredSFixed32 *) protobuf_c_message_unpack (&foo__test_mess_required_sfixed32__descriptor, allocator, len, data); } void foo__test_mess_required_sfixed32__free_unpacked (Foo__TestMessRequiredSFixed32 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sfixed32__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_int64__init (Foo__TestMessRequiredInt64 *message) { static Foo__TestMessRequiredInt64 init_value = FOO__TEST_MESS_REQUIRED_INT64__INIT; *message = init_value; } size_t foo__test_mess_required_int64__get_packed_size (const Foo__TestMessRequiredInt64 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_int64__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_int64__pack (const Foo__TestMessRequiredInt64 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_int64__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_int64__pack_to_buffer (const Foo__TestMessRequiredInt64 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_int64__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredInt64 * foo__test_mess_required_int64__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredInt64 *) protobuf_c_message_unpack (&foo__test_mess_required_int64__descriptor, allocator, len, data); } void foo__test_mess_required_int64__free_unpacked (Foo__TestMessRequiredInt64 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_int64__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_sint64__init (Foo__TestMessRequiredSInt64 *message) { static Foo__TestMessRequiredSInt64 init_value = FOO__TEST_MESS_REQUIRED_SINT64__INIT; *message = init_value; } size_t foo__test_mess_required_sint64__get_packed_size (const Foo__TestMessRequiredSInt64 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sint64__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_sint64__pack (const Foo__TestMessRequiredSInt64 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sint64__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_sint64__pack_to_buffer (const Foo__TestMessRequiredSInt64 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sint64__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredSInt64 * foo__test_mess_required_sint64__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredSInt64 *) protobuf_c_message_unpack (&foo__test_mess_required_sint64__descriptor, allocator, len, data); } void foo__test_mess_required_sint64__free_unpacked (Foo__TestMessRequiredSInt64 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sint64__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_sfixed64__init (Foo__TestMessRequiredSFixed64 *message) { static Foo__TestMessRequiredSFixed64 init_value = FOO__TEST_MESS_REQUIRED_SFIXED64__INIT; *message = init_value; } size_t foo__test_mess_required_sfixed64__get_packed_size (const Foo__TestMessRequiredSFixed64 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sfixed64__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_sfixed64__pack (const Foo__TestMessRequiredSFixed64 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sfixed64__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_sfixed64__pack_to_buffer (const Foo__TestMessRequiredSFixed64 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sfixed64__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredSFixed64 * foo__test_mess_required_sfixed64__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredSFixed64 *) protobuf_c_message_unpack (&foo__test_mess_required_sfixed64__descriptor, allocator, len, data); } void foo__test_mess_required_sfixed64__free_unpacked (Foo__TestMessRequiredSFixed64 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_sfixed64__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_uint32__init (Foo__TestMessRequiredUInt32 *message) { static Foo__TestMessRequiredUInt32 init_value = FOO__TEST_MESS_REQUIRED_UINT32__INIT; *message = init_value; } size_t foo__test_mess_required_uint32__get_packed_size (const Foo__TestMessRequiredUInt32 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_uint32__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_uint32__pack (const Foo__TestMessRequiredUInt32 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_uint32__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_uint32__pack_to_buffer (const Foo__TestMessRequiredUInt32 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_uint32__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredUInt32 * foo__test_mess_required_uint32__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredUInt32 *) protobuf_c_message_unpack (&foo__test_mess_required_uint32__descriptor, allocator, len, data); } void foo__test_mess_required_uint32__free_unpacked (Foo__TestMessRequiredUInt32 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_uint32__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_fixed32__init (Foo__TestMessRequiredFixed32 *message) { static Foo__TestMessRequiredFixed32 init_value = FOO__TEST_MESS_REQUIRED_FIXED32__INIT; *message = init_value; } size_t foo__test_mess_required_fixed32__get_packed_size (const Foo__TestMessRequiredFixed32 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_fixed32__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_fixed32__pack (const Foo__TestMessRequiredFixed32 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_fixed32__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_fixed32__pack_to_buffer (const Foo__TestMessRequiredFixed32 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_fixed32__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredFixed32 * foo__test_mess_required_fixed32__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredFixed32 *) protobuf_c_message_unpack (&foo__test_mess_required_fixed32__descriptor, allocator, len, data); } void foo__test_mess_required_fixed32__free_unpacked (Foo__TestMessRequiredFixed32 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_fixed32__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_uint64__init (Foo__TestMessRequiredUInt64 *message) { static Foo__TestMessRequiredUInt64 init_value = FOO__TEST_MESS_REQUIRED_UINT64__INIT; *message = init_value; } size_t foo__test_mess_required_uint64__get_packed_size (const Foo__TestMessRequiredUInt64 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_uint64__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_uint64__pack (const Foo__TestMessRequiredUInt64 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_uint64__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_uint64__pack_to_buffer (const Foo__TestMessRequiredUInt64 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_uint64__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredUInt64 * foo__test_mess_required_uint64__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredUInt64 *) protobuf_c_message_unpack (&foo__test_mess_required_uint64__descriptor, allocator, len, data); } void foo__test_mess_required_uint64__free_unpacked (Foo__TestMessRequiredUInt64 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_uint64__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_fixed64__init (Foo__TestMessRequiredFixed64 *message) { static Foo__TestMessRequiredFixed64 init_value = FOO__TEST_MESS_REQUIRED_FIXED64__INIT; *message = init_value; } size_t foo__test_mess_required_fixed64__get_packed_size (const Foo__TestMessRequiredFixed64 *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_fixed64__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_fixed64__pack (const Foo__TestMessRequiredFixed64 *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_fixed64__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_fixed64__pack_to_buffer (const Foo__TestMessRequiredFixed64 *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_fixed64__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredFixed64 * foo__test_mess_required_fixed64__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredFixed64 *) protobuf_c_message_unpack (&foo__test_mess_required_fixed64__descriptor, allocator, len, data); } void foo__test_mess_required_fixed64__free_unpacked (Foo__TestMessRequiredFixed64 *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_fixed64__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_float__init (Foo__TestMessRequiredFloat *message) { static Foo__TestMessRequiredFloat init_value = FOO__TEST_MESS_REQUIRED_FLOAT__INIT; *message = init_value; } size_t foo__test_mess_required_float__get_packed_size (const Foo__TestMessRequiredFloat *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_float__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_float__pack (const Foo__TestMessRequiredFloat *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_float__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_float__pack_to_buffer (const Foo__TestMessRequiredFloat *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_float__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredFloat * foo__test_mess_required_float__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredFloat *) protobuf_c_message_unpack (&foo__test_mess_required_float__descriptor, allocator, len, data); } void foo__test_mess_required_float__free_unpacked (Foo__TestMessRequiredFloat *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_float__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_double__init (Foo__TestMessRequiredDouble *message) { static Foo__TestMessRequiredDouble init_value = FOO__TEST_MESS_REQUIRED_DOUBLE__INIT; *message = init_value; } size_t foo__test_mess_required_double__get_packed_size (const Foo__TestMessRequiredDouble *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_double__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_double__pack (const Foo__TestMessRequiredDouble *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_double__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_double__pack_to_buffer (const Foo__TestMessRequiredDouble *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_double__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredDouble * foo__test_mess_required_double__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredDouble *) protobuf_c_message_unpack (&foo__test_mess_required_double__descriptor, allocator, len, data); } void foo__test_mess_required_double__free_unpacked (Foo__TestMessRequiredDouble *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_double__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_bool__init (Foo__TestMessRequiredBool *message) { static Foo__TestMessRequiredBool init_value = FOO__TEST_MESS_REQUIRED_BOOL__INIT; *message = init_value; } size_t foo__test_mess_required_bool__get_packed_size (const Foo__TestMessRequiredBool *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_bool__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_bool__pack (const Foo__TestMessRequiredBool *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_bool__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_bool__pack_to_buffer (const Foo__TestMessRequiredBool *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_bool__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredBool * foo__test_mess_required_bool__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredBool *) protobuf_c_message_unpack (&foo__test_mess_required_bool__descriptor, allocator, len, data); } void foo__test_mess_required_bool__free_unpacked (Foo__TestMessRequiredBool *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_bool__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_enum__init (Foo__TestMessRequiredEnum *message) { static Foo__TestMessRequiredEnum init_value = FOO__TEST_MESS_REQUIRED_ENUM__INIT; *message = init_value; } size_t foo__test_mess_required_enum__get_packed_size (const Foo__TestMessRequiredEnum *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_enum__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_enum__pack (const Foo__TestMessRequiredEnum *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_enum__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_enum__pack_to_buffer (const Foo__TestMessRequiredEnum *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_enum__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredEnum * foo__test_mess_required_enum__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredEnum *) protobuf_c_message_unpack (&foo__test_mess_required_enum__descriptor, allocator, len, data); } void foo__test_mess_required_enum__free_unpacked (Foo__TestMessRequiredEnum *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_enum__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_enum_small__init (Foo__TestMessRequiredEnumSmall *message) { static Foo__TestMessRequiredEnumSmall init_value = FOO__TEST_MESS_REQUIRED_ENUM_SMALL__INIT; *message = init_value; } size_t foo__test_mess_required_enum_small__get_packed_size (const Foo__TestMessRequiredEnumSmall *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_enum_small__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_enum_small__pack (const Foo__TestMessRequiredEnumSmall *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_enum_small__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_enum_small__pack_to_buffer (const Foo__TestMessRequiredEnumSmall *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_enum_small__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredEnumSmall * foo__test_mess_required_enum_small__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredEnumSmall *) protobuf_c_message_unpack (&foo__test_mess_required_enum_small__descriptor, allocator, len, data); } void foo__test_mess_required_enum_small__free_unpacked (Foo__TestMessRequiredEnumSmall *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_enum_small__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_string__init (Foo__TestMessRequiredString *message) { static Foo__TestMessRequiredString init_value = FOO__TEST_MESS_REQUIRED_STRING__INIT; *message = init_value; } size_t foo__test_mess_required_string__get_packed_size (const Foo__TestMessRequiredString *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_string__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_string__pack (const Foo__TestMessRequiredString *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_string__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_string__pack_to_buffer (const Foo__TestMessRequiredString *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_string__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredString * foo__test_mess_required_string__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredString *) protobuf_c_message_unpack (&foo__test_mess_required_string__descriptor, allocator, len, data); } void foo__test_mess_required_string__free_unpacked (Foo__TestMessRequiredString *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_string__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_bytes__init (Foo__TestMessRequiredBytes *message) { static Foo__TestMessRequiredBytes init_value = FOO__TEST_MESS_REQUIRED_BYTES__INIT; *message = init_value; } size_t foo__test_mess_required_bytes__get_packed_size (const Foo__TestMessRequiredBytes *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_bytes__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_bytes__pack (const Foo__TestMessRequiredBytes *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_bytes__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_bytes__pack_to_buffer (const Foo__TestMessRequiredBytes *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_bytes__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredBytes * foo__test_mess_required_bytes__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredBytes *) protobuf_c_message_unpack (&foo__test_mess_required_bytes__descriptor, allocator, len, data); } void foo__test_mess_required_bytes__free_unpacked (Foo__TestMessRequiredBytes *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_bytes__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__test_mess_required_message__init (Foo__TestMessRequiredMessage *message) { static Foo__TestMessRequiredMessage init_value = FOO__TEST_MESS_REQUIRED_MESSAGE__INIT; *message = init_value; } size_t foo__test_mess_required_message__get_packed_size (const Foo__TestMessRequiredMessage *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_message__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__test_mess_required_message__pack (const Foo__TestMessRequiredMessage *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_message__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__test_mess_required_message__pack_to_buffer (const Foo__TestMessRequiredMessage *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_message__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__TestMessRequiredMessage * foo__test_mess_required_message__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__TestMessRequiredMessage *) protobuf_c_message_unpack (&foo__test_mess_required_message__descriptor, allocator, len, data); } void foo__test_mess_required_message__free_unpacked (Foo__TestMessRequiredMessage *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__test_mess_required_message__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__empty_mess__init (Foo__EmptyMess *message) { static Foo__EmptyMess init_value = FOO__EMPTY_MESS__INIT; *message = init_value; } size_t foo__empty_mess__get_packed_size (const Foo__EmptyMess *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__empty_mess__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__empty_mess__pack (const Foo__EmptyMess *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__empty_mess__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__empty_mess__pack_to_buffer (const Foo__EmptyMess *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__empty_mess__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__EmptyMess * foo__empty_mess__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__EmptyMess *) protobuf_c_message_unpack (&foo__empty_mess__descriptor, allocator, len, data); } void foo__empty_mess__free_unpacked (Foo__EmptyMess *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__empty_mess__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__default_required_values__init (Foo__DefaultRequiredValues *message) { static Foo__DefaultRequiredValues init_value = FOO__DEFAULT_REQUIRED_VALUES__INIT; *message = init_value; } size_t foo__default_required_values__get_packed_size (const Foo__DefaultRequiredValues *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__default_required_values__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__default_required_values__pack (const Foo__DefaultRequiredValues *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__default_required_values__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__default_required_values__pack_to_buffer (const Foo__DefaultRequiredValues *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__default_required_values__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__DefaultRequiredValues * foo__default_required_values__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__DefaultRequiredValues *) protobuf_c_message_unpack (&foo__default_required_values__descriptor, allocator, len, data); } void foo__default_required_values__free_unpacked (Foo__DefaultRequiredValues *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__default_required_values__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__default_optional_values__init (Foo__DefaultOptionalValues *message) { static Foo__DefaultOptionalValues init_value = FOO__DEFAULT_OPTIONAL_VALUES__INIT; *message = init_value; } size_t foo__default_optional_values__get_packed_size (const Foo__DefaultOptionalValues *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__default_optional_values__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__default_optional_values__pack (const Foo__DefaultOptionalValues *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__default_optional_values__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__default_optional_values__pack_to_buffer (const Foo__DefaultOptionalValues *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__default_optional_values__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__DefaultOptionalValues * foo__default_optional_values__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__DefaultOptionalValues *) protobuf_c_message_unpack (&foo__default_optional_values__descriptor, allocator, len, data); } void foo__default_optional_values__free_unpacked (Foo__DefaultOptionalValues *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__default_optional_values__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__alloc_values__init (Foo__AllocValues *message) { static Foo__AllocValues init_value = FOO__ALLOC_VALUES__INIT; *message = init_value; } size_t foo__alloc_values__get_packed_size (const Foo__AllocValues *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__alloc_values__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__alloc_values__pack (const Foo__AllocValues *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__alloc_values__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__alloc_values__pack_to_buffer (const Foo__AllocValues *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__alloc_values__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__AllocValues * foo__alloc_values__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__AllocValues *) protobuf_c_message_unpack (&foo__alloc_values__descriptor, allocator, len, data); } void foo__alloc_values__free_unpacked (Foo__AllocValues *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__alloc_values__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } static const ProtobufCFieldDescriptor foo__sub_mess__field_descriptors[1] = { { "test", 4, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_INT32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__SubMess, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__sub_mess__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__sub_mess__number_ranges[1 + 1] = { { 4, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__sub_mess__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.SubMess", "SubMess", "Foo__SubMess", "foo", sizeof(Foo__SubMess), 1, foo__sub_mess__field_descriptors, foo__sub_mess__field_indices_by_name, 1, foo__sub_mess__number_ranges, (ProtobufCMessageInit) foo__sub_mess__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_field_no15__field_descriptors[1] = { { "test", 15, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestFieldNo15, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_field_no15__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_field_no15__number_ranges[1 + 1] = { { 15, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_field_no15__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestFieldNo15", "TestFieldNo15", "Foo__TestFieldNo15", "foo", sizeof(Foo__TestFieldNo15), 1, foo__test_field_no15__field_descriptors, foo__test_field_no15__field_indices_by_name, 1, foo__test_field_no15__number_ranges, (ProtobufCMessageInit) foo__test_field_no15__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_field_no16__field_descriptors[1] = { { "test", 16, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestFieldNo16, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_field_no16__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_field_no16__number_ranges[1 + 1] = { { 16, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_field_no16__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestFieldNo16", "TestFieldNo16", "Foo__TestFieldNo16", "foo", sizeof(Foo__TestFieldNo16), 1, foo__test_field_no16__field_descriptors, foo__test_field_no16__field_indices_by_name, 1, foo__test_field_no16__number_ranges, (ProtobufCMessageInit) foo__test_field_no16__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_field_no2047__field_descriptors[1] = { { "test", 2047, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestFieldNo2047, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_field_no2047__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_field_no2047__number_ranges[1 + 1] = { { 2047, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_field_no2047__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestFieldNo2047", "TestFieldNo2047", "Foo__TestFieldNo2047", "foo", sizeof(Foo__TestFieldNo2047), 1, foo__test_field_no2047__field_descriptors, foo__test_field_no2047__field_indices_by_name, 1, foo__test_field_no2047__number_ranges, (ProtobufCMessageInit) foo__test_field_no2047__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_field_no2048__field_descriptors[1] = { { "test", 2048, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestFieldNo2048, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_field_no2048__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_field_no2048__number_ranges[1 + 1] = { { 2048, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_field_no2048__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestFieldNo2048", "TestFieldNo2048", "Foo__TestFieldNo2048", "foo", sizeof(Foo__TestFieldNo2048), 1, foo__test_field_no2048__field_descriptors, foo__test_field_no2048__field_indices_by_name, 1, foo__test_field_no2048__number_ranges, (ProtobufCMessageInit) foo__test_field_no2048__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_field_no262143__field_descriptors[1] = { { "test", 262143, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestFieldNo262143, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_field_no262143__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_field_no262143__number_ranges[1 + 1] = { { 262143, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_field_no262143__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestFieldNo262143", "TestFieldNo262143", "Foo__TestFieldNo262143", "foo", sizeof(Foo__TestFieldNo262143), 1, foo__test_field_no262143__field_descriptors, foo__test_field_no262143__field_indices_by_name, 1, foo__test_field_no262143__number_ranges, (ProtobufCMessageInit) foo__test_field_no262143__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_field_no262144__field_descriptors[1] = { { "test", 262144, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestFieldNo262144, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_field_no262144__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_field_no262144__number_ranges[1 + 1] = { { 262144, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_field_no262144__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestFieldNo262144", "TestFieldNo262144", "Foo__TestFieldNo262144", "foo", sizeof(Foo__TestFieldNo262144), 1, foo__test_field_no262144__field_descriptors, foo__test_field_no262144__field_indices_by_name, 1, foo__test_field_no262144__number_ranges, (ProtobufCMessageInit) foo__test_field_no262144__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_field_no33554431__field_descriptors[1] = { { "test", 33554431, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestFieldNo33554431, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_field_no33554431__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_field_no33554431__number_ranges[1 + 1] = { { 33554431, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_field_no33554431__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestFieldNo33554431", "TestFieldNo33554431", "Foo__TestFieldNo33554431", "foo", sizeof(Foo__TestFieldNo33554431), 1, foo__test_field_no33554431__field_descriptors, foo__test_field_no33554431__field_indices_by_name, 1, foo__test_field_no33554431__number_ranges, (ProtobufCMessageInit) foo__test_field_no33554431__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_field_no33554432__field_descriptors[1] = { { "test", 33554432, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestFieldNo33554432, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_field_no33554432__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_field_no33554432__number_ranges[1 + 1] = { { 33554432, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_field_no33554432__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestFieldNo33554432", "TestFieldNo33554432", "Foo__TestFieldNo33554432", "foo", sizeof(Foo__TestFieldNo33554432), 1, foo__test_field_no33554432__field_descriptors, foo__test_field_no33554432__field_indices_by_name, 1, foo__test_field_no33554432__number_ranges, (ProtobufCMessageInit) foo__test_field_no33554432__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess__field_descriptors[18] = { { "test_int32", 1, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_INT32, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_int32), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_int32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sint32", 2, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_SINT32, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_sint32), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_sint32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sfixed32", 3, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_SFIXED32, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_sfixed32), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_sfixed32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_int64", 4, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_INT64, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_int64), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_int64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sint64", 5, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_SINT64, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_sint64), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_sint64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sfixed64", 6, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_SFIXED64, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_sfixed64), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_sfixed64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_uint32", 7, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_UINT32, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_uint32), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_uint32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_fixed32", 8, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_FIXED32, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_fixed32), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_fixed32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_uint64", 9, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_UINT64, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_uint64), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_uint64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_fixed64", 10, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_FIXED64, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_fixed64), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_fixed64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_float", 11, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_FLOAT, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_float), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_float), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_double", 12, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_DOUBLE, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_double), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_double), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_boolean", 13, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_BOOL, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_boolean), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_boolean), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_enum_small", 14, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_ENUM, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_enum_small), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_enum_small), &foo__test_enum_small__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_enum", 15, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_ENUM, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_enum), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_enum), &foo__test_enum__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_string", 16, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_STRING, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_string), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_string), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_bytes", 17, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_BYTES, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_bytes), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_bytes), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_message", 18, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, PROTOBUF_C_OFFSETOF(Foo__TestMess, n_test_message), PROTOBUF_C_OFFSETOF(Foo__TestMess, test_message), &foo__sub_mess__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess__field_indices_by_name[] = { 12, /* field[12] = test_boolean */ 16, /* field[16] = test_bytes */ 11, /* field[11] = test_double */ 14, /* field[14] = test_enum */ 13, /* field[13] = test_enum_small */ 7, /* field[7] = test_fixed32 */ 9, /* field[9] = test_fixed64 */ 10, /* field[10] = test_float */ 0, /* field[0] = test_int32 */ 3, /* field[3] = test_int64 */ 17, /* field[17] = test_message */ 2, /* field[2] = test_sfixed32 */ 5, /* field[5] = test_sfixed64 */ 1, /* field[1] = test_sint32 */ 4, /* field[4] = test_sint64 */ 15, /* field[15] = test_string */ 6, /* field[6] = test_uint32 */ 8, /* field[8] = test_uint64 */ }; static const ProtobufCIntRange foo__test_mess__number_ranges[1 + 1] = { { 1, 0 }, { 0, 18 } }; const ProtobufCMessageDescriptor foo__test_mess__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMess", "TestMess", "Foo__TestMess", "foo", sizeof(Foo__TestMess), 18, foo__test_mess__field_descriptors, foo__test_mess__field_indices_by_name, 1, foo__test_mess__number_ranges, (ProtobufCMessageInit) foo__test_mess__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_packed__field_descriptors[15] = { { "test_int32", 1, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_INT32, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_int32), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_int32), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sint32", 2, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_SINT32, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_sint32), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_sint32), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sfixed32", 3, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_SFIXED32, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_sfixed32), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_sfixed32), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_int64", 4, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_INT64, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_int64), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_int64), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sint64", 5, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_SINT64, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_sint64), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_sint64), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sfixed64", 6, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_SFIXED64, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_sfixed64), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_sfixed64), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_uint32", 7, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_UINT32, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_uint32), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_uint32), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_fixed32", 8, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_FIXED32, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_fixed32), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_fixed32), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_uint64", 9, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_UINT64, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_uint64), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_uint64), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_fixed64", 10, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_FIXED64, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_fixed64), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_fixed64), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_float", 11, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_FLOAT, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_float), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_float), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_double", 12, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_DOUBLE, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_double), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_double), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_boolean", 13, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_BOOL, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_boolean), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_boolean), NULL, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_enum_small", 14, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_ENUM, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_enum_small), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_enum_small), &foo__test_enum_small__descriptor, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_enum", 15, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_ENUM, PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, n_test_enum), PROTOBUF_C_OFFSETOF(Foo__TestMessPacked, test_enum), &foo__test_enum__descriptor, NULL, 1, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_packed__field_indices_by_name[] = { 12, /* field[12] = test_boolean */ 11, /* field[11] = test_double */ 14, /* field[14] = test_enum */ 13, /* field[13] = test_enum_small */ 7, /* field[7] = test_fixed32 */ 9, /* field[9] = test_fixed64 */ 10, /* field[10] = test_float */ 0, /* field[0] = test_int32 */ 3, /* field[3] = test_int64 */ 2, /* field[2] = test_sfixed32 */ 5, /* field[5] = test_sfixed64 */ 1, /* field[1] = test_sint32 */ 4, /* field[4] = test_sint64 */ 6, /* field[6] = test_uint32 */ 8, /* field[8] = test_uint64 */ }; static const ProtobufCIntRange foo__test_mess_packed__number_ranges[1 + 1] = { { 1, 0 }, { 0, 15 } }; const ProtobufCMessageDescriptor foo__test_mess_packed__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessPacked", "TestMessPacked", "Foo__TestMessPacked", "foo", sizeof(Foo__TestMessPacked), 15, foo__test_mess_packed__field_descriptors, foo__test_mess_packed__field_indices_by_name, 1, foo__test_mess_packed__number_ranges, (ProtobufCMessageInit) foo__test_mess_packed__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_optional__field_descriptors[18] = { { "test_int32", 1, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_INT32, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_int32), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_int32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sint32", 2, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_SINT32, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_sint32), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_sint32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sfixed32", 3, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_SFIXED32, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_sfixed32), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_sfixed32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_int64", 4, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_INT64, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_int64), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_int64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sint64", 5, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_SINT64, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_sint64), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_sint64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_sfixed64", 6, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_SFIXED64, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_sfixed64), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_sfixed64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_uint32", 7, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_UINT32, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_uint32), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_uint32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_fixed32", 8, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_FIXED32, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_fixed32), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_fixed32), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_uint64", 9, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_UINT64, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_uint64), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_uint64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_fixed64", 10, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_FIXED64, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_fixed64), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_fixed64), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_float", 11, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_FLOAT, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_float), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_float), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_double", 12, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_DOUBLE, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_double), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_double), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_boolean", 13, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_BOOL, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_boolean), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_boolean), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_enum_small", 14, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_ENUM, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_enum_small), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_enum_small), &foo__test_enum_small__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_enum", 15, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_ENUM, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_enum), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_enum), &foo__test_enum__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_string", 16, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_string), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_bytes", 17, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_BYTES, PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, has_test_bytes), PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_bytes), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "test_message", 18, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_MESSAGE, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessOptional, test_message), &foo__sub_mess__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_optional__field_indices_by_name[] = { 12, /* field[12] = test_boolean */ 16, /* field[16] = test_bytes */ 11, /* field[11] = test_double */ 14, /* field[14] = test_enum */ 13, /* field[13] = test_enum_small */ 7, /* field[7] = test_fixed32 */ 9, /* field[9] = test_fixed64 */ 10, /* field[10] = test_float */ 0, /* field[0] = test_int32 */ 3, /* field[3] = test_int64 */ 17, /* field[17] = test_message */ 2, /* field[2] = test_sfixed32 */ 5, /* field[5] = test_sfixed64 */ 1, /* field[1] = test_sint32 */ 4, /* field[4] = test_sint64 */ 15, /* field[15] = test_string */ 6, /* field[6] = test_uint32 */ 8, /* field[8] = test_uint64 */ }; static const ProtobufCIntRange foo__test_mess_optional__number_ranges[1 + 1] = { { 1, 0 }, { 0, 18 } }; const ProtobufCMessageDescriptor foo__test_mess_optional__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessOptional", "TestMessOptional", "Foo__TestMessOptional", "foo", sizeof(Foo__TestMessOptional), 18, foo__test_mess_optional__field_descriptors, foo__test_mess_optional__field_indices_by_name, 1, foo__test_mess_optional__number_ranges, (ProtobufCMessageInit) foo__test_mess_optional__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_int32__field_descriptors[1] = { { "test", 42, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_INT32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredInt32, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_int32__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_int32__number_ranges[1 + 1] = { { 42, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_int32__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredInt32", "TestMessRequiredInt32", "Foo__TestMessRequiredInt32", "foo", sizeof(Foo__TestMessRequiredInt32), 1, foo__test_mess_required_int32__field_descriptors, foo__test_mess_required_int32__field_indices_by_name, 1, foo__test_mess_required_int32__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_int32__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_sint32__field_descriptors[1] = { { "test", 43, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_SINT32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredSInt32, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_sint32__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_sint32__number_ranges[1 + 1] = { { 43, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_sint32__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredSInt32", "TestMessRequiredSInt32", "Foo__TestMessRequiredSInt32", "foo", sizeof(Foo__TestMessRequiredSInt32), 1, foo__test_mess_required_sint32__field_descriptors, foo__test_mess_required_sint32__field_indices_by_name, 1, foo__test_mess_required_sint32__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_sint32__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_sfixed32__field_descriptors[1] = { { "test", 100, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_SFIXED32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredSFixed32, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_sfixed32__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_sfixed32__number_ranges[1 + 1] = { { 100, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_sfixed32__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredSFixed32", "TestMessRequiredSFixed32", "Foo__TestMessRequiredSFixed32", "foo", sizeof(Foo__TestMessRequiredSFixed32), 1, foo__test_mess_required_sfixed32__field_descriptors, foo__test_mess_required_sfixed32__field_indices_by_name, 1, foo__test_mess_required_sfixed32__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_sfixed32__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_int64__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_INT64, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredInt64, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_int64__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_int64__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_int64__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredInt64", "TestMessRequiredInt64", "Foo__TestMessRequiredInt64", "foo", sizeof(Foo__TestMessRequiredInt64), 1, foo__test_mess_required_int64__field_descriptors, foo__test_mess_required_int64__field_indices_by_name, 1, foo__test_mess_required_int64__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_int64__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_sint64__field_descriptors[1] = { { "test", 11, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_SINT64, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredSInt64, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_sint64__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_sint64__number_ranges[1 + 1] = { { 11, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_sint64__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredSInt64", "TestMessRequiredSInt64", "Foo__TestMessRequiredSInt64", "foo", sizeof(Foo__TestMessRequiredSInt64), 1, foo__test_mess_required_sint64__field_descriptors, foo__test_mess_required_sint64__field_indices_by_name, 1, foo__test_mess_required_sint64__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_sint64__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_sfixed64__field_descriptors[1] = { { "test", 12, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_SFIXED64, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredSFixed64, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_sfixed64__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_sfixed64__number_ranges[1 + 1] = { { 12, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_sfixed64__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredSFixed64", "TestMessRequiredSFixed64", "Foo__TestMessRequiredSFixed64", "foo", sizeof(Foo__TestMessRequiredSFixed64), 1, foo__test_mess_required_sfixed64__field_descriptors, foo__test_mess_required_sfixed64__field_indices_by_name, 1, foo__test_mess_required_sfixed64__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_sfixed64__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_uint32__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_UINT32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredUInt32, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_uint32__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_uint32__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_uint32__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredUInt32", "TestMessRequiredUInt32", "Foo__TestMessRequiredUInt32", "foo", sizeof(Foo__TestMessRequiredUInt32), 1, foo__test_mess_required_uint32__field_descriptors, foo__test_mess_required_uint32__field_indices_by_name, 1, foo__test_mess_required_uint32__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_uint32__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_fixed32__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_FIXED32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredFixed32, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_fixed32__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_fixed32__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_fixed32__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredFixed32", "TestMessRequiredFixed32", "Foo__TestMessRequiredFixed32", "foo", sizeof(Foo__TestMessRequiredFixed32), 1, foo__test_mess_required_fixed32__field_descriptors, foo__test_mess_required_fixed32__field_indices_by_name, 1, foo__test_mess_required_fixed32__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_fixed32__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_uint64__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_UINT64, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredUInt64, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_uint64__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_uint64__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_uint64__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredUInt64", "TestMessRequiredUInt64", "Foo__TestMessRequiredUInt64", "foo", sizeof(Foo__TestMessRequiredUInt64), 1, foo__test_mess_required_uint64__field_descriptors, foo__test_mess_required_uint64__field_indices_by_name, 1, foo__test_mess_required_uint64__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_uint64__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_fixed64__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_FIXED64, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredFixed64, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_fixed64__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_fixed64__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_fixed64__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredFixed64", "TestMessRequiredFixed64", "Foo__TestMessRequiredFixed64", "foo", sizeof(Foo__TestMessRequiredFixed64), 1, foo__test_mess_required_fixed64__field_descriptors, foo__test_mess_required_fixed64__field_indices_by_name, 1, foo__test_mess_required_fixed64__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_fixed64__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_float__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_FLOAT, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredFloat, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_float__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_float__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_float__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredFloat", "TestMessRequiredFloat", "Foo__TestMessRequiredFloat", "foo", sizeof(Foo__TestMessRequiredFloat), 1, foo__test_mess_required_float__field_descriptors, foo__test_mess_required_float__field_indices_by_name, 1, foo__test_mess_required_float__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_float__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_double__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredDouble, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_double__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_double__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_double__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredDouble", "TestMessRequiredDouble", "Foo__TestMessRequiredDouble", "foo", sizeof(Foo__TestMessRequiredDouble), 1, foo__test_mess_required_double__field_descriptors, foo__test_mess_required_double__field_indices_by_name, 1, foo__test_mess_required_double__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_double__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_bool__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_BOOL, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredBool, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_bool__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_bool__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_bool__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredBool", "TestMessRequiredBool", "Foo__TestMessRequiredBool", "foo", sizeof(Foo__TestMessRequiredBool), 1, foo__test_mess_required_bool__field_descriptors, foo__test_mess_required_bool__field_indices_by_name, 1, foo__test_mess_required_bool__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_bool__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_enum__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_ENUM, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredEnum, test), &foo__test_enum__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_enum__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_enum__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_enum__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredEnum", "TestMessRequiredEnum", "Foo__TestMessRequiredEnum", "foo", sizeof(Foo__TestMessRequiredEnum), 1, foo__test_mess_required_enum__field_descriptors, foo__test_mess_required_enum__field_indices_by_name, 1, foo__test_mess_required_enum__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_enum__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_enum_small__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_ENUM, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredEnumSmall, test), &foo__test_enum_small__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_enum_small__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_enum_small__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_enum_small__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredEnumSmall", "TestMessRequiredEnumSmall", "Foo__TestMessRequiredEnumSmall", "foo", sizeof(Foo__TestMessRequiredEnumSmall), 1, foo__test_mess_required_enum_small__field_descriptors, foo__test_mess_required_enum_small__field_indices_by_name, 1, foo__test_mess_required_enum_small__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_enum_small__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_string__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredString, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_string__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_string__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_string__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredString", "TestMessRequiredString", "Foo__TestMessRequiredString", "foo", sizeof(Foo__TestMessRequiredString), 1, foo__test_mess_required_string__field_descriptors, foo__test_mess_required_string__field_indices_by_name, 1, foo__test_mess_required_string__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_string__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_bytes__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_BYTES, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredBytes, test), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_bytes__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_bytes__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_bytes__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredBytes", "TestMessRequiredBytes", "Foo__TestMessRequiredBytes", "foo", sizeof(Foo__TestMessRequiredBytes), 1, foo__test_mess_required_bytes__field_descriptors, foo__test_mess_required_bytes__field_indices_by_name, 1, foo__test_mess_required_bytes__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_bytes__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__test_mess_required_message__field_descriptors[1] = { { "test", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_MESSAGE, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__TestMessRequiredMessage, test), &foo__sub_mess__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__test_mess_required_message__field_indices_by_name[] = { 0, /* field[0] = test */ }; static const ProtobufCIntRange foo__test_mess_required_message__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__test_mess_required_message__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.TestMessRequiredMessage", "TestMessRequiredMessage", "Foo__TestMessRequiredMessage", "foo", sizeof(Foo__TestMessRequiredMessage), 1, foo__test_mess_required_message__field_descriptors, foo__test_mess_required_message__field_indices_by_name, 1, foo__test_mess_required_message__number_ranges, (ProtobufCMessageInit) foo__test_mess_required_message__init, NULL,NULL,NULL /* reserved[123] */ }; #define foo__empty_mess__field_descriptors NULL #define foo__empty_mess__field_indices_by_name NULL #define foo__empty_mess__number_ranges NULL const ProtobufCMessageDescriptor foo__empty_mess__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.EmptyMess", "EmptyMess", "Foo__EmptyMess", "foo", sizeof(Foo__EmptyMess), 0, foo__empty_mess__field_descriptors, foo__empty_mess__field_indices_by_name, 0, foo__empty_mess__number_ranges, (ProtobufCMessageInit) foo__empty_mess__init, NULL,NULL,NULL /* reserved[123] */ }; char foo__default_required_values__v_string__default_value[] = "hi mom\n"; uint8_t foo__default_required_values__v_bytes__default_value_data[] = "a \000 character"; static const int32_t foo__default_required_values__v_int32__default_value = -42; static const uint32_t foo__default_required_values__v_uint32__default_value = 666; static const int32_t foo__default_required_values__v_int64__default_value = 100000; static const uint32_t foo__default_required_values__v_uint64__default_value = 100001; static const float foo__default_required_values__v_float__default_value = 2.5; static const double foo__default_required_values__v_double__default_value = 4.5; static const ProtobufCBinaryData foo__default_required_values__v_bytes__default_value = { 13, foo__default_required_values__v_bytes__default_value_data }; static const ProtobufCFieldDescriptor foo__default_required_values__field_descriptors[8] = { { "v_int32", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_INT32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__DefaultRequiredValues, v_int32), NULL, &foo__default_required_values__v_int32__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_uint32", 2, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_UINT32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__DefaultRequiredValues, v_uint32), NULL, &foo__default_required_values__v_uint32__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_int64", 3, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_INT32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__DefaultRequiredValues, v_int64), NULL, &foo__default_required_values__v_int64__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_uint64", 4, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_UINT32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__DefaultRequiredValues, v_uint64), NULL, &foo__default_required_values__v_uint64__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_float", 5, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_FLOAT, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__DefaultRequiredValues, v_float), NULL, &foo__default_required_values__v_float__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_double", 6, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_DOUBLE, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__DefaultRequiredValues, v_double), NULL, &foo__default_required_values__v_double__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_string", 7, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__DefaultRequiredValues, v_string), NULL, &foo__default_required_values__v_string__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_bytes", 8, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_BYTES, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__DefaultRequiredValues, v_bytes), NULL, &foo__default_required_values__v_bytes__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__default_required_values__field_indices_by_name[] = { 7, /* field[7] = v_bytes */ 5, /* field[5] = v_double */ 4, /* field[4] = v_float */ 0, /* field[0] = v_int32 */ 2, /* field[2] = v_int64 */ 6, /* field[6] = v_string */ 1, /* field[1] = v_uint32 */ 3, /* field[3] = v_uint64 */ }; static const ProtobufCIntRange foo__default_required_values__number_ranges[1 + 1] = { { 1, 0 }, { 0, 8 } }; const ProtobufCMessageDescriptor foo__default_required_values__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.DefaultRequiredValues", "DefaultRequiredValues", "Foo__DefaultRequiredValues", "foo", sizeof(Foo__DefaultRequiredValues), 8, foo__default_required_values__field_descriptors, foo__default_required_values__field_indices_by_name, 1, foo__default_required_values__number_ranges, (ProtobufCMessageInit) foo__default_required_values__init, NULL,NULL,NULL /* reserved[123] */ }; char foo__default_optional_values__v_string__default_value[] = "hi mom\n"; uint8_t foo__default_optional_values__v_bytes__default_value_data[] = "a \000 character"; static const int32_t foo__default_optional_values__v_int32__default_value = -42; static const uint32_t foo__default_optional_values__v_uint32__default_value = 666; static const int32_t foo__default_optional_values__v_int64__default_value = 100000; static const uint32_t foo__default_optional_values__v_uint64__default_value = 100001; static const float foo__default_optional_values__v_float__default_value = 2.5; static const double foo__default_optional_values__v_double__default_value = 4.5; static const ProtobufCBinaryData foo__default_optional_values__v_bytes__default_value = { 13, foo__default_optional_values__v_bytes__default_value_data }; static const ProtobufCFieldDescriptor foo__default_optional_values__field_descriptors[8] = { { "v_int32", 1, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_INT32, PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, has_v_int32), PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, v_int32), NULL, &foo__default_optional_values__v_int32__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_uint32", 2, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_UINT32, PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, has_v_uint32), PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, v_uint32), NULL, &foo__default_optional_values__v_uint32__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_int64", 3, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_INT32, PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, has_v_int64), PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, v_int64), NULL, &foo__default_optional_values__v_int64__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_uint64", 4, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_UINT32, PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, has_v_uint64), PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, v_uint64), NULL, &foo__default_optional_values__v_uint64__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_float", 5, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_FLOAT, PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, has_v_float), PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, v_float), NULL, &foo__default_optional_values__v_float__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_double", 6, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_DOUBLE, PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, has_v_double), PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, v_double), NULL, &foo__default_optional_values__v_double__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_string", 7, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, v_string), NULL, &foo__default_optional_values__v_string__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "v_bytes", 8, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_BYTES, PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, has_v_bytes), PROTOBUF_C_OFFSETOF(Foo__DefaultOptionalValues, v_bytes), NULL, &foo__default_optional_values__v_bytes__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__default_optional_values__field_indices_by_name[] = { 7, /* field[7] = v_bytes */ 5, /* field[5] = v_double */ 4, /* field[4] = v_float */ 0, /* field[0] = v_int32 */ 2, /* field[2] = v_int64 */ 6, /* field[6] = v_string */ 1, /* field[1] = v_uint32 */ 3, /* field[3] = v_uint64 */ }; static const ProtobufCIntRange foo__default_optional_values__number_ranges[1 + 1] = { { 1, 0 }, { 0, 8 } }; const ProtobufCMessageDescriptor foo__default_optional_values__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.DefaultOptionalValues", "DefaultOptionalValues", "Foo__DefaultOptionalValues", "foo", sizeof(Foo__DefaultOptionalValues), 8, foo__default_optional_values__field_descriptors, foo__default_optional_values__field_indices_by_name, 1, foo__default_optional_values__number_ranges, (ProtobufCMessageInit) foo__default_optional_values__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__alloc_values__field_descriptors[5] = { { "o_bytes", 1, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_BYTES, PROTOBUF_C_OFFSETOF(Foo__AllocValues, has_o_bytes), PROTOBUF_C_OFFSETOF(Foo__AllocValues, o_bytes), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "r_string", 2, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_STRING, PROTOBUF_C_OFFSETOF(Foo__AllocValues, n_r_string), PROTOBUF_C_OFFSETOF(Foo__AllocValues, r_string), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "a_string", 3, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__AllocValues, a_string), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "a_bytes", 4, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_BYTES, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__AllocValues, a_bytes), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "a_mess", 5, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_MESSAGE, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__AllocValues, a_mess), &foo__default_required_values__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__alloc_values__field_indices_by_name[] = { 3, /* field[3] = a_bytes */ 4, /* field[4] = a_mess */ 2, /* field[2] = a_string */ 0, /* field[0] = o_bytes */ 1, /* field[1] = r_string */ }; static const ProtobufCIntRange foo__alloc_values__number_ranges[1 + 1] = { { 1, 0 }, { 0, 5 } }; const ProtobufCMessageDescriptor foo__alloc_values__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.AllocValues", "AllocValues", "Foo__AllocValues", "foo", sizeof(Foo__AllocValues), 5, foo__alloc_values__field_descriptors, foo__alloc_values__field_indices_by_name, 1, foo__alloc_values__number_ranges, (ProtobufCMessageInit) foo__alloc_values__init, NULL,NULL,NULL /* reserved[123] */ }; const ProtobufCEnumValue foo__test_enum_small__enum_values_by_number[2] = { { "VALUE", "FOO__TEST_ENUM_SMALL__VALUE", 0 }, { "OTHER_VALUE", "FOO__TEST_ENUM_SMALL__OTHER_VALUE", 1 }, }; static const ProtobufCIntRange foo__test_enum_small__value_ranges[] = { {0, 0},{0, 2} }; const ProtobufCEnumValueIndex foo__test_enum_small__enum_values_by_name[2] = { { "OTHER_VALUE", 1 }, { "VALUE", 0 }, }; const ProtobufCEnumDescriptor foo__test_enum_small__descriptor = { PROTOBUF_C_ENUM_DESCRIPTOR_MAGIC, "foo.TestEnumSmall", "TestEnumSmall", "Foo__TestEnumSmall", "foo", 2, foo__test_enum_small__enum_values_by_number, 2, foo__test_enum_small__enum_values_by_name, 1, foo__test_enum_small__value_ranges, NULL,NULL,NULL,NULL /* reserved[1234] */ }; const ProtobufCEnumValue foo__test_enum__enum_values_by_number[10] = { { "VALUE0", "FOO__TEST_ENUM__VALUE0", 0 }, { "VALUE1", "FOO__TEST_ENUM__VALUE1", 1 }, { "VALUE127", "FOO__TEST_ENUM__VALUE127", 127 }, { "VALUE128", "FOO__TEST_ENUM__VALUE128", 128 }, { "VALUE16383", "FOO__TEST_ENUM__VALUE16383", 16383 }, { "VALUE16384", "FOO__TEST_ENUM__VALUE16384", 16384 }, { "VALUE2097151", "FOO__TEST_ENUM__VALUE2097151", 2097151 }, { "VALUE2097152", "FOO__TEST_ENUM__VALUE2097152", 2097152 }, { "VALUE268435455", "FOO__TEST_ENUM__VALUE268435455", 268435455 }, { "VALUE268435456", "FOO__TEST_ENUM__VALUE268435456", 268435456 }, }; static const ProtobufCIntRange foo__test_enum__value_ranges[] = { {0, 0},{127, 2},{16383, 4},{2097151, 6},{268435455, 8},{0, 10} }; const ProtobufCEnumValueIndex foo__test_enum__enum_values_by_name[10] = { { "VALUE0", 0 }, { "VALUE1", 1 }, { "VALUE127", 2 }, { "VALUE128", 3 }, { "VALUE16383", 4 }, { "VALUE16384", 5 }, { "VALUE2097151", 6 }, { "VALUE2097152", 7 }, { "VALUE268435455", 8 }, { "VALUE268435456", 9 }, }; const ProtobufCEnumDescriptor foo__test_enum__descriptor = { PROTOBUF_C_ENUM_DESCRIPTOR_MAGIC, "foo.TestEnum", "TestEnum", "Foo__TestEnum", "foo", 10, foo__test_enum__enum_values_by_number, 10, foo__test_enum__enum_values_by_name, 5, foo__test_enum__value_ranges, NULL,NULL,NULL,NULL /* reserved[1234] */ }; const ProtobufCEnumValue foo__test_enum_dup_values__enum_values_by_number[4] = { { "VALUE_A", "FOO__TEST_ENUM_DUP_VALUES__VALUE_A", 42 }, { "VALUE_D", "FOO__TEST_ENUM_DUP_VALUES__VALUE_D", 666 }, { "VALUE_F", "FOO__TEST_ENUM_DUP_VALUES__VALUE_F", 1000 }, { "VALUE_BB", "FOO__TEST_ENUM_DUP_VALUES__VALUE_BB", 1001 }, }; static const ProtobufCIntRange foo__test_enum_dup_values__value_ranges[] = { {42, 0},{666, 1},{1000, 2},{0, 4} }; const ProtobufCEnumValueIndex foo__test_enum_dup_values__enum_values_by_name[8] = { { "VALUE_A", 0 }, { "VALUE_AA", 2 }, { "VALUE_B", 0 }, { "VALUE_BB", 3 }, { "VALUE_C", 0 }, { "VALUE_D", 1 }, { "VALUE_E", 1 }, { "VALUE_F", 2 }, }; const ProtobufCEnumDescriptor foo__test_enum_dup_values__descriptor = { PROTOBUF_C_ENUM_DESCRIPTOR_MAGIC, "foo.TestEnumDupValues", "TestEnumDupValues", "Foo__TestEnumDupValues", "foo", 4, foo__test_enum_dup_values__enum_values_by_number, 8, foo__test_enum_dup_values__enum_values_by_name, 3, foo__test_enum_dup_values__value_ranges, NULL,NULL,NULL,NULL /* reserved[1234] */ }; protobuf-c-0.15/src/test/generated-code/test.pb-c.c0000644000175000017500000003071711536220610017023 00000000000000/* Generated by the protocol buffer compiler. DO NOT EDIT! */ /* Do not generate deprecated warnings for self */ #ifndef PROTOBUF_C_NO_DEPRECATED #define PROTOBUF_C_NO_DEPRECATED #endif #include "test.pb-c.h" void foo__person__phone_number__init (Foo__Person__PhoneNumber *message) { static Foo__Person__PhoneNumber init_value = FOO__PERSON__PHONE_NUMBER__INIT; *message = init_value; } void foo__person__init (Foo__Person *message) { static Foo__Person init_value = FOO__PERSON__INIT; *message = init_value; } size_t foo__person__get_packed_size (const Foo__Person *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__person__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__person__pack (const Foo__Person *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__person__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__person__pack_to_buffer (const Foo__Person *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__person__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__Person * foo__person__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__Person *) protobuf_c_message_unpack (&foo__person__descriptor, allocator, len, data); } void foo__person__free_unpacked (Foo__Person *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__person__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__lookup_result__init (Foo__LookupResult *message) { static Foo__LookupResult init_value = FOO__LOOKUP_RESULT__INIT; *message = init_value; } size_t foo__lookup_result__get_packed_size (const Foo__LookupResult *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__lookup_result__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__lookup_result__pack (const Foo__LookupResult *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__lookup_result__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__lookup_result__pack_to_buffer (const Foo__LookupResult *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__lookup_result__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__LookupResult * foo__lookup_result__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__LookupResult *) protobuf_c_message_unpack (&foo__lookup_result__descriptor, allocator, len, data); } void foo__lookup_result__free_unpacked (Foo__LookupResult *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__lookup_result__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } void foo__name__init (Foo__Name *message) { static Foo__Name init_value = FOO__NAME__INIT; *message = init_value; } size_t foo__name__get_packed_size (const Foo__Name *message) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__name__descriptor); return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message)); } size_t foo__name__pack (const Foo__Name *message, uint8_t *out) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__name__descriptor); return protobuf_c_message_pack ((const ProtobufCMessage*)message, out); } size_t foo__name__pack_to_buffer (const Foo__Name *message, ProtobufCBuffer *buffer) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__name__descriptor); return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer); } Foo__Name * foo__name__unpack (ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { return (Foo__Name *) protobuf_c_message_unpack (&foo__name__descriptor, allocator, len, data); } void foo__name__free_unpacked (Foo__Name *message, ProtobufCAllocator *allocator) { PROTOBUF_C_ASSERT (message->base.descriptor == &foo__name__descriptor); protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator); } static const Foo__Person__PhoneType foo__person__phone_number__type__default_value = FOO__PERSON__PHONE_TYPE__HOME; static const ProtobufCFieldDescriptor foo__person__phone_number__field_descriptors[2] = { { "number", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__Person__PhoneNumber, number), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "type", 2, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_ENUM, PROTOBUF_C_OFFSETOF(Foo__Person__PhoneNumber, has_type), PROTOBUF_C_OFFSETOF(Foo__Person__PhoneNumber, type), &foo__person__phone_type__descriptor, &foo__person__phone_number__type__default_value, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__person__phone_number__field_indices_by_name[] = { 0, /* field[0] = number */ 1, /* field[1] = type */ }; static const ProtobufCIntRange foo__person__phone_number__number_ranges[1 + 1] = { { 1, 0 }, { 0, 2 } }; const ProtobufCMessageDescriptor foo__person__phone_number__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.Person.PhoneNumber", "PhoneNumber", "Foo__Person__PhoneNumber", "foo", sizeof(Foo__Person__PhoneNumber), 2, foo__person__phone_number__field_descriptors, foo__person__phone_number__field_indices_by_name, 1, foo__person__phone_number__number_ranges, (ProtobufCMessageInit) foo__person__phone_number__init, NULL,NULL,NULL /* reserved[123] */ }; const ProtobufCEnumValue foo__person__phone_type__enum_values_by_number[3] = { { "MOBILE", "FOO__PERSON__PHONE_TYPE__MOBILE", 0 }, { "HOME", "FOO__PERSON__PHONE_TYPE__HOME", 1 }, { "WORK", "FOO__PERSON__PHONE_TYPE__WORK", 2 }, }; static const ProtobufCIntRange foo__person__phone_type__value_ranges[] = { {0, 0},{0, 3} }; const ProtobufCEnumValueIndex foo__person__phone_type__enum_values_by_name[3] = { { "HOME", 1 }, { "MOBILE", 0 }, { "WORK", 2 }, }; const ProtobufCEnumDescriptor foo__person__phone_type__descriptor = { PROTOBUF_C_ENUM_DESCRIPTOR_MAGIC, "foo.Person.PhoneType", "PhoneType", "Foo__Person__PhoneType", "foo", 3, foo__person__phone_type__enum_values_by_number, 3, foo__person__phone_type__enum_values_by_name, 1, foo__person__phone_type__value_ranges, NULL,NULL,NULL,NULL /* reserved[1234] */ }; static const ProtobufCFieldDescriptor foo__person__field_descriptors[4] = { { "name", 1, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__Person, name), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "id", 2, PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_TYPE_INT32, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__Person, id), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "email", 3, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__Person, email), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, { "phone", 4, PROTOBUF_C_LABEL_REPEATED, PROTOBUF_C_TYPE_MESSAGE, PROTOBUF_C_OFFSETOF(Foo__Person, n_phone), PROTOBUF_C_OFFSETOF(Foo__Person, phone), &foo__person__phone_number__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__person__field_indices_by_name[] = { 2, /* field[2] = email */ 1, /* field[1] = id */ 0, /* field[0] = name */ 3, /* field[3] = phone */ }; static const ProtobufCIntRange foo__person__number_ranges[1 + 1] = { { 1, 0 }, { 0, 4 } }; const ProtobufCMessageDescriptor foo__person__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.Person", "Person", "Foo__Person", "foo", sizeof(Foo__Person), 4, foo__person__field_descriptors, foo__person__field_indices_by_name, 1, foo__person__number_ranges, (ProtobufCMessageInit) foo__person__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__lookup_result__field_descriptors[1] = { { "person", 1, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_MESSAGE, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__LookupResult, person), &foo__person__descriptor, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__lookup_result__field_indices_by_name[] = { 0, /* field[0] = person */ }; static const ProtobufCIntRange foo__lookup_result__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__lookup_result__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.LookupResult", "LookupResult", "Foo__LookupResult", "foo", sizeof(Foo__LookupResult), 1, foo__lookup_result__field_descriptors, foo__lookup_result__field_indices_by_name, 1, foo__lookup_result__number_ranges, (ProtobufCMessageInit) foo__lookup_result__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCFieldDescriptor foo__name__field_descriptors[1] = { { "name", 1, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_TYPE_STRING, 0, /* quantifier_offset */ PROTOBUF_C_OFFSETOF(Foo__Name, name), NULL, NULL, 0, /* packed */ 0,NULL,NULL /* reserved1,reserved2, etc */ }, }; static const unsigned foo__name__field_indices_by_name[] = { 0, /* field[0] = name */ }; static const ProtobufCIntRange foo__name__number_ranges[1 + 1] = { { 1, 0 }, { 0, 1 } }; const ProtobufCMessageDescriptor foo__name__descriptor = { PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC, "foo.Name", "Name", "Foo__Name", "foo", sizeof(Foo__Name), 1, foo__name__field_descriptors, foo__name__field_indices_by_name, 1, foo__name__number_ranges, (ProtobufCMessageInit) foo__name__init, NULL,NULL,NULL /* reserved[123] */ }; static const ProtobufCMethodDescriptor foo__dir_lookup__method_descriptors[1] = { { "ByName", &foo__name__descriptor, &foo__lookup_result__descriptor }, }; const unsigned foo__dir_lookup__method_indices_by_name[] = { 0 /* ByName */ }; const ProtobufCServiceDescriptor foo__dir_lookup__descriptor = { PROTOBUF_C_SERVICE_DESCRIPTOR_MAGIC, "foo.DirLookup", "ByName", "Foo__DirLookup", "foo", 1, foo__dir_lookup__method_descriptors, foo__dir_lookup__method_indices_by_name }; void foo__dir_lookup__by_name(ProtobufCService *service, const Foo__Name *input, Foo__LookupResult_Closure closure, void *closure_data) { PROTOBUF_C_ASSERT (service->descriptor == &foo__dir_lookup__descriptor); service->invoke(service, 0, (const ProtobufCMessage *) input, (ProtobufCClosure) closure, closure_data); } void foo__dir_lookup__init (Foo__DirLookup_Service *service, Foo__DirLookup_ServiceDestroy destroy) { protobuf_c_service_generated_init (&service->base, &foo__dir_lookup__descriptor, (ProtobufCServiceDestroy) destroy); } protobuf-c-0.15/src/test/generated-code/test-full.pb.cc0000644000175000017500000134231111536217175017717 00000000000000// Generated by the protocol buffer compiler. DO NOT EDIT! #define INTERNAL_SUPPRESS_PROTOBUF_FIELD_DEPRECATION #include "test-full.pb.h" #include #include #include #include #include #include namespace foo { namespace { const ::google::protobuf::Descriptor* SubMess_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* SubMess_reflection_ = NULL; const ::google::protobuf::Descriptor* TestFieldNo15_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestFieldNo15_reflection_ = NULL; const ::google::protobuf::Descriptor* TestFieldNo16_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestFieldNo16_reflection_ = NULL; const ::google::protobuf::Descriptor* TestFieldNo2047_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestFieldNo2047_reflection_ = NULL; const ::google::protobuf::Descriptor* TestFieldNo2048_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestFieldNo2048_reflection_ = NULL; const ::google::protobuf::Descriptor* TestFieldNo262143_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestFieldNo262143_reflection_ = NULL; const ::google::protobuf::Descriptor* TestFieldNo262144_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestFieldNo262144_reflection_ = NULL; const ::google::protobuf::Descriptor* TestFieldNo33554431_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestFieldNo33554431_reflection_ = NULL; const ::google::protobuf::Descriptor* TestFieldNo33554432_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestFieldNo33554432_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMess_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMess_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessPacked_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessPacked_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessOptional_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessOptional_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredInt32_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredInt32_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredSInt32_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredSInt32_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredSFixed32_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredSFixed32_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredInt64_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredInt64_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredSInt64_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredSInt64_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredSFixed64_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredSFixed64_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredUInt32_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredUInt32_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredFixed32_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredFixed32_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredUInt64_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredUInt64_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredFixed64_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredFixed64_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredFloat_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredFloat_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredDouble_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredDouble_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredBool_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredBool_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredEnum_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredEnum_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredEnumSmall_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredEnumSmall_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredString_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredString_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredBytes_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredBytes_reflection_ = NULL; const ::google::protobuf::Descriptor* TestMessRequiredMessage_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* TestMessRequiredMessage_reflection_ = NULL; const ::google::protobuf::Descriptor* EmptyMess_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* EmptyMess_reflection_ = NULL; const ::google::protobuf::Descriptor* DefaultRequiredValues_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* DefaultRequiredValues_reflection_ = NULL; const ::google::protobuf::Descriptor* DefaultOptionalValues_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* DefaultOptionalValues_reflection_ = NULL; const ::google::protobuf::Descriptor* AllocValues_descriptor_ = NULL; const ::google::protobuf::internal::GeneratedMessageReflection* AllocValues_reflection_ = NULL; const ::google::protobuf::EnumDescriptor* TestEnumSmall_descriptor_ = NULL; const ::google::protobuf::EnumDescriptor* TestEnum_descriptor_ = NULL; const ::google::protobuf::EnumDescriptor* TestEnumDupValues_descriptor_ = NULL; } // namespace void protobuf_AssignDesc_test_2dfull_2eproto() { protobuf_AddDesc_test_2dfull_2eproto(); const ::google::protobuf::FileDescriptor* file = ::google::protobuf::DescriptorPool::generated_pool()->FindFileByName( "test-full.proto"); GOOGLE_CHECK(file != NULL); SubMess_descriptor_ = file->message_type(0); static const int SubMess_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(SubMess, test_), }; SubMess_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( SubMess_descriptor_, SubMess::default_instance_, SubMess_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(SubMess, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(SubMess, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(SubMess)); TestFieldNo15_descriptor_ = file->message_type(1); static const int TestFieldNo15_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo15, test_), }; TestFieldNo15_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestFieldNo15_descriptor_, TestFieldNo15::default_instance_, TestFieldNo15_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo15, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo15, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestFieldNo15)); TestFieldNo16_descriptor_ = file->message_type(2); static const int TestFieldNo16_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo16, test_), }; TestFieldNo16_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestFieldNo16_descriptor_, TestFieldNo16::default_instance_, TestFieldNo16_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo16, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo16, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestFieldNo16)); TestFieldNo2047_descriptor_ = file->message_type(3); static const int TestFieldNo2047_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo2047, test_), }; TestFieldNo2047_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestFieldNo2047_descriptor_, TestFieldNo2047::default_instance_, TestFieldNo2047_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo2047, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo2047, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestFieldNo2047)); TestFieldNo2048_descriptor_ = file->message_type(4); static const int TestFieldNo2048_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo2048, test_), }; TestFieldNo2048_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestFieldNo2048_descriptor_, TestFieldNo2048::default_instance_, TestFieldNo2048_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo2048, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo2048, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestFieldNo2048)); TestFieldNo262143_descriptor_ = file->message_type(5); static const int TestFieldNo262143_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo262143, test_), }; TestFieldNo262143_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestFieldNo262143_descriptor_, TestFieldNo262143::default_instance_, TestFieldNo262143_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo262143, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo262143, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestFieldNo262143)); TestFieldNo262144_descriptor_ = file->message_type(6); static const int TestFieldNo262144_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo262144, test_), }; TestFieldNo262144_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestFieldNo262144_descriptor_, TestFieldNo262144::default_instance_, TestFieldNo262144_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo262144, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo262144, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestFieldNo262144)); TestFieldNo33554431_descriptor_ = file->message_type(7); static const int TestFieldNo33554431_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo33554431, test_), }; TestFieldNo33554431_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestFieldNo33554431_descriptor_, TestFieldNo33554431::default_instance_, TestFieldNo33554431_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo33554431, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo33554431, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestFieldNo33554431)); TestFieldNo33554432_descriptor_ = file->message_type(8); static const int TestFieldNo33554432_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo33554432, test_), }; TestFieldNo33554432_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestFieldNo33554432_descriptor_, TestFieldNo33554432::default_instance_, TestFieldNo33554432_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo33554432, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestFieldNo33554432, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestFieldNo33554432)); TestMess_descriptor_ = file->message_type(9); static const int TestMess_offsets_[18] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_int32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_sint32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_sfixed32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_int64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_sint64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_sfixed64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_uint32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_fixed32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_uint64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_fixed64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_float_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_double_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_boolean_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_enum_small_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_enum_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_string_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_bytes_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, test_message_), }; TestMess_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMess_descriptor_, TestMess::default_instance_, TestMess_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMess, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMess)); TestMessPacked_descriptor_ = file->message_type(10); static const int TestMessPacked_offsets_[15] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_int32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_sint32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_sfixed32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_int64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_sint64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_sfixed64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_uint32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_fixed32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_uint64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_fixed64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_float_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_double_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_boolean_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_enum_small_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, test_enum_), }; TestMessPacked_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessPacked_descriptor_, TestMessPacked::default_instance_, TestMessPacked_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessPacked, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessPacked)); TestMessOptional_descriptor_ = file->message_type(11); static const int TestMessOptional_offsets_[18] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_int32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_sint32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_sfixed32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_int64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_sint64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_sfixed64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_uint32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_fixed32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_uint64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_fixed64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_float_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_double_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_boolean_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_enum_small_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_enum_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_string_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_bytes_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, test_message_), }; TestMessOptional_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessOptional_descriptor_, TestMessOptional::default_instance_, TestMessOptional_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessOptional, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessOptional)); TestMessRequiredInt32_descriptor_ = file->message_type(12); static const int TestMessRequiredInt32_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredInt32, test_), }; TestMessRequiredInt32_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredInt32_descriptor_, TestMessRequiredInt32::default_instance_, TestMessRequiredInt32_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredInt32, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredInt32, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredInt32)); TestMessRequiredSInt32_descriptor_ = file->message_type(13); static const int TestMessRequiredSInt32_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSInt32, test_), }; TestMessRequiredSInt32_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredSInt32_descriptor_, TestMessRequiredSInt32::default_instance_, TestMessRequiredSInt32_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSInt32, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSInt32, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredSInt32)); TestMessRequiredSFixed32_descriptor_ = file->message_type(14); static const int TestMessRequiredSFixed32_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSFixed32, test_), }; TestMessRequiredSFixed32_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredSFixed32_descriptor_, TestMessRequiredSFixed32::default_instance_, TestMessRequiredSFixed32_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSFixed32, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSFixed32, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredSFixed32)); TestMessRequiredInt64_descriptor_ = file->message_type(15); static const int TestMessRequiredInt64_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredInt64, test_), }; TestMessRequiredInt64_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredInt64_descriptor_, TestMessRequiredInt64::default_instance_, TestMessRequiredInt64_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredInt64, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredInt64, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredInt64)); TestMessRequiredSInt64_descriptor_ = file->message_type(16); static const int TestMessRequiredSInt64_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSInt64, test_), }; TestMessRequiredSInt64_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredSInt64_descriptor_, TestMessRequiredSInt64::default_instance_, TestMessRequiredSInt64_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSInt64, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSInt64, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredSInt64)); TestMessRequiredSFixed64_descriptor_ = file->message_type(17); static const int TestMessRequiredSFixed64_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSFixed64, test_), }; TestMessRequiredSFixed64_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredSFixed64_descriptor_, TestMessRequiredSFixed64::default_instance_, TestMessRequiredSFixed64_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSFixed64, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredSFixed64, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredSFixed64)); TestMessRequiredUInt32_descriptor_ = file->message_type(18); static const int TestMessRequiredUInt32_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredUInt32, test_), }; TestMessRequiredUInt32_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredUInt32_descriptor_, TestMessRequiredUInt32::default_instance_, TestMessRequiredUInt32_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredUInt32, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredUInt32, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredUInt32)); TestMessRequiredFixed32_descriptor_ = file->message_type(19); static const int TestMessRequiredFixed32_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredFixed32, test_), }; TestMessRequiredFixed32_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredFixed32_descriptor_, TestMessRequiredFixed32::default_instance_, TestMessRequiredFixed32_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredFixed32, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredFixed32, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredFixed32)); TestMessRequiredUInt64_descriptor_ = file->message_type(20); static const int TestMessRequiredUInt64_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredUInt64, test_), }; TestMessRequiredUInt64_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredUInt64_descriptor_, TestMessRequiredUInt64::default_instance_, TestMessRequiredUInt64_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredUInt64, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredUInt64, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredUInt64)); TestMessRequiredFixed64_descriptor_ = file->message_type(21); static const int TestMessRequiredFixed64_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredFixed64, test_), }; TestMessRequiredFixed64_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredFixed64_descriptor_, TestMessRequiredFixed64::default_instance_, TestMessRequiredFixed64_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredFixed64, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredFixed64, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredFixed64)); TestMessRequiredFloat_descriptor_ = file->message_type(22); static const int TestMessRequiredFloat_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredFloat, test_), }; TestMessRequiredFloat_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredFloat_descriptor_, TestMessRequiredFloat::default_instance_, TestMessRequiredFloat_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredFloat, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredFloat, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredFloat)); TestMessRequiredDouble_descriptor_ = file->message_type(23); static const int TestMessRequiredDouble_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredDouble, test_), }; TestMessRequiredDouble_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredDouble_descriptor_, TestMessRequiredDouble::default_instance_, TestMessRequiredDouble_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredDouble, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredDouble, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredDouble)); TestMessRequiredBool_descriptor_ = file->message_type(24); static const int TestMessRequiredBool_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredBool, test_), }; TestMessRequiredBool_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredBool_descriptor_, TestMessRequiredBool::default_instance_, TestMessRequiredBool_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredBool, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredBool, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredBool)); TestMessRequiredEnum_descriptor_ = file->message_type(25); static const int TestMessRequiredEnum_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredEnum, test_), }; TestMessRequiredEnum_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredEnum_descriptor_, TestMessRequiredEnum::default_instance_, TestMessRequiredEnum_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredEnum, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredEnum, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredEnum)); TestMessRequiredEnumSmall_descriptor_ = file->message_type(26); static const int TestMessRequiredEnumSmall_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredEnumSmall, test_), }; TestMessRequiredEnumSmall_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredEnumSmall_descriptor_, TestMessRequiredEnumSmall::default_instance_, TestMessRequiredEnumSmall_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredEnumSmall, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredEnumSmall, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredEnumSmall)); TestMessRequiredString_descriptor_ = file->message_type(27); static const int TestMessRequiredString_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredString, test_), }; TestMessRequiredString_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredString_descriptor_, TestMessRequiredString::default_instance_, TestMessRequiredString_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredString, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredString, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredString)); TestMessRequiredBytes_descriptor_ = file->message_type(28); static const int TestMessRequiredBytes_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredBytes, test_), }; TestMessRequiredBytes_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredBytes_descriptor_, TestMessRequiredBytes::default_instance_, TestMessRequiredBytes_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredBytes, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredBytes, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredBytes)); TestMessRequiredMessage_descriptor_ = file->message_type(29); static const int TestMessRequiredMessage_offsets_[1] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredMessage, test_), }; TestMessRequiredMessage_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( TestMessRequiredMessage_descriptor_, TestMessRequiredMessage::default_instance_, TestMessRequiredMessage_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredMessage, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(TestMessRequiredMessage, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(TestMessRequiredMessage)); EmptyMess_descriptor_ = file->message_type(30); static const int EmptyMess_offsets_[1] = { }; EmptyMess_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( EmptyMess_descriptor_, EmptyMess::default_instance_, EmptyMess_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(EmptyMess, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(EmptyMess, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(EmptyMess)); DefaultRequiredValues_descriptor_ = file->message_type(31); static const int DefaultRequiredValues_offsets_[8] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, v_int32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, v_uint32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, v_int64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, v_uint64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, v_float_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, v_double_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, v_string_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, v_bytes_), }; DefaultRequiredValues_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( DefaultRequiredValues_descriptor_, DefaultRequiredValues::default_instance_, DefaultRequiredValues_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultRequiredValues, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(DefaultRequiredValues)); DefaultOptionalValues_descriptor_ = file->message_type(32); static const int DefaultOptionalValues_offsets_[8] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, v_int32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, v_uint32_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, v_int64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, v_uint64_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, v_float_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, v_double_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, v_string_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, v_bytes_), }; DefaultOptionalValues_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( DefaultOptionalValues_descriptor_, DefaultOptionalValues::default_instance_, DefaultOptionalValues_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(DefaultOptionalValues, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(DefaultOptionalValues)); AllocValues_descriptor_ = file->message_type(33); static const int AllocValues_offsets_[5] = { GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(AllocValues, o_bytes_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(AllocValues, r_string_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(AllocValues, a_string_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(AllocValues, a_bytes_), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(AllocValues, a_mess_), }; AllocValues_reflection_ = new ::google::protobuf::internal::GeneratedMessageReflection( AllocValues_descriptor_, AllocValues::default_instance_, AllocValues_offsets_, GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(AllocValues, _has_bits_[0]), GOOGLE_PROTOBUF_GENERATED_MESSAGE_FIELD_OFFSET(AllocValues, _unknown_fields_), -1, ::google::protobuf::DescriptorPool::generated_pool(), ::google::protobuf::MessageFactory::generated_factory(), sizeof(AllocValues)); TestEnumSmall_descriptor_ = file->enum_type(0); TestEnum_descriptor_ = file->enum_type(1); TestEnumDupValues_descriptor_ = file->enum_type(2); } namespace { GOOGLE_PROTOBUF_DECLARE_ONCE(protobuf_AssignDescriptors_once_); inline void protobuf_AssignDescriptorsOnce() { ::google::protobuf::GoogleOnceInit(&protobuf_AssignDescriptors_once_, &protobuf_AssignDesc_test_2dfull_2eproto); } void protobuf_RegisterTypes(const ::std::string&) { protobuf_AssignDescriptorsOnce(); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( SubMess_descriptor_, &SubMess::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestFieldNo15_descriptor_, &TestFieldNo15::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestFieldNo16_descriptor_, &TestFieldNo16::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestFieldNo2047_descriptor_, &TestFieldNo2047::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestFieldNo2048_descriptor_, &TestFieldNo2048::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestFieldNo262143_descriptor_, &TestFieldNo262143::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestFieldNo262144_descriptor_, &TestFieldNo262144::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestFieldNo33554431_descriptor_, &TestFieldNo33554431::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestFieldNo33554432_descriptor_, &TestFieldNo33554432::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMess_descriptor_, &TestMess::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessPacked_descriptor_, &TestMessPacked::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessOptional_descriptor_, &TestMessOptional::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredInt32_descriptor_, &TestMessRequiredInt32::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredSInt32_descriptor_, &TestMessRequiredSInt32::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredSFixed32_descriptor_, &TestMessRequiredSFixed32::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredInt64_descriptor_, &TestMessRequiredInt64::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredSInt64_descriptor_, &TestMessRequiredSInt64::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredSFixed64_descriptor_, &TestMessRequiredSFixed64::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredUInt32_descriptor_, &TestMessRequiredUInt32::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredFixed32_descriptor_, &TestMessRequiredFixed32::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredUInt64_descriptor_, &TestMessRequiredUInt64::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredFixed64_descriptor_, &TestMessRequiredFixed64::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredFloat_descriptor_, &TestMessRequiredFloat::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredDouble_descriptor_, &TestMessRequiredDouble::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredBool_descriptor_, &TestMessRequiredBool::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredEnum_descriptor_, &TestMessRequiredEnum::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredEnumSmall_descriptor_, &TestMessRequiredEnumSmall::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredString_descriptor_, &TestMessRequiredString::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredBytes_descriptor_, &TestMessRequiredBytes::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( TestMessRequiredMessage_descriptor_, &TestMessRequiredMessage::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( EmptyMess_descriptor_, &EmptyMess::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( DefaultRequiredValues_descriptor_, &DefaultRequiredValues::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( DefaultOptionalValues_descriptor_, &DefaultOptionalValues::default_instance()); ::google::protobuf::MessageFactory::InternalRegisterGeneratedMessage( AllocValues_descriptor_, &AllocValues::default_instance()); } } // namespace void protobuf_ShutdownFile_test_2dfull_2eproto() { delete SubMess::default_instance_; delete SubMess_reflection_; delete TestFieldNo15::default_instance_; delete TestFieldNo15_reflection_; delete TestFieldNo16::default_instance_; delete TestFieldNo16_reflection_; delete TestFieldNo2047::default_instance_; delete TestFieldNo2047_reflection_; delete TestFieldNo2048::default_instance_; delete TestFieldNo2048_reflection_; delete TestFieldNo262143::default_instance_; delete TestFieldNo262143_reflection_; delete TestFieldNo262144::default_instance_; delete TestFieldNo262144_reflection_; delete TestFieldNo33554431::default_instance_; delete TestFieldNo33554431_reflection_; delete TestFieldNo33554432::default_instance_; delete TestFieldNo33554432_reflection_; delete TestMess::default_instance_; delete TestMess_reflection_; delete TestMessPacked::default_instance_; delete TestMessPacked_reflection_; delete TestMessOptional::default_instance_; delete TestMessOptional_reflection_; delete TestMessRequiredInt32::default_instance_; delete TestMessRequiredInt32_reflection_; delete TestMessRequiredSInt32::default_instance_; delete TestMessRequiredSInt32_reflection_; delete TestMessRequiredSFixed32::default_instance_; delete TestMessRequiredSFixed32_reflection_; delete TestMessRequiredInt64::default_instance_; delete TestMessRequiredInt64_reflection_; delete TestMessRequiredSInt64::default_instance_; delete TestMessRequiredSInt64_reflection_; delete TestMessRequiredSFixed64::default_instance_; delete TestMessRequiredSFixed64_reflection_; delete TestMessRequiredUInt32::default_instance_; delete TestMessRequiredUInt32_reflection_; delete TestMessRequiredFixed32::default_instance_; delete TestMessRequiredFixed32_reflection_; delete TestMessRequiredUInt64::default_instance_; delete TestMessRequiredUInt64_reflection_; delete TestMessRequiredFixed64::default_instance_; delete TestMessRequiredFixed64_reflection_; delete TestMessRequiredFloat::default_instance_; delete TestMessRequiredFloat_reflection_; delete TestMessRequiredDouble::default_instance_; delete TestMessRequiredDouble_reflection_; delete TestMessRequiredBool::default_instance_; delete TestMessRequiredBool_reflection_; delete TestMessRequiredEnum::default_instance_; delete TestMessRequiredEnum_reflection_; delete TestMessRequiredEnumSmall::default_instance_; delete TestMessRequiredEnumSmall_reflection_; delete TestMessRequiredString::default_instance_; delete TestMessRequiredString_reflection_; delete TestMessRequiredBytes::default_instance_; delete TestMessRequiredBytes_reflection_; delete TestMessRequiredMessage::default_instance_; delete TestMessRequiredMessage_reflection_; delete EmptyMess::default_instance_; delete EmptyMess_reflection_; delete DefaultRequiredValues::default_instance_; delete DefaultRequiredValues_reflection_; delete DefaultOptionalValues::default_instance_; delete DefaultOptionalValues_reflection_; delete AllocValues::default_instance_; delete AllocValues_reflection_; } void protobuf_AddDesc_test_2dfull_2eproto() { static bool already_here = false; if (already_here) return; already_here = true; GOOGLE_PROTOBUF_VERIFY_VERSION; ::google::protobuf::DescriptorPool::InternalAddGeneratedFile( "\n\017test-full.proto\022\003foo\"\027\n\007SubMess\022\014\n\004tes" "t\030\004 \002(\005\"\035\n\rTestFieldNo15\022\014\n\004test\030\017 \002(\t\"\035" "\n\rTestFieldNo16\022\014\n\004test\030\020 \002(\t\" \n\017TestFie" "ldNo2047\022\r\n\004test\030\377\017 \002(\t\" \n\017TestFieldNo20" "48\022\r\n\004test\030\200\020 \002(\t\"#\n\021TestFieldNo262143\022\016" "\n\004test\030\377\377\017 \002(\t\"#\n\021TestFieldNo262144\022\016\n\004t" "est\030\200\200\020 \002(\t\"&\n\023TestFieldNo33554431\022\017\n\004te" "st\030\377\377\377\017 \002(\t\"&\n\023TestFieldNo33554432\022\017\n\004te" "st\030\200\200\200\020 \002(\t\"\273\003\n\010TestMess\022\022\n\ntest_int32\030\001" " \003(\005\022\023\n\013test_sint32\030\002 \003(\021\022\025\n\rtest_sfixed" "32\030\003 \003(\017\022\022\n\ntest_int64\030\004 \003(\003\022\023\n\013test_sin" "t64\030\005 \003(\022\022\025\n\rtest_sfixed64\030\006 \003(\020\022\023\n\013test" "_uint32\030\007 \003(\r\022\024\n\014test_fixed32\030\010 \003(\007\022\023\n\013t" "est_uint64\030\t \003(\004\022\024\n\014test_fixed64\030\n \003(\006\022\022" "\n\ntest_float\030\013 \003(\002\022\023\n\013test_double\030\014 \003(\001\022" "\024\n\014test_boolean\030\r \003(\010\022+\n\017test_enum_small" "\030\016 \003(\0162\022.foo.TestEnumSmall\022 \n\ttest_enum\030" "\017 \003(\0162\r.foo.TestEnum\022\023\n\013test_string\030\020 \003(" "\t\022\022\n\ntest_bytes\030\021 \003(\014\022\"\n\014test_message\030\022 " "\003(\0132\014.foo.SubMess\"\260\003\n\016TestMessPacked\022\026\n\n" "test_int32\030\001 \003(\005B\002\020\001\022\027\n\013test_sint32\030\002 \003(" "\021B\002\020\001\022\031\n\rtest_sfixed32\030\003 \003(\017B\002\020\001\022\026\n\ntest" "_int64\030\004 \003(\003B\002\020\001\022\027\n\013test_sint64\030\005 \003(\022B\002\020" "\001\022\031\n\rtest_sfixed64\030\006 \003(\020B\002\020\001\022\027\n\013test_uin" "t32\030\007 \003(\rB\002\020\001\022\030\n\014test_fixed32\030\010 \003(\007B\002\020\001\022" "\027\n\013test_uint64\030\t \003(\004B\002\020\001\022\030\n\014test_fixed64" "\030\n \003(\006B\002\020\001\022\026\n\ntest_float\030\013 \003(\002B\002\020\001\022\027\n\013te" "st_double\030\014 \003(\001B\002\020\001\022\030\n\014test_boolean\030\r \003(" "\010B\002\020\001\022/\n\017test_enum_small\030\016 \003(\0162\022.foo.Tes" "tEnumSmallB\002\020\001\022$\n\ttest_enum\030\017 \003(\0162\r.foo." "TestEnumB\002\020\001\"\303\003\n\020TestMessOptional\022\022\n\ntes" "t_int32\030\001 \001(\005\022\023\n\013test_sint32\030\002 \001(\021\022\025\n\rte" "st_sfixed32\030\003 \001(\017\022\022\n\ntest_int64\030\004 \001(\003\022\023\n" "\013test_sint64\030\005 \001(\022\022\025\n\rtest_sfixed64\030\006 \001(" "\020\022\023\n\013test_uint32\030\007 \001(\r\022\024\n\014test_fixed32\030\010" " \001(\007\022\023\n\013test_uint64\030\t \001(\004\022\024\n\014test_fixed6" "4\030\n \001(\006\022\022\n\ntest_float\030\013 \001(\002\022\023\n\013test_doub" "le\030\014 \001(\001\022\024\n\014test_boolean\030\r \001(\010\022+\n\017test_e" "num_small\030\016 \001(\0162\022.foo.TestEnumSmall\022 \n\tt" "est_enum\030\017 \001(\0162\r.foo.TestEnum\022\023\n\013test_st" "ring\030\020 \001(\t\022\022\n\ntest_bytes\030\021 \001(\014\022\"\n\014test_m" "essage\030\022 \001(\0132\014.foo.SubMess\"%\n\025TestMessRe" "quiredInt32\022\014\n\004test\030* \002(\005\"&\n\026TestMessReq" "uiredSInt32\022\014\n\004test\030+ \002(\021\"(\n\030TestMessReq" "uiredSFixed32\022\014\n\004test\030d \002(\017\"%\n\025TestMessR" "equiredInt64\022\014\n\004test\030\001 \002(\003\"&\n\026TestMessRe" "quiredSInt64\022\014\n\004test\030\013 \002(\022\"(\n\030TestMessRe" "quiredSFixed64\022\014\n\004test\030\014 \002(\020\"&\n\026TestMess" "RequiredUInt32\022\014\n\004test\030\001 \002(\r\"\'\n\027TestMess" "RequiredFixed32\022\014\n\004test\030\001 \002(\007\"&\n\026TestMes" "sRequiredUInt64\022\014\n\004test\030\001 \002(\004\"\'\n\027TestMes" "sRequiredFixed64\022\014\n\004test\030\001 \002(\006\"%\n\025TestMe" "ssRequiredFloat\022\014\n\004test\030\001 \002(\002\"&\n\026TestMes" "sRequiredDouble\022\014\n\004test\030\001 \002(\001\"$\n\024TestMes" "sRequiredBool\022\014\n\004test\030\001 \002(\010\"3\n\024TestMessR" "equiredEnum\022\033\n\004test\030\001 \002(\0162\r.foo.TestEnum" "\"=\n\031TestMessRequiredEnumSmall\022 \n\004test\030\001 " "\002(\0162\022.foo.TestEnumSmall\"&\n\026TestMessRequi" "redString\022\014\n\004test\030\001 \002(\t\"%\n\025TestMessRequi" "redBytes\022\014\n\004test\030\001 \002(\014\"5\n\027TestMessRequir" "edMessage\022\032\n\004test\030\001 \002(\0132\014.foo.SubMess\"\013\n" "\tEmptyMess\"\342\001\n\025DefaultRequiredValues\022\024\n\007" "v_int32\030\001 \002(\005:\003-42\022\025\n\010v_uint32\030\002 \002(\r:\00366" "6\022\027\n\007v_int64\030\003 \002(\005:\006100000\022\030\n\010v_uint64\030\004" " \002(\r:\006100001\022\024\n\007v_float\030\005 \002(\002:\0032.5\022\025\n\010v_" "double\030\006 \002(\001:\0034.5\022\031\n\010v_string\030\007 \002(\t:\007hi " "mom\n\022!\n\007v_bytes\030\010 \002(\014:\020a \\000 character\"" "\342\001\n\025DefaultOptionalValues\022\024\n\007v_int32\030\001 \001" "(\005:\003-42\022\025\n\010v_uint32\030\002 \001(\r:\003666\022\027\n\007v_int6" "4\030\003 \001(\005:\006100000\022\030\n\010v_uint64\030\004 \001(\r:\00610000" "1\022\024\n\007v_float\030\005 \001(\002:\0032.5\022\025\n\010v_double\030\006 \001(" "\001:\0034.5\022\031\n\010v_string\030\007 \001(\t:\007hi mom\n\022!\n\007v_b" "ytes\030\010 \001(\014:\020a \\000 character\"\177\n\013AllocVal" "ues\022\017\n\007o_bytes\030\001 \001(\014\022\020\n\010r_string\030\002 \003(\t\022\020" "\n\010a_string\030\003 \002(\t\022\017\n\007a_bytes\030\004 \002(\014\022*\n\006a_m" "ess\030\005 \002(\0132\032.foo.DefaultRequiredValues*+\n" "\rTestEnumSmall\022\t\n\005VALUE\020\000\022\017\n\013OTHER_VALUE" "\020\001*\272\001\n\010TestEnum\022\n\n\006VALUE0\020\000\022\n\n\006VALUE1\020\001\022" "\014\n\010VALUE127\020\177\022\r\n\010VALUE128\020\200\001\022\017\n\nVALUE163" "83\020\377\177\022\020\n\nVALUE16384\020\200\200\001\022\022\n\014VALUE2097151\020" "\377\377\177\022\023\n\014VALUE2097152\020\200\200\200\001\022\025\n\016VALUE2684354" "55\020\377\377\377\177\022\026\n\016VALUE268435456\020\200\200\200\200\001*\202\001\n\021Test" "EnumDupValues\022\013\n\007VALUE_A\020*\022\013\n\007VALUE_B\020*\022" "\013\n\007VALUE_C\020*\022\014\n\007VALUE_D\020\232\005\022\014\n\007VALUE_E\020\232\005" "\022\014\n\007VALUE_F\020\350\007\022\r\n\010VALUE_AA\020\350\007\022\r\n\010VALUE_B" "B\020\351\007", 3404); ::google::protobuf::MessageFactory::InternalRegisterGeneratedFile( "test-full.proto", &protobuf_RegisterTypes); SubMess::default_instance_ = new SubMess(); TestFieldNo15::default_instance_ = new TestFieldNo15(); TestFieldNo16::default_instance_ = new TestFieldNo16(); TestFieldNo2047::default_instance_ = new TestFieldNo2047(); TestFieldNo2048::default_instance_ = new TestFieldNo2048(); TestFieldNo262143::default_instance_ = new TestFieldNo262143(); TestFieldNo262144::default_instance_ = new TestFieldNo262144(); TestFieldNo33554431::default_instance_ = new TestFieldNo33554431(); TestFieldNo33554432::default_instance_ = new TestFieldNo33554432(); TestMess::default_instance_ = new TestMess(); TestMessPacked::default_instance_ = new TestMessPacked(); TestMessOptional::default_instance_ = new TestMessOptional(); TestMessRequiredInt32::default_instance_ = new TestMessRequiredInt32(); TestMessRequiredSInt32::default_instance_ = new TestMessRequiredSInt32(); TestMessRequiredSFixed32::default_instance_ = new TestMessRequiredSFixed32(); TestMessRequiredInt64::default_instance_ = new TestMessRequiredInt64(); TestMessRequiredSInt64::default_instance_ = new TestMessRequiredSInt64(); TestMessRequiredSFixed64::default_instance_ = new TestMessRequiredSFixed64(); TestMessRequiredUInt32::default_instance_ = new TestMessRequiredUInt32(); TestMessRequiredFixed32::default_instance_ = new TestMessRequiredFixed32(); TestMessRequiredUInt64::default_instance_ = new TestMessRequiredUInt64(); TestMessRequiredFixed64::default_instance_ = new TestMessRequiredFixed64(); TestMessRequiredFloat::default_instance_ = new TestMessRequiredFloat(); TestMessRequiredDouble::default_instance_ = new TestMessRequiredDouble(); TestMessRequiredBool::default_instance_ = new TestMessRequiredBool(); TestMessRequiredEnum::default_instance_ = new TestMessRequiredEnum(); TestMessRequiredEnumSmall::default_instance_ = new TestMessRequiredEnumSmall(); TestMessRequiredString::default_instance_ = new TestMessRequiredString(); TestMessRequiredBytes::default_instance_ = new TestMessRequiredBytes(); TestMessRequiredMessage::default_instance_ = new TestMessRequiredMessage(); EmptyMess::default_instance_ = new EmptyMess(); DefaultRequiredValues::default_instance_ = new DefaultRequiredValues(); DefaultOptionalValues::default_instance_ = new DefaultOptionalValues(); AllocValues::default_instance_ = new AllocValues(); SubMess::default_instance_->InitAsDefaultInstance(); TestFieldNo15::default_instance_->InitAsDefaultInstance(); TestFieldNo16::default_instance_->InitAsDefaultInstance(); TestFieldNo2047::default_instance_->InitAsDefaultInstance(); TestFieldNo2048::default_instance_->InitAsDefaultInstance(); TestFieldNo262143::default_instance_->InitAsDefaultInstance(); TestFieldNo262144::default_instance_->InitAsDefaultInstance(); TestFieldNo33554431::default_instance_->InitAsDefaultInstance(); TestFieldNo33554432::default_instance_->InitAsDefaultInstance(); TestMess::default_instance_->InitAsDefaultInstance(); TestMessPacked::default_instance_->InitAsDefaultInstance(); TestMessOptional::default_instance_->InitAsDefaultInstance(); TestMessRequiredInt32::default_instance_->InitAsDefaultInstance(); TestMessRequiredSInt32::default_instance_->InitAsDefaultInstance(); TestMessRequiredSFixed32::default_instance_->InitAsDefaultInstance(); TestMessRequiredInt64::default_instance_->InitAsDefaultInstance(); TestMessRequiredSInt64::default_instance_->InitAsDefaultInstance(); TestMessRequiredSFixed64::default_instance_->InitAsDefaultInstance(); TestMessRequiredUInt32::default_instance_->InitAsDefaultInstance(); TestMessRequiredFixed32::default_instance_->InitAsDefaultInstance(); TestMessRequiredUInt64::default_instance_->InitAsDefaultInstance(); TestMessRequiredFixed64::default_instance_->InitAsDefaultInstance(); TestMessRequiredFloat::default_instance_->InitAsDefaultInstance(); TestMessRequiredDouble::default_instance_->InitAsDefaultInstance(); TestMessRequiredBool::default_instance_->InitAsDefaultInstance(); TestMessRequiredEnum::default_instance_->InitAsDefaultInstance(); TestMessRequiredEnumSmall::default_instance_->InitAsDefaultInstance(); TestMessRequiredString::default_instance_->InitAsDefaultInstance(); TestMessRequiredBytes::default_instance_->InitAsDefaultInstance(); TestMessRequiredMessage::default_instance_->InitAsDefaultInstance(); EmptyMess::default_instance_->InitAsDefaultInstance(); DefaultRequiredValues::default_instance_->InitAsDefaultInstance(); DefaultOptionalValues::default_instance_->InitAsDefaultInstance(); AllocValues::default_instance_->InitAsDefaultInstance(); ::google::protobuf::internal::OnShutdown(&protobuf_ShutdownFile_test_2dfull_2eproto); } // Force AddDescriptors() to be called at static initialization time. struct StaticDescriptorInitializer_test_2dfull_2eproto { StaticDescriptorInitializer_test_2dfull_2eproto() { protobuf_AddDesc_test_2dfull_2eproto(); } } static_descriptor_initializer_test_2dfull_2eproto_; const ::google::protobuf::EnumDescriptor* TestEnumSmall_descriptor() { protobuf_AssignDescriptorsOnce(); return TestEnumSmall_descriptor_; } bool TestEnumSmall_IsValid(int value) { switch(value) { case 0: case 1: return true; default: return false; } } const ::google::protobuf::EnumDescriptor* TestEnum_descriptor() { protobuf_AssignDescriptorsOnce(); return TestEnum_descriptor_; } bool TestEnum_IsValid(int value) { switch(value) { case 0: case 1: case 127: case 128: case 16383: case 16384: case 2097151: case 2097152: case 268435455: case 268435456: return true; default: return false; } } const ::google::protobuf::EnumDescriptor* TestEnumDupValues_descriptor() { protobuf_AssignDescriptorsOnce(); return TestEnumDupValues_descriptor_; } bool TestEnumDupValues_IsValid(int value) { switch(value) { case 42: case 666: case 1000: case 1001: return true; default: return false; } } // =================================================================== #ifndef _MSC_VER const int SubMess::kTestFieldNumber; #endif // !_MSC_VER SubMess::SubMess() { SharedCtor(); } void SubMess::InitAsDefaultInstance() { } SubMess::SubMess(const SubMess& from) { SharedCtor(); MergeFrom(from); } void SubMess::SharedCtor() { _cached_size_ = 0; test_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } SubMess::~SubMess() { SharedDtor(); } void SubMess::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* SubMess::descriptor() { protobuf_AssignDescriptorsOnce(); return SubMess_descriptor_; } const SubMess& SubMess::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } SubMess* SubMess::default_instance_ = NULL; SubMess* SubMess::New() const { return new SubMess; } void SubMess::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool SubMess::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required int32 test = 4; case 4: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadInt32( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void SubMess::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { SubMess::SerializeWithCachedSizesToArray(raw_buffer); return; } // required int32 test = 4; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteInt32(4, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* SubMess::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required int32 test = 4; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteInt32ToArray(4, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int SubMess::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required int32 test = 4; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void SubMess::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const SubMess* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void SubMess::MergeFrom(const SubMess& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void SubMess::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void SubMess::CopyFrom(const SubMess& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool SubMess::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void SubMess::Swap(SubMess* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata SubMess::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = SubMess_descriptor_; metadata.reflection = SubMess_reflection_; return metadata; } // =================================================================== const ::std::string TestFieldNo15::_default_test_; #ifndef _MSC_VER const int TestFieldNo15::kTestFieldNumber; #endif // !_MSC_VER TestFieldNo15::TestFieldNo15() { SharedCtor(); } void TestFieldNo15::InitAsDefaultInstance() { } TestFieldNo15::TestFieldNo15(const TestFieldNo15& from) { SharedCtor(); MergeFrom(from); } void TestFieldNo15::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestFieldNo15::~TestFieldNo15() { SharedDtor(); } void TestFieldNo15::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestFieldNo15::descriptor() { protobuf_AssignDescriptorsOnce(); return TestFieldNo15_descriptor_; } const TestFieldNo15& TestFieldNo15::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestFieldNo15* TestFieldNo15::default_instance_ = NULL; TestFieldNo15* TestFieldNo15::New() const { return new TestFieldNo15; } void TestFieldNo15::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestFieldNo15::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required string test = 15; case 15: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestFieldNo15::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestFieldNo15::SerializeWithCachedSizesToArray(raw_buffer); return; } // required string test = 15; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 15, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestFieldNo15::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required string test = 15; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 15, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestFieldNo15::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required string test = 15; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestFieldNo15::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestFieldNo15* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestFieldNo15::MergeFrom(const TestFieldNo15& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestFieldNo15::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestFieldNo15::CopyFrom(const TestFieldNo15& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestFieldNo15::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestFieldNo15::Swap(TestFieldNo15* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestFieldNo15::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestFieldNo15_descriptor_; metadata.reflection = TestFieldNo15_reflection_; return metadata; } // =================================================================== const ::std::string TestFieldNo16::_default_test_; #ifndef _MSC_VER const int TestFieldNo16::kTestFieldNumber; #endif // !_MSC_VER TestFieldNo16::TestFieldNo16() { SharedCtor(); } void TestFieldNo16::InitAsDefaultInstance() { } TestFieldNo16::TestFieldNo16(const TestFieldNo16& from) { SharedCtor(); MergeFrom(from); } void TestFieldNo16::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestFieldNo16::~TestFieldNo16() { SharedDtor(); } void TestFieldNo16::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestFieldNo16::descriptor() { protobuf_AssignDescriptorsOnce(); return TestFieldNo16_descriptor_; } const TestFieldNo16& TestFieldNo16::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestFieldNo16* TestFieldNo16::default_instance_ = NULL; TestFieldNo16* TestFieldNo16::New() const { return new TestFieldNo16; } void TestFieldNo16::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestFieldNo16::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required string test = 16; case 16: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestFieldNo16::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestFieldNo16::SerializeWithCachedSizesToArray(raw_buffer); return; } // required string test = 16; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 16, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestFieldNo16::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required string test = 16; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 16, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestFieldNo16::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required string test = 16; if (has_test()) { total_size += 2 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestFieldNo16::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestFieldNo16* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestFieldNo16::MergeFrom(const TestFieldNo16& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestFieldNo16::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestFieldNo16::CopyFrom(const TestFieldNo16& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestFieldNo16::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestFieldNo16::Swap(TestFieldNo16* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestFieldNo16::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestFieldNo16_descriptor_; metadata.reflection = TestFieldNo16_reflection_; return metadata; } // =================================================================== const ::std::string TestFieldNo2047::_default_test_; #ifndef _MSC_VER const int TestFieldNo2047::kTestFieldNumber; #endif // !_MSC_VER TestFieldNo2047::TestFieldNo2047() { SharedCtor(); } void TestFieldNo2047::InitAsDefaultInstance() { } TestFieldNo2047::TestFieldNo2047(const TestFieldNo2047& from) { SharedCtor(); MergeFrom(from); } void TestFieldNo2047::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestFieldNo2047::~TestFieldNo2047() { SharedDtor(); } void TestFieldNo2047::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestFieldNo2047::descriptor() { protobuf_AssignDescriptorsOnce(); return TestFieldNo2047_descriptor_; } const TestFieldNo2047& TestFieldNo2047::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestFieldNo2047* TestFieldNo2047::default_instance_ = NULL; TestFieldNo2047* TestFieldNo2047::New() const { return new TestFieldNo2047; } void TestFieldNo2047::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestFieldNo2047::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required string test = 2047; case 2047: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestFieldNo2047::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestFieldNo2047::SerializeWithCachedSizesToArray(raw_buffer); return; } // required string test = 2047; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 2047, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestFieldNo2047::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required string test = 2047; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 2047, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestFieldNo2047::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required string test = 2047; if (has_test()) { total_size += 2 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestFieldNo2047::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestFieldNo2047* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestFieldNo2047::MergeFrom(const TestFieldNo2047& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestFieldNo2047::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestFieldNo2047::CopyFrom(const TestFieldNo2047& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestFieldNo2047::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestFieldNo2047::Swap(TestFieldNo2047* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestFieldNo2047::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestFieldNo2047_descriptor_; metadata.reflection = TestFieldNo2047_reflection_; return metadata; } // =================================================================== const ::std::string TestFieldNo2048::_default_test_; #ifndef _MSC_VER const int TestFieldNo2048::kTestFieldNumber; #endif // !_MSC_VER TestFieldNo2048::TestFieldNo2048() { SharedCtor(); } void TestFieldNo2048::InitAsDefaultInstance() { } TestFieldNo2048::TestFieldNo2048(const TestFieldNo2048& from) { SharedCtor(); MergeFrom(from); } void TestFieldNo2048::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestFieldNo2048::~TestFieldNo2048() { SharedDtor(); } void TestFieldNo2048::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestFieldNo2048::descriptor() { protobuf_AssignDescriptorsOnce(); return TestFieldNo2048_descriptor_; } const TestFieldNo2048& TestFieldNo2048::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestFieldNo2048* TestFieldNo2048::default_instance_ = NULL; TestFieldNo2048* TestFieldNo2048::New() const { return new TestFieldNo2048; } void TestFieldNo2048::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestFieldNo2048::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required string test = 2048; case 2048: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestFieldNo2048::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestFieldNo2048::SerializeWithCachedSizesToArray(raw_buffer); return; } // required string test = 2048; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 2048, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestFieldNo2048::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required string test = 2048; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 2048, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestFieldNo2048::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required string test = 2048; if (has_test()) { total_size += 3 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestFieldNo2048::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestFieldNo2048* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestFieldNo2048::MergeFrom(const TestFieldNo2048& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestFieldNo2048::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestFieldNo2048::CopyFrom(const TestFieldNo2048& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestFieldNo2048::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestFieldNo2048::Swap(TestFieldNo2048* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestFieldNo2048::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestFieldNo2048_descriptor_; metadata.reflection = TestFieldNo2048_reflection_; return metadata; } // =================================================================== const ::std::string TestFieldNo262143::_default_test_; #ifndef _MSC_VER const int TestFieldNo262143::kTestFieldNumber; #endif // !_MSC_VER TestFieldNo262143::TestFieldNo262143() { SharedCtor(); } void TestFieldNo262143::InitAsDefaultInstance() { } TestFieldNo262143::TestFieldNo262143(const TestFieldNo262143& from) { SharedCtor(); MergeFrom(from); } void TestFieldNo262143::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestFieldNo262143::~TestFieldNo262143() { SharedDtor(); } void TestFieldNo262143::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestFieldNo262143::descriptor() { protobuf_AssignDescriptorsOnce(); return TestFieldNo262143_descriptor_; } const TestFieldNo262143& TestFieldNo262143::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestFieldNo262143* TestFieldNo262143::default_instance_ = NULL; TestFieldNo262143* TestFieldNo262143::New() const { return new TestFieldNo262143; } void TestFieldNo262143::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestFieldNo262143::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required string test = 262143; case 262143: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestFieldNo262143::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestFieldNo262143::SerializeWithCachedSizesToArray(raw_buffer); return; } // required string test = 262143; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 262143, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestFieldNo262143::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required string test = 262143; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 262143, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestFieldNo262143::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required string test = 262143; if (has_test()) { total_size += 3 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestFieldNo262143::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestFieldNo262143* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestFieldNo262143::MergeFrom(const TestFieldNo262143& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestFieldNo262143::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestFieldNo262143::CopyFrom(const TestFieldNo262143& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestFieldNo262143::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestFieldNo262143::Swap(TestFieldNo262143* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestFieldNo262143::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestFieldNo262143_descriptor_; metadata.reflection = TestFieldNo262143_reflection_; return metadata; } // =================================================================== const ::std::string TestFieldNo262144::_default_test_; #ifndef _MSC_VER const int TestFieldNo262144::kTestFieldNumber; #endif // !_MSC_VER TestFieldNo262144::TestFieldNo262144() { SharedCtor(); } void TestFieldNo262144::InitAsDefaultInstance() { } TestFieldNo262144::TestFieldNo262144(const TestFieldNo262144& from) { SharedCtor(); MergeFrom(from); } void TestFieldNo262144::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestFieldNo262144::~TestFieldNo262144() { SharedDtor(); } void TestFieldNo262144::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestFieldNo262144::descriptor() { protobuf_AssignDescriptorsOnce(); return TestFieldNo262144_descriptor_; } const TestFieldNo262144& TestFieldNo262144::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestFieldNo262144* TestFieldNo262144::default_instance_ = NULL; TestFieldNo262144* TestFieldNo262144::New() const { return new TestFieldNo262144; } void TestFieldNo262144::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestFieldNo262144::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required string test = 262144; case 262144: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestFieldNo262144::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestFieldNo262144::SerializeWithCachedSizesToArray(raw_buffer); return; } // required string test = 262144; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 262144, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestFieldNo262144::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required string test = 262144; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 262144, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestFieldNo262144::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required string test = 262144; if (has_test()) { total_size += 4 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestFieldNo262144::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestFieldNo262144* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestFieldNo262144::MergeFrom(const TestFieldNo262144& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestFieldNo262144::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestFieldNo262144::CopyFrom(const TestFieldNo262144& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestFieldNo262144::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestFieldNo262144::Swap(TestFieldNo262144* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestFieldNo262144::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestFieldNo262144_descriptor_; metadata.reflection = TestFieldNo262144_reflection_; return metadata; } // =================================================================== const ::std::string TestFieldNo33554431::_default_test_; #ifndef _MSC_VER const int TestFieldNo33554431::kTestFieldNumber; #endif // !_MSC_VER TestFieldNo33554431::TestFieldNo33554431() { SharedCtor(); } void TestFieldNo33554431::InitAsDefaultInstance() { } TestFieldNo33554431::TestFieldNo33554431(const TestFieldNo33554431& from) { SharedCtor(); MergeFrom(from); } void TestFieldNo33554431::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestFieldNo33554431::~TestFieldNo33554431() { SharedDtor(); } void TestFieldNo33554431::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestFieldNo33554431::descriptor() { protobuf_AssignDescriptorsOnce(); return TestFieldNo33554431_descriptor_; } const TestFieldNo33554431& TestFieldNo33554431::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestFieldNo33554431* TestFieldNo33554431::default_instance_ = NULL; TestFieldNo33554431* TestFieldNo33554431::New() const { return new TestFieldNo33554431; } void TestFieldNo33554431::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestFieldNo33554431::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required string test = 33554431; case 33554431: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestFieldNo33554431::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestFieldNo33554431::SerializeWithCachedSizesToArray(raw_buffer); return; } // required string test = 33554431; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 33554431, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestFieldNo33554431::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required string test = 33554431; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 33554431, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestFieldNo33554431::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required string test = 33554431; if (has_test()) { total_size += 4 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestFieldNo33554431::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestFieldNo33554431* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestFieldNo33554431::MergeFrom(const TestFieldNo33554431& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestFieldNo33554431::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestFieldNo33554431::CopyFrom(const TestFieldNo33554431& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestFieldNo33554431::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestFieldNo33554431::Swap(TestFieldNo33554431* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestFieldNo33554431::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestFieldNo33554431_descriptor_; metadata.reflection = TestFieldNo33554431_reflection_; return metadata; } // =================================================================== const ::std::string TestFieldNo33554432::_default_test_; #ifndef _MSC_VER const int TestFieldNo33554432::kTestFieldNumber; #endif // !_MSC_VER TestFieldNo33554432::TestFieldNo33554432() { SharedCtor(); } void TestFieldNo33554432::InitAsDefaultInstance() { } TestFieldNo33554432::TestFieldNo33554432(const TestFieldNo33554432& from) { SharedCtor(); MergeFrom(from); } void TestFieldNo33554432::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestFieldNo33554432::~TestFieldNo33554432() { SharedDtor(); } void TestFieldNo33554432::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestFieldNo33554432::descriptor() { protobuf_AssignDescriptorsOnce(); return TestFieldNo33554432_descriptor_; } const TestFieldNo33554432& TestFieldNo33554432::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestFieldNo33554432* TestFieldNo33554432::default_instance_ = NULL; TestFieldNo33554432* TestFieldNo33554432::New() const { return new TestFieldNo33554432; } void TestFieldNo33554432::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestFieldNo33554432::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required string test = 33554432; case 33554432: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestFieldNo33554432::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestFieldNo33554432::SerializeWithCachedSizesToArray(raw_buffer); return; } // required string test = 33554432; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 33554432, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestFieldNo33554432::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required string test = 33554432; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 33554432, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestFieldNo33554432::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required string test = 33554432; if (has_test()) { total_size += 5 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestFieldNo33554432::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestFieldNo33554432* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestFieldNo33554432::MergeFrom(const TestFieldNo33554432& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestFieldNo33554432::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestFieldNo33554432::CopyFrom(const TestFieldNo33554432& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestFieldNo33554432::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestFieldNo33554432::Swap(TestFieldNo33554432* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestFieldNo33554432::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestFieldNo33554432_descriptor_; metadata.reflection = TestFieldNo33554432_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMess::kTestInt32FieldNumber; const int TestMess::kTestSint32FieldNumber; const int TestMess::kTestSfixed32FieldNumber; const int TestMess::kTestInt64FieldNumber; const int TestMess::kTestSint64FieldNumber; const int TestMess::kTestSfixed64FieldNumber; const int TestMess::kTestUint32FieldNumber; const int TestMess::kTestFixed32FieldNumber; const int TestMess::kTestUint64FieldNumber; const int TestMess::kTestFixed64FieldNumber; const int TestMess::kTestFloatFieldNumber; const int TestMess::kTestDoubleFieldNumber; const int TestMess::kTestBooleanFieldNumber; const int TestMess::kTestEnumSmallFieldNumber; const int TestMess::kTestEnumFieldNumber; const int TestMess::kTestStringFieldNumber; const int TestMess::kTestBytesFieldNumber; const int TestMess::kTestMessageFieldNumber; #endif // !_MSC_VER TestMess::TestMess() { SharedCtor(); } void TestMess::InitAsDefaultInstance() { } TestMess::TestMess(const TestMess& from) { SharedCtor(); MergeFrom(from); } void TestMess::SharedCtor() { _cached_size_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMess::~TestMess() { SharedDtor(); } void TestMess::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMess::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMess_descriptor_; } const TestMess& TestMess::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMess* TestMess::default_instance_ = NULL; TestMess* TestMess::New() const { return new TestMess; } void TestMess::Clear() { test_int32_.Clear(); test_sint32_.Clear(); test_sfixed32_.Clear(); test_int64_.Clear(); test_sint64_.Clear(); test_sfixed64_.Clear(); test_uint32_.Clear(); test_fixed32_.Clear(); test_uint64_.Clear(); test_fixed64_.Clear(); test_float_.Clear(); test_double_.Clear(); test_boolean_.Clear(); test_enum_small_.Clear(); test_enum_.Clear(); test_string_.Clear(); test_bytes_.Clear(); test_message_.Clear(); ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMess::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // repeated int32 test_int32 = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_int32: ::google::protobuf::int32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadInt32( input, &value)); add_test_int32(value); if (input->ExpectTag(8)) goto parse_test_int32; if (input->ExpectTag(16)) goto parse_test_sint32; break; } // repeated sint32 test_sint32 = 2; case 2: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_sint32: ::google::protobuf::int32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadSInt32( input, &value)); add_test_sint32(value); if (input->ExpectTag(16)) goto parse_test_sint32; if (input->ExpectTag(29)) goto parse_test_sfixed32; break; } // repeated sfixed32 test_sfixed32 = 3; case 3: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } parse_test_sfixed32: ::google::protobuf::int32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadSFixed32( input, &value)); add_test_sfixed32(value); if (input->ExpectTag(29)) goto parse_test_sfixed32; if (input->ExpectTag(32)) goto parse_test_int64; break; } // repeated int64 test_int64 = 4; case 4: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_int64: ::google::protobuf::int64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadInt64( input, &value)); add_test_int64(value); if (input->ExpectTag(32)) goto parse_test_int64; if (input->ExpectTag(40)) goto parse_test_sint64; break; } // repeated sint64 test_sint64 = 5; case 5: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_sint64: ::google::protobuf::int64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadSInt64( input, &value)); add_test_sint64(value); if (input->ExpectTag(40)) goto parse_test_sint64; if (input->ExpectTag(49)) goto parse_test_sfixed64; break; } // repeated sfixed64 test_sfixed64 = 6; case 6: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } parse_test_sfixed64: ::google::protobuf::int64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadSFixed64( input, &value)); add_test_sfixed64(value); if (input->ExpectTag(49)) goto parse_test_sfixed64; if (input->ExpectTag(56)) goto parse_test_uint32; break; } // repeated uint32 test_uint32 = 7; case 7: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_uint32: ::google::protobuf::uint32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadUInt32( input, &value)); add_test_uint32(value); if (input->ExpectTag(56)) goto parse_test_uint32; if (input->ExpectTag(69)) goto parse_test_fixed32; break; } // repeated fixed32 test_fixed32 = 8; case 8: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } parse_test_fixed32: ::google::protobuf::uint32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadFixed32( input, &value)); add_test_fixed32(value); if (input->ExpectTag(69)) goto parse_test_fixed32; if (input->ExpectTag(72)) goto parse_test_uint64; break; } // repeated uint64 test_uint64 = 9; case 9: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_uint64: ::google::protobuf::uint64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadUInt64( input, &value)); add_test_uint64(value); if (input->ExpectTag(72)) goto parse_test_uint64; if (input->ExpectTag(81)) goto parse_test_fixed64; break; } // repeated fixed64 test_fixed64 = 10; case 10: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } parse_test_fixed64: ::google::protobuf::uint64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadFixed64( input, &value)); add_test_fixed64(value); if (input->ExpectTag(81)) goto parse_test_fixed64; if (input->ExpectTag(93)) goto parse_test_float; break; } // repeated float test_float = 11; case 11: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } parse_test_float: float value; DO_(::google::protobuf::internal::WireFormatLite::ReadFloat( input, &value)); add_test_float(value); if (input->ExpectTag(93)) goto parse_test_float; if (input->ExpectTag(97)) goto parse_test_double; break; } // repeated double test_double = 12; case 12: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } parse_test_double: double value; DO_(::google::protobuf::internal::WireFormatLite::ReadDouble( input, &value)); add_test_double(value); if (input->ExpectTag(97)) goto parse_test_double; if (input->ExpectTag(104)) goto parse_test_boolean; break; } // repeated bool test_boolean = 13; case 13: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_boolean: bool value; DO_(::google::protobuf::internal::WireFormatLite::ReadBool( input, &value)); add_test_boolean(value); if (input->ExpectTag(104)) goto parse_test_boolean; if (input->ExpectTag(112)) goto parse_test_enum_small; break; } // repeated .foo.TestEnumSmall test_enum_small = 14; case 14: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_enum_small: int value; DO_(::google::protobuf::internal::WireFormatLite::ReadEnum(input, &value)); if (foo::TestEnumSmall_IsValid(value)) { add_test_enum_small(static_cast< foo::TestEnumSmall >(value)); } else { mutable_unknown_fields()->AddVarint(14, value); } if (input->ExpectTag(112)) goto parse_test_enum_small; if (input->ExpectTag(120)) goto parse_test_enum; break; } // repeated .foo.TestEnum test_enum = 15; case 15: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_enum: int value; DO_(::google::protobuf::internal::WireFormatLite::ReadEnum(input, &value)); if (foo::TestEnum_IsValid(value)) { add_test_enum(static_cast< foo::TestEnum >(value)); } else { mutable_unknown_fields()->AddVarint(15, value); } if (input->ExpectTag(120)) goto parse_test_enum; if (input->ExpectTag(130)) goto parse_test_string; break; } // repeated string test_string = 16; case 16: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_string: DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->add_test_string())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test_string(0).data(), this->test_string(0).length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectTag(130)) goto parse_test_string; if (input->ExpectTag(138)) goto parse_test_bytes; break; } // repeated bytes test_bytes = 17; case 17: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_bytes: DO_(::google::protobuf::internal::WireFormatLite::ReadBytes( input, this->add_test_bytes())); if (input->ExpectTag(138)) goto parse_test_bytes; if (input->ExpectTag(146)) goto parse_test_message; break; } // repeated .foo.SubMess test_message = 18; case 18: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_message: DO_(::google::protobuf::internal::WireFormatLite::ReadMessageNoVirtual( input, add_test_message())); if (input->ExpectTag(146)) goto parse_test_message; if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMess::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMess::SerializeWithCachedSizesToArray(raw_buffer); return; } // repeated int32 test_int32 = 1; for (int i = 0; i < this->test_int32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteInt32( 1, this->test_int32(i), output); } // repeated sint32 test_sint32 = 2; for (int i = 0; i < this->test_sint32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteSInt32( 2, this->test_sint32(i), output); } // repeated sfixed32 test_sfixed32 = 3; for (int i = 0; i < this->test_sfixed32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteSFixed32( 3, this->test_sfixed32(i), output); } // repeated int64 test_int64 = 4; for (int i = 0; i < this->test_int64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteInt64( 4, this->test_int64(i), output); } // repeated sint64 test_sint64 = 5; for (int i = 0; i < this->test_sint64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteSInt64( 5, this->test_sint64(i), output); } // repeated sfixed64 test_sfixed64 = 6; for (int i = 0; i < this->test_sfixed64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteSFixed64( 6, this->test_sfixed64(i), output); } // repeated uint32 test_uint32 = 7; for (int i = 0; i < this->test_uint32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteUInt32( 7, this->test_uint32(i), output); } // repeated fixed32 test_fixed32 = 8; for (int i = 0; i < this->test_fixed32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteFixed32( 8, this->test_fixed32(i), output); } // repeated uint64 test_uint64 = 9; for (int i = 0; i < this->test_uint64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteUInt64( 9, this->test_uint64(i), output); } // repeated fixed64 test_fixed64 = 10; for (int i = 0; i < this->test_fixed64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteFixed64( 10, this->test_fixed64(i), output); } // repeated float test_float = 11; for (int i = 0; i < this->test_float_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteFloat( 11, this->test_float(i), output); } // repeated double test_double = 12; for (int i = 0; i < this->test_double_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteDouble( 12, this->test_double(i), output); } // repeated bool test_boolean = 13; for (int i = 0; i < this->test_boolean_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteBool( 13, this->test_boolean(i), output); } // repeated .foo.TestEnumSmall test_enum_small = 14; for (int i = 0; i < this->test_enum_small_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteEnum( 14, this->test_enum_small(i), output); } // repeated .foo.TestEnum test_enum = 15; for (int i = 0; i < this->test_enum_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteEnum( 15, this->test_enum(i), output); } // repeated string test_string = 16; for (int i = 0; i < this->test_string_size(); i++) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test_string(i).data(), this->test_string(i).length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 16, this->test_string(i), output); } // repeated bytes test_bytes = 17; for (int i = 0; i < this->test_bytes_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteBytes( 17, this->test_bytes(i), output); } // repeated .foo.SubMess test_message = 18; for (int i = 0; i < this->test_message_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteMessageNoVirtual( 18, this->test_message(i), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMess::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // repeated int32 test_int32 = 1; for (int i = 0; i < this->test_int32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteInt32ToArray(1, this->test_int32(i), target); } // repeated sint32 test_sint32 = 2; for (int i = 0; i < this->test_sint32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteSInt32ToArray(2, this->test_sint32(i), target); } // repeated sfixed32 test_sfixed32 = 3; for (int i = 0; i < this->test_sfixed32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteSFixed32ToArray(3, this->test_sfixed32(i), target); } // repeated int64 test_int64 = 4; for (int i = 0; i < this->test_int64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteInt64ToArray(4, this->test_int64(i), target); } // repeated sint64 test_sint64 = 5; for (int i = 0; i < this->test_sint64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteSInt64ToArray(5, this->test_sint64(i), target); } // repeated sfixed64 test_sfixed64 = 6; for (int i = 0; i < this->test_sfixed64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteSFixed64ToArray(6, this->test_sfixed64(i), target); } // repeated uint32 test_uint32 = 7; for (int i = 0; i < this->test_uint32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteUInt32ToArray(7, this->test_uint32(i), target); } // repeated fixed32 test_fixed32 = 8; for (int i = 0; i < this->test_fixed32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteFixed32ToArray(8, this->test_fixed32(i), target); } // repeated uint64 test_uint64 = 9; for (int i = 0; i < this->test_uint64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteUInt64ToArray(9, this->test_uint64(i), target); } // repeated fixed64 test_fixed64 = 10; for (int i = 0; i < this->test_fixed64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteFixed64ToArray(10, this->test_fixed64(i), target); } // repeated float test_float = 11; for (int i = 0; i < this->test_float_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteFloatToArray(11, this->test_float(i), target); } // repeated double test_double = 12; for (int i = 0; i < this->test_double_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteDoubleToArray(12, this->test_double(i), target); } // repeated bool test_boolean = 13; for (int i = 0; i < this->test_boolean_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteBoolToArray(13, this->test_boolean(i), target); } // repeated .foo.TestEnumSmall test_enum_small = 14; for (int i = 0; i < this->test_enum_small_size(); i++) { target = ::google::protobuf::internal::WireFormatLite::WriteEnumToArray( 14, this->test_enum_small(i), target); } // repeated .foo.TestEnum test_enum = 15; for (int i = 0; i < this->test_enum_size(); i++) { target = ::google::protobuf::internal::WireFormatLite::WriteEnumToArray( 15, this->test_enum(i), target); } // repeated string test_string = 16; for (int i = 0; i < this->test_string_size(); i++) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test_string(i).data(), this->test_string(i).length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite:: WriteStringToArray(16, this->test_string(i), target); } // repeated bytes test_bytes = 17; for (int i = 0; i < this->test_bytes_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteBytesToArray(17, this->test_bytes(i), target); } // repeated .foo.SubMess test_message = 18; for (int i = 0; i < this->test_message_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteMessageNoVirtualToArray( 18, this->test_message(i), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMess::ByteSize() const { int total_size = 0; // repeated int32 test_int32 = 1; { int data_size = 0; for (int i = 0; i < this->test_int32_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: Int32Size(this->test_int32(i)); } total_size += 1 * this->test_int32_size() + data_size; } // repeated sint32 test_sint32 = 2; { int data_size = 0; for (int i = 0; i < this->test_sint32_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: SInt32Size(this->test_sint32(i)); } total_size += 1 * this->test_sint32_size() + data_size; } // repeated sfixed32 test_sfixed32 = 3; { int data_size = 0; data_size = 4 * this->test_sfixed32_size(); total_size += 1 * this->test_sfixed32_size() + data_size; } // repeated int64 test_int64 = 4; { int data_size = 0; for (int i = 0; i < this->test_int64_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: Int64Size(this->test_int64(i)); } total_size += 1 * this->test_int64_size() + data_size; } // repeated sint64 test_sint64 = 5; { int data_size = 0; for (int i = 0; i < this->test_sint64_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: SInt64Size(this->test_sint64(i)); } total_size += 1 * this->test_sint64_size() + data_size; } // repeated sfixed64 test_sfixed64 = 6; { int data_size = 0; data_size = 8 * this->test_sfixed64_size(); total_size += 1 * this->test_sfixed64_size() + data_size; } // repeated uint32 test_uint32 = 7; { int data_size = 0; for (int i = 0; i < this->test_uint32_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: UInt32Size(this->test_uint32(i)); } total_size += 1 * this->test_uint32_size() + data_size; } // repeated fixed32 test_fixed32 = 8; { int data_size = 0; data_size = 4 * this->test_fixed32_size(); total_size += 1 * this->test_fixed32_size() + data_size; } // repeated uint64 test_uint64 = 9; { int data_size = 0; for (int i = 0; i < this->test_uint64_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: UInt64Size(this->test_uint64(i)); } total_size += 1 * this->test_uint64_size() + data_size; } // repeated fixed64 test_fixed64 = 10; { int data_size = 0; data_size = 8 * this->test_fixed64_size(); total_size += 1 * this->test_fixed64_size() + data_size; } // repeated float test_float = 11; { int data_size = 0; data_size = 4 * this->test_float_size(); total_size += 1 * this->test_float_size() + data_size; } // repeated double test_double = 12; { int data_size = 0; data_size = 8 * this->test_double_size(); total_size += 1 * this->test_double_size() + data_size; } // repeated bool test_boolean = 13; { int data_size = 0; data_size = 1 * this->test_boolean_size(); total_size += 1 * this->test_boolean_size() + data_size; } // repeated .foo.TestEnumSmall test_enum_small = 14; { int data_size = 0; for (int i = 0; i < this->test_enum_small_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite::EnumSize( this->test_enum_small(i)); } total_size += 1 * this->test_enum_small_size() + data_size; } // repeated .foo.TestEnum test_enum = 15; { int data_size = 0; for (int i = 0; i < this->test_enum_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite::EnumSize( this->test_enum(i)); } total_size += 1 * this->test_enum_size() + data_size; } // repeated string test_string = 16; total_size += 2 * this->test_string_size(); for (int i = 0; i < this->test_string_size(); i++) { total_size += ::google::protobuf::internal::WireFormatLite::StringSize( this->test_string(i)); } // repeated bytes test_bytes = 17; total_size += 2 * this->test_bytes_size(); for (int i = 0; i < this->test_bytes_size(); i++) { total_size += ::google::protobuf::internal::WireFormatLite::BytesSize( this->test_bytes(i)); } // repeated .foo.SubMess test_message = 18; total_size += 2 * this->test_message_size(); for (int i = 0; i < this->test_message_size(); i++) { total_size += ::google::protobuf::internal::WireFormatLite::MessageSizeNoVirtual( this->test_message(i)); } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMess::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMess* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMess::MergeFrom(const TestMess& from) { GOOGLE_CHECK_NE(&from, this); test_int32_.MergeFrom(from.test_int32_); test_sint32_.MergeFrom(from.test_sint32_); test_sfixed32_.MergeFrom(from.test_sfixed32_); test_int64_.MergeFrom(from.test_int64_); test_sint64_.MergeFrom(from.test_sint64_); test_sfixed64_.MergeFrom(from.test_sfixed64_); test_uint32_.MergeFrom(from.test_uint32_); test_fixed32_.MergeFrom(from.test_fixed32_); test_uint64_.MergeFrom(from.test_uint64_); test_fixed64_.MergeFrom(from.test_fixed64_); test_float_.MergeFrom(from.test_float_); test_double_.MergeFrom(from.test_double_); test_boolean_.MergeFrom(from.test_boolean_); test_enum_small_.MergeFrom(from.test_enum_small_); test_enum_.MergeFrom(from.test_enum_); test_string_.MergeFrom(from.test_string_); test_bytes_.MergeFrom(from.test_bytes_); test_message_.MergeFrom(from.test_message_); mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMess::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMess::CopyFrom(const TestMess& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMess::IsInitialized() const { for (int i = 0; i < test_message_size(); i++) { if (!this->test_message(i).IsInitialized()) return false; } return true; } void TestMess::Swap(TestMess* other) { if (other != this) { test_int32_.Swap(&other->test_int32_); test_sint32_.Swap(&other->test_sint32_); test_sfixed32_.Swap(&other->test_sfixed32_); test_int64_.Swap(&other->test_int64_); test_sint64_.Swap(&other->test_sint64_); test_sfixed64_.Swap(&other->test_sfixed64_); test_uint32_.Swap(&other->test_uint32_); test_fixed32_.Swap(&other->test_fixed32_); test_uint64_.Swap(&other->test_uint64_); test_fixed64_.Swap(&other->test_fixed64_); test_float_.Swap(&other->test_float_); test_double_.Swap(&other->test_double_); test_boolean_.Swap(&other->test_boolean_); test_enum_small_.Swap(&other->test_enum_small_); test_enum_.Swap(&other->test_enum_); test_string_.Swap(&other->test_string_); test_bytes_.Swap(&other->test_bytes_); test_message_.Swap(&other->test_message_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMess::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMess_descriptor_; metadata.reflection = TestMess_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessPacked::kTestInt32FieldNumber; const int TestMessPacked::kTestSint32FieldNumber; const int TestMessPacked::kTestSfixed32FieldNumber; const int TestMessPacked::kTestInt64FieldNumber; const int TestMessPacked::kTestSint64FieldNumber; const int TestMessPacked::kTestSfixed64FieldNumber; const int TestMessPacked::kTestUint32FieldNumber; const int TestMessPacked::kTestFixed32FieldNumber; const int TestMessPacked::kTestUint64FieldNumber; const int TestMessPacked::kTestFixed64FieldNumber; const int TestMessPacked::kTestFloatFieldNumber; const int TestMessPacked::kTestDoubleFieldNumber; const int TestMessPacked::kTestBooleanFieldNumber; const int TestMessPacked::kTestEnumSmallFieldNumber; const int TestMessPacked::kTestEnumFieldNumber; #endif // !_MSC_VER TestMessPacked::TestMessPacked() { SharedCtor(); } void TestMessPacked::InitAsDefaultInstance() { } TestMessPacked::TestMessPacked(const TestMessPacked& from) { SharedCtor(); MergeFrom(from); } void TestMessPacked::SharedCtor() { _cached_size_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessPacked::~TestMessPacked() { SharedDtor(); } void TestMessPacked::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessPacked::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessPacked_descriptor_; } const TestMessPacked& TestMessPacked::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessPacked* TestMessPacked::default_instance_ = NULL; TestMessPacked* TestMessPacked::New() const { return new TestMessPacked; } void TestMessPacked::Clear() { test_int32_.Clear(); test_sint32_.Clear(); test_sfixed32_.Clear(); test_int64_.Clear(); test_sint64_.Clear(); test_sfixed64_.Clear(); test_uint32_.Clear(); test_fixed32_.Clear(); test_uint64_.Clear(); test_fixed64_.Clear(); test_float_.Clear(); test_double_.Clear(); test_boolean_.Clear(); test_enum_small_.Clear(); test_enum_.Clear(); ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessPacked::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // repeated int32 test_int32 = 1 [packed = true]; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::int32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadInt32( input, &value)); add_test_int32(value); } input->PopLimit(limit); } if (input->ExpectTag(18)) goto parse_test_sint32; break; } // repeated sint32 test_sint32 = 2 [packed = true]; case 2: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_sint32: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::int32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadSInt32( input, &value)); add_test_sint32(value); } input->PopLimit(limit); } if (input->ExpectTag(26)) goto parse_test_sfixed32; break; } // repeated sfixed32 test_sfixed32 = 3 [packed = true]; case 3: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_sfixed32: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::int32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadSFixed32( input, &value)); add_test_sfixed32(value); } input->PopLimit(limit); } if (input->ExpectTag(34)) goto parse_test_int64; break; } // repeated int64 test_int64 = 4 [packed = true]; case 4: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_int64: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::int64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadInt64( input, &value)); add_test_int64(value); } input->PopLimit(limit); } if (input->ExpectTag(42)) goto parse_test_sint64; break; } // repeated sint64 test_sint64 = 5 [packed = true]; case 5: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_sint64: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::int64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadSInt64( input, &value)); add_test_sint64(value); } input->PopLimit(limit); } if (input->ExpectTag(50)) goto parse_test_sfixed64; break; } // repeated sfixed64 test_sfixed64 = 6 [packed = true]; case 6: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_sfixed64: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::int64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadSFixed64( input, &value)); add_test_sfixed64(value); } input->PopLimit(limit); } if (input->ExpectTag(58)) goto parse_test_uint32; break; } // repeated uint32 test_uint32 = 7 [packed = true]; case 7: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_uint32: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::uint32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadUInt32( input, &value)); add_test_uint32(value); } input->PopLimit(limit); } if (input->ExpectTag(66)) goto parse_test_fixed32; break; } // repeated fixed32 test_fixed32 = 8 [packed = true]; case 8: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_fixed32: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::uint32 value; DO_(::google::protobuf::internal::WireFormatLite::ReadFixed32( input, &value)); add_test_fixed32(value); } input->PopLimit(limit); } if (input->ExpectTag(74)) goto parse_test_uint64; break; } // repeated uint64 test_uint64 = 9 [packed = true]; case 9: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_uint64: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::uint64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadUInt64( input, &value)); add_test_uint64(value); } input->PopLimit(limit); } if (input->ExpectTag(82)) goto parse_test_fixed64; break; } // repeated fixed64 test_fixed64 = 10 [packed = true]; case 10: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_fixed64: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { ::google::protobuf::uint64 value; DO_(::google::protobuf::internal::WireFormatLite::ReadFixed64( input, &value)); add_test_fixed64(value); } input->PopLimit(limit); } if (input->ExpectTag(90)) goto parse_test_float; break; } // repeated float test_float = 11 [packed = true]; case 11: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_float: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { float value; DO_(::google::protobuf::internal::WireFormatLite::ReadFloat( input, &value)); add_test_float(value); } input->PopLimit(limit); } if (input->ExpectTag(98)) goto parse_test_double; break; } // repeated double test_double = 12 [packed = true]; case 12: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_double: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { double value; DO_(::google::protobuf::internal::WireFormatLite::ReadDouble( input, &value)); add_test_double(value); } input->PopLimit(limit); } if (input->ExpectTag(106)) goto parse_test_boolean; break; } // repeated bool test_boolean = 13 [packed = true]; case 13: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_boolean: { ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { bool value; DO_(::google::protobuf::internal::WireFormatLite::ReadBool( input, &value)); add_test_boolean(value); } input->PopLimit(limit); } if (input->ExpectTag(114)) goto parse_test_enum_small; break; } // repeated .foo.TestEnumSmall test_enum_small = 14 [packed = true]; case 14: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_enum_small: ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { int value; DO_(::google::protobuf::internal::WireFormatLite::ReadEnum(input, &value)); if (foo::TestEnumSmall_IsValid(value)) { add_test_enum_small(static_cast< foo::TestEnumSmall >(value)); } } input->PopLimit(limit); if (input->ExpectTag(122)) goto parse_test_enum; break; } // repeated .foo.TestEnum test_enum = 15 [packed = true]; case 15: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_enum: ::google::protobuf::uint32 length; DO_(input->ReadVarint32(&length)); ::google::protobuf::io::CodedInputStream::Limit limit = input->PushLimit(length); while (input->BytesUntilLimit() > 0) { int value; DO_(::google::protobuf::internal::WireFormatLite::ReadEnum(input, &value)); if (foo::TestEnum_IsValid(value)) { add_test_enum(static_cast< foo::TestEnum >(value)); } } input->PopLimit(limit); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessPacked::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessPacked::SerializeWithCachedSizesToArray(raw_buffer); return; } // repeated int32 test_int32 = 1 [packed = true]; if (this->test_int32_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(1, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_int32_cached_byte_size_); } for (int i = 0; i < this->test_int32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteInt32NoTag( this->test_int32(i), output); } // repeated sint32 test_sint32 = 2 [packed = true]; if (this->test_sint32_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(2, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_sint32_cached_byte_size_); } for (int i = 0; i < this->test_sint32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteSInt32NoTag( this->test_sint32(i), output); } // repeated sfixed32 test_sfixed32 = 3 [packed = true]; if (this->test_sfixed32_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(3, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_sfixed32_cached_byte_size_); } for (int i = 0; i < this->test_sfixed32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteSFixed32NoTag( this->test_sfixed32(i), output); } // repeated int64 test_int64 = 4 [packed = true]; if (this->test_int64_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(4, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_int64_cached_byte_size_); } for (int i = 0; i < this->test_int64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteInt64NoTag( this->test_int64(i), output); } // repeated sint64 test_sint64 = 5 [packed = true]; if (this->test_sint64_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(5, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_sint64_cached_byte_size_); } for (int i = 0; i < this->test_sint64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteSInt64NoTag( this->test_sint64(i), output); } // repeated sfixed64 test_sfixed64 = 6 [packed = true]; if (this->test_sfixed64_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(6, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_sfixed64_cached_byte_size_); } for (int i = 0; i < this->test_sfixed64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteSFixed64NoTag( this->test_sfixed64(i), output); } // repeated uint32 test_uint32 = 7 [packed = true]; if (this->test_uint32_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(7, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_uint32_cached_byte_size_); } for (int i = 0; i < this->test_uint32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteUInt32NoTag( this->test_uint32(i), output); } // repeated fixed32 test_fixed32 = 8 [packed = true]; if (this->test_fixed32_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(8, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_fixed32_cached_byte_size_); } for (int i = 0; i < this->test_fixed32_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteFixed32NoTag( this->test_fixed32(i), output); } // repeated uint64 test_uint64 = 9 [packed = true]; if (this->test_uint64_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(9, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_uint64_cached_byte_size_); } for (int i = 0; i < this->test_uint64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteUInt64NoTag( this->test_uint64(i), output); } // repeated fixed64 test_fixed64 = 10 [packed = true]; if (this->test_fixed64_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(10, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_fixed64_cached_byte_size_); } for (int i = 0; i < this->test_fixed64_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteFixed64NoTag( this->test_fixed64(i), output); } // repeated float test_float = 11 [packed = true]; if (this->test_float_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(11, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_float_cached_byte_size_); } for (int i = 0; i < this->test_float_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteFloatNoTag( this->test_float(i), output); } // repeated double test_double = 12 [packed = true]; if (this->test_double_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(12, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_double_cached_byte_size_); } for (int i = 0; i < this->test_double_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteDoubleNoTag( this->test_double(i), output); } // repeated bool test_boolean = 13 [packed = true]; if (this->test_boolean_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag(13, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_boolean_cached_byte_size_); } for (int i = 0; i < this->test_boolean_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteBoolNoTag( this->test_boolean(i), output); } // repeated .foo.TestEnumSmall test_enum_small = 14 [packed = true]; if (this->test_enum_small_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag( 14, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_enum_small_cached_byte_size_); } for (int i = 0; i < this->test_enum_small_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteEnumNoTag( this->test_enum_small(i), output); } // repeated .foo.TestEnum test_enum = 15 [packed = true]; if (this->test_enum_size() > 0) { ::google::protobuf::internal::WireFormatLite::WriteTag( 15, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, output); output->WriteVarint32(_test_enum_cached_byte_size_); } for (int i = 0; i < this->test_enum_size(); i++) { ::google::protobuf::internal::WireFormatLite::WriteEnumNoTag( this->test_enum(i), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessPacked::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // repeated int32 test_int32 = 1 [packed = true]; if (this->test_int32_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 1, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_int32_cached_byte_size_, target); } for (int i = 0; i < this->test_int32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteInt32NoTagToArray(this->test_int32(i), target); } // repeated sint32 test_sint32 = 2 [packed = true]; if (this->test_sint32_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 2, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_sint32_cached_byte_size_, target); } for (int i = 0; i < this->test_sint32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteSInt32NoTagToArray(this->test_sint32(i), target); } // repeated sfixed32 test_sfixed32 = 3 [packed = true]; if (this->test_sfixed32_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 3, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_sfixed32_cached_byte_size_, target); } for (int i = 0; i < this->test_sfixed32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteSFixed32NoTagToArray(this->test_sfixed32(i), target); } // repeated int64 test_int64 = 4 [packed = true]; if (this->test_int64_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 4, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_int64_cached_byte_size_, target); } for (int i = 0; i < this->test_int64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteInt64NoTagToArray(this->test_int64(i), target); } // repeated sint64 test_sint64 = 5 [packed = true]; if (this->test_sint64_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 5, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_sint64_cached_byte_size_, target); } for (int i = 0; i < this->test_sint64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteSInt64NoTagToArray(this->test_sint64(i), target); } // repeated sfixed64 test_sfixed64 = 6 [packed = true]; if (this->test_sfixed64_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 6, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_sfixed64_cached_byte_size_, target); } for (int i = 0; i < this->test_sfixed64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteSFixed64NoTagToArray(this->test_sfixed64(i), target); } // repeated uint32 test_uint32 = 7 [packed = true]; if (this->test_uint32_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 7, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_uint32_cached_byte_size_, target); } for (int i = 0; i < this->test_uint32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteUInt32NoTagToArray(this->test_uint32(i), target); } // repeated fixed32 test_fixed32 = 8 [packed = true]; if (this->test_fixed32_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 8, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_fixed32_cached_byte_size_, target); } for (int i = 0; i < this->test_fixed32_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteFixed32NoTagToArray(this->test_fixed32(i), target); } // repeated uint64 test_uint64 = 9 [packed = true]; if (this->test_uint64_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 9, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_uint64_cached_byte_size_, target); } for (int i = 0; i < this->test_uint64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteUInt64NoTagToArray(this->test_uint64(i), target); } // repeated fixed64 test_fixed64 = 10 [packed = true]; if (this->test_fixed64_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 10, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_fixed64_cached_byte_size_, target); } for (int i = 0; i < this->test_fixed64_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteFixed64NoTagToArray(this->test_fixed64(i), target); } // repeated float test_float = 11 [packed = true]; if (this->test_float_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 11, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_float_cached_byte_size_, target); } for (int i = 0; i < this->test_float_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteFloatNoTagToArray(this->test_float(i), target); } // repeated double test_double = 12 [packed = true]; if (this->test_double_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 12, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_double_cached_byte_size_, target); } for (int i = 0; i < this->test_double_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteDoubleNoTagToArray(this->test_double(i), target); } // repeated bool test_boolean = 13 [packed = true]; if (this->test_boolean_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 13, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_boolean_cached_byte_size_, target); } for (int i = 0; i < this->test_boolean_size(); i++) { target = ::google::protobuf::internal::WireFormatLite:: WriteBoolNoTagToArray(this->test_boolean(i), target); } // repeated .foo.TestEnumSmall test_enum_small = 14 [packed = true]; if (this->test_enum_small_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 14, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_enum_small_cached_byte_size_, target); } for (int i = 0; i < this->test_enum_small_size(); i++) { target = ::google::protobuf::internal::WireFormatLite::WriteEnumNoTagToArray( this->test_enum_small(i), target); } // repeated .foo.TestEnum test_enum = 15 [packed = true]; if (this->test_enum_size() > 0) { target = ::google::protobuf::internal::WireFormatLite::WriteTagToArray( 15, ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED, target); target = ::google::protobuf::io::CodedOutputStream::WriteVarint32ToArray( _test_enum_cached_byte_size_, target); } for (int i = 0; i < this->test_enum_size(); i++) { target = ::google::protobuf::internal::WireFormatLite::WriteEnumNoTagToArray( this->test_enum(i), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessPacked::ByteSize() const { int total_size = 0; // repeated int32 test_int32 = 1 [packed = true]; { int data_size = 0; for (int i = 0; i < this->test_int32_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: Int32Size(this->test_int32(i)); } if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_int32_cached_byte_size_ = data_size; total_size += data_size; } // repeated sint32 test_sint32 = 2 [packed = true]; { int data_size = 0; for (int i = 0; i < this->test_sint32_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: SInt32Size(this->test_sint32(i)); } if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_sint32_cached_byte_size_ = data_size; total_size += data_size; } // repeated sfixed32 test_sfixed32 = 3 [packed = true]; { int data_size = 0; data_size = 4 * this->test_sfixed32_size(); if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_sfixed32_cached_byte_size_ = data_size; total_size += data_size; } // repeated int64 test_int64 = 4 [packed = true]; { int data_size = 0; for (int i = 0; i < this->test_int64_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: Int64Size(this->test_int64(i)); } if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_int64_cached_byte_size_ = data_size; total_size += data_size; } // repeated sint64 test_sint64 = 5 [packed = true]; { int data_size = 0; for (int i = 0; i < this->test_sint64_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: SInt64Size(this->test_sint64(i)); } if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_sint64_cached_byte_size_ = data_size; total_size += data_size; } // repeated sfixed64 test_sfixed64 = 6 [packed = true]; { int data_size = 0; data_size = 8 * this->test_sfixed64_size(); if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_sfixed64_cached_byte_size_ = data_size; total_size += data_size; } // repeated uint32 test_uint32 = 7 [packed = true]; { int data_size = 0; for (int i = 0; i < this->test_uint32_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: UInt32Size(this->test_uint32(i)); } if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_uint32_cached_byte_size_ = data_size; total_size += data_size; } // repeated fixed32 test_fixed32 = 8 [packed = true]; { int data_size = 0; data_size = 4 * this->test_fixed32_size(); if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_fixed32_cached_byte_size_ = data_size; total_size += data_size; } // repeated uint64 test_uint64 = 9 [packed = true]; { int data_size = 0; for (int i = 0; i < this->test_uint64_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite:: UInt64Size(this->test_uint64(i)); } if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_uint64_cached_byte_size_ = data_size; total_size += data_size; } // repeated fixed64 test_fixed64 = 10 [packed = true]; { int data_size = 0; data_size = 8 * this->test_fixed64_size(); if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_fixed64_cached_byte_size_ = data_size; total_size += data_size; } // repeated float test_float = 11 [packed = true]; { int data_size = 0; data_size = 4 * this->test_float_size(); if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_float_cached_byte_size_ = data_size; total_size += data_size; } // repeated double test_double = 12 [packed = true]; { int data_size = 0; data_size = 8 * this->test_double_size(); if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_double_cached_byte_size_ = data_size; total_size += data_size; } // repeated bool test_boolean = 13 [packed = true]; { int data_size = 0; data_size = 1 * this->test_boolean_size(); if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_boolean_cached_byte_size_ = data_size; total_size += data_size; } // repeated .foo.TestEnumSmall test_enum_small = 14 [packed = true]; { int data_size = 0; for (int i = 0; i < this->test_enum_small_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite::EnumSize( this->test_enum_small(i)); } if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_enum_small_cached_byte_size_ = data_size; total_size += data_size; } // repeated .foo.TestEnum test_enum = 15 [packed = true]; { int data_size = 0; for (int i = 0; i < this->test_enum_size(); i++) { data_size += ::google::protobuf::internal::WireFormatLite::EnumSize( this->test_enum(i)); } if (data_size > 0) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size(data_size); } _test_enum_cached_byte_size_ = data_size; total_size += data_size; } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessPacked::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessPacked* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessPacked::MergeFrom(const TestMessPacked& from) { GOOGLE_CHECK_NE(&from, this); test_int32_.MergeFrom(from.test_int32_); test_sint32_.MergeFrom(from.test_sint32_); test_sfixed32_.MergeFrom(from.test_sfixed32_); test_int64_.MergeFrom(from.test_int64_); test_sint64_.MergeFrom(from.test_sint64_); test_sfixed64_.MergeFrom(from.test_sfixed64_); test_uint32_.MergeFrom(from.test_uint32_); test_fixed32_.MergeFrom(from.test_fixed32_); test_uint64_.MergeFrom(from.test_uint64_); test_fixed64_.MergeFrom(from.test_fixed64_); test_float_.MergeFrom(from.test_float_); test_double_.MergeFrom(from.test_double_); test_boolean_.MergeFrom(from.test_boolean_); test_enum_small_.MergeFrom(from.test_enum_small_); test_enum_.MergeFrom(from.test_enum_); mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessPacked::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessPacked::CopyFrom(const TestMessPacked& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessPacked::IsInitialized() const { return true; } void TestMessPacked::Swap(TestMessPacked* other) { if (other != this) { test_int32_.Swap(&other->test_int32_); test_sint32_.Swap(&other->test_sint32_); test_sfixed32_.Swap(&other->test_sfixed32_); test_int64_.Swap(&other->test_int64_); test_sint64_.Swap(&other->test_sint64_); test_sfixed64_.Swap(&other->test_sfixed64_); test_uint32_.Swap(&other->test_uint32_); test_fixed32_.Swap(&other->test_fixed32_); test_uint64_.Swap(&other->test_uint64_); test_fixed64_.Swap(&other->test_fixed64_); test_float_.Swap(&other->test_float_); test_double_.Swap(&other->test_double_); test_boolean_.Swap(&other->test_boolean_); test_enum_small_.Swap(&other->test_enum_small_); test_enum_.Swap(&other->test_enum_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessPacked::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessPacked_descriptor_; metadata.reflection = TestMessPacked_reflection_; return metadata; } // =================================================================== const ::std::string TestMessOptional::_default_test_string_; const ::std::string TestMessOptional::_default_test_bytes_; #ifndef _MSC_VER const int TestMessOptional::kTestInt32FieldNumber; const int TestMessOptional::kTestSint32FieldNumber; const int TestMessOptional::kTestSfixed32FieldNumber; const int TestMessOptional::kTestInt64FieldNumber; const int TestMessOptional::kTestSint64FieldNumber; const int TestMessOptional::kTestSfixed64FieldNumber; const int TestMessOptional::kTestUint32FieldNumber; const int TestMessOptional::kTestFixed32FieldNumber; const int TestMessOptional::kTestUint64FieldNumber; const int TestMessOptional::kTestFixed64FieldNumber; const int TestMessOptional::kTestFloatFieldNumber; const int TestMessOptional::kTestDoubleFieldNumber; const int TestMessOptional::kTestBooleanFieldNumber; const int TestMessOptional::kTestEnumSmallFieldNumber; const int TestMessOptional::kTestEnumFieldNumber; const int TestMessOptional::kTestStringFieldNumber; const int TestMessOptional::kTestBytesFieldNumber; const int TestMessOptional::kTestMessageFieldNumber; #endif // !_MSC_VER TestMessOptional::TestMessOptional() { SharedCtor(); } void TestMessOptional::InitAsDefaultInstance() { test_message_ = const_cast< ::foo::SubMess*>(&::foo::SubMess::default_instance()); } TestMessOptional::TestMessOptional(const TestMessOptional& from) { SharedCtor(); MergeFrom(from); } void TestMessOptional::SharedCtor() { _cached_size_ = 0; test_int32_ = 0; test_sint32_ = 0; test_sfixed32_ = 0; test_int64_ = GOOGLE_LONGLONG(0); test_sint64_ = GOOGLE_LONGLONG(0); test_sfixed64_ = GOOGLE_LONGLONG(0); test_uint32_ = 0u; test_fixed32_ = 0u; test_uint64_ = GOOGLE_ULONGLONG(0); test_fixed64_ = GOOGLE_ULONGLONG(0); test_float_ = 0; test_double_ = 0; test_boolean_ = false; test_enum_small_ = 0; test_enum_ = 0; test_string_ = const_cast< ::std::string*>(&_default_test_string_); test_bytes_ = const_cast< ::std::string*>(&_default_test_bytes_); test_message_ = NULL; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessOptional::~TestMessOptional() { SharedDtor(); } void TestMessOptional::SharedDtor() { if (test_string_ != &_default_test_string_) { delete test_string_; } if (test_bytes_ != &_default_test_bytes_) { delete test_bytes_; } if (this != default_instance_) { delete test_message_; } } const ::google::protobuf::Descriptor* TestMessOptional::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessOptional_descriptor_; } const TestMessOptional& TestMessOptional::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessOptional* TestMessOptional::default_instance_ = NULL; TestMessOptional* TestMessOptional::New() const { return new TestMessOptional; } void TestMessOptional::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_int32_ = 0; test_sint32_ = 0; test_sfixed32_ = 0; test_int64_ = GOOGLE_LONGLONG(0); test_sint64_ = GOOGLE_LONGLONG(0); test_sfixed64_ = GOOGLE_LONGLONG(0); test_uint32_ = 0u; test_fixed32_ = 0u; } if (_has_bits_[8 / 32] & (0xffu << (8 % 32))) { test_uint64_ = GOOGLE_ULONGLONG(0); test_fixed64_ = GOOGLE_ULONGLONG(0); test_float_ = 0; test_double_ = 0; test_boolean_ = false; test_enum_small_ = 0; test_enum_ = 0; if (_has_bit(15)) { if (test_string_ != &_default_test_string_) { test_string_->clear(); } } } if (_has_bits_[16 / 32] & (0xffu << (16 % 32))) { if (_has_bit(16)) { if (test_bytes_ != &_default_test_bytes_) { test_bytes_->clear(); } } if (_has_bit(17)) { if (test_message_ != NULL) test_message_->::foo::SubMess::Clear(); } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessOptional::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // optional int32 test_int32 = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadInt32( input, &test_int32_)); _set_bit(0); if (input->ExpectTag(16)) goto parse_test_sint32; break; } // optional sint32 test_sint32 = 2; case 2: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_sint32: DO_(::google::protobuf::internal::WireFormatLite::ReadSInt32( input, &test_sint32_)); _set_bit(1); if (input->ExpectTag(29)) goto parse_test_sfixed32; break; } // optional sfixed32 test_sfixed32 = 3; case 3: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } parse_test_sfixed32: DO_(::google::protobuf::internal::WireFormatLite::ReadSFixed32( input, &test_sfixed32_)); _set_bit(2); if (input->ExpectTag(32)) goto parse_test_int64; break; } // optional int64 test_int64 = 4; case 4: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_int64: DO_(::google::protobuf::internal::WireFormatLite::ReadInt64( input, &test_int64_)); _set_bit(3); if (input->ExpectTag(40)) goto parse_test_sint64; break; } // optional sint64 test_sint64 = 5; case 5: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_sint64: DO_(::google::protobuf::internal::WireFormatLite::ReadSInt64( input, &test_sint64_)); _set_bit(4); if (input->ExpectTag(49)) goto parse_test_sfixed64; break; } // optional sfixed64 test_sfixed64 = 6; case 6: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } parse_test_sfixed64: DO_(::google::protobuf::internal::WireFormatLite::ReadSFixed64( input, &test_sfixed64_)); _set_bit(5); if (input->ExpectTag(56)) goto parse_test_uint32; break; } // optional uint32 test_uint32 = 7; case 7: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_uint32: DO_(::google::protobuf::internal::WireFormatLite::ReadUInt32( input, &test_uint32_)); _set_bit(6); if (input->ExpectTag(69)) goto parse_test_fixed32; break; } // optional fixed32 test_fixed32 = 8; case 8: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } parse_test_fixed32: DO_(::google::protobuf::internal::WireFormatLite::ReadFixed32( input, &test_fixed32_)); _set_bit(7); if (input->ExpectTag(72)) goto parse_test_uint64; break; } // optional uint64 test_uint64 = 9; case 9: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_uint64: DO_(::google::protobuf::internal::WireFormatLite::ReadUInt64( input, &test_uint64_)); _set_bit(8); if (input->ExpectTag(81)) goto parse_test_fixed64; break; } // optional fixed64 test_fixed64 = 10; case 10: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } parse_test_fixed64: DO_(::google::protobuf::internal::WireFormatLite::ReadFixed64( input, &test_fixed64_)); _set_bit(9); if (input->ExpectTag(93)) goto parse_test_float; break; } // optional float test_float = 11; case 11: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } parse_test_float: DO_(::google::protobuf::internal::WireFormatLite::ReadFloat( input, &test_float_)); _set_bit(10); if (input->ExpectTag(97)) goto parse_test_double; break; } // optional double test_double = 12; case 12: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } parse_test_double: DO_(::google::protobuf::internal::WireFormatLite::ReadDouble( input, &test_double_)); _set_bit(11); if (input->ExpectTag(104)) goto parse_test_boolean; break; } // optional bool test_boolean = 13; case 13: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_boolean: DO_(::google::protobuf::internal::WireFormatLite::ReadBool( input, &test_boolean_)); _set_bit(12); if (input->ExpectTag(112)) goto parse_test_enum_small; break; } // optional .foo.TestEnumSmall test_enum_small = 14; case 14: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_enum_small: int value; DO_(::google::protobuf::internal::WireFormatLite::ReadEnum(input, &value)); if (foo::TestEnumSmall_IsValid(value)) { set_test_enum_small(static_cast< foo::TestEnumSmall >(value)); } else { mutable_unknown_fields()->AddVarint(14, value); } if (input->ExpectTag(120)) goto parse_test_enum; break; } // optional .foo.TestEnum test_enum = 15; case 15: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_test_enum: int value; DO_(::google::protobuf::internal::WireFormatLite::ReadEnum(input, &value)); if (foo::TestEnum_IsValid(value)) { set_test_enum(static_cast< foo::TestEnum >(value)); } else { mutable_unknown_fields()->AddVarint(15, value); } if (input->ExpectTag(130)) goto parse_test_string; break; } // optional string test_string = 16; case 16: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_string: DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test_string())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test_string().data(), this->test_string().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectTag(138)) goto parse_test_bytes; break; } // optional bytes test_bytes = 17; case 17: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_bytes: DO_(::google::protobuf::internal::WireFormatLite::ReadBytes( input, this->mutable_test_bytes())); if (input->ExpectTag(146)) goto parse_test_message; break; } // optional .foo.SubMess test_message = 18; case 18: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_test_message: DO_(::google::protobuf::internal::WireFormatLite::ReadMessageNoVirtual( input, mutable_test_message())); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessOptional::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessOptional::SerializeWithCachedSizesToArray(raw_buffer); return; } // optional int32 test_int32 = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteInt32(1, this->test_int32(), output); } // optional sint32 test_sint32 = 2; if (_has_bit(1)) { ::google::protobuf::internal::WireFormatLite::WriteSInt32(2, this->test_sint32(), output); } // optional sfixed32 test_sfixed32 = 3; if (_has_bit(2)) { ::google::protobuf::internal::WireFormatLite::WriteSFixed32(3, this->test_sfixed32(), output); } // optional int64 test_int64 = 4; if (_has_bit(3)) { ::google::protobuf::internal::WireFormatLite::WriteInt64(4, this->test_int64(), output); } // optional sint64 test_sint64 = 5; if (_has_bit(4)) { ::google::protobuf::internal::WireFormatLite::WriteSInt64(5, this->test_sint64(), output); } // optional sfixed64 test_sfixed64 = 6; if (_has_bit(5)) { ::google::protobuf::internal::WireFormatLite::WriteSFixed64(6, this->test_sfixed64(), output); } // optional uint32 test_uint32 = 7; if (_has_bit(6)) { ::google::protobuf::internal::WireFormatLite::WriteUInt32(7, this->test_uint32(), output); } // optional fixed32 test_fixed32 = 8; if (_has_bit(7)) { ::google::protobuf::internal::WireFormatLite::WriteFixed32(8, this->test_fixed32(), output); } // optional uint64 test_uint64 = 9; if (_has_bit(8)) { ::google::protobuf::internal::WireFormatLite::WriteUInt64(9, this->test_uint64(), output); } // optional fixed64 test_fixed64 = 10; if (_has_bit(9)) { ::google::protobuf::internal::WireFormatLite::WriteFixed64(10, this->test_fixed64(), output); } // optional float test_float = 11; if (_has_bit(10)) { ::google::protobuf::internal::WireFormatLite::WriteFloat(11, this->test_float(), output); } // optional double test_double = 12; if (_has_bit(11)) { ::google::protobuf::internal::WireFormatLite::WriteDouble(12, this->test_double(), output); } // optional bool test_boolean = 13; if (_has_bit(12)) { ::google::protobuf::internal::WireFormatLite::WriteBool(13, this->test_boolean(), output); } // optional .foo.TestEnumSmall test_enum_small = 14; if (_has_bit(13)) { ::google::protobuf::internal::WireFormatLite::WriteEnum( 14, this->test_enum_small(), output); } // optional .foo.TestEnum test_enum = 15; if (_has_bit(14)) { ::google::protobuf::internal::WireFormatLite::WriteEnum( 15, this->test_enum(), output); } // optional string test_string = 16; if (_has_bit(15)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test_string().data(), this->test_string().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 16, this->test_string(), output); } // optional bytes test_bytes = 17; if (_has_bit(16)) { ::google::protobuf::internal::WireFormatLite::WriteBytes( 17, this->test_bytes(), output); } // optional .foo.SubMess test_message = 18; if (_has_bit(17)) { ::google::protobuf::internal::WireFormatLite::WriteMessageNoVirtual( 18, this->test_message(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessOptional::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // optional int32 test_int32 = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteInt32ToArray(1, this->test_int32(), target); } // optional sint32 test_sint32 = 2; if (_has_bit(1)) { target = ::google::protobuf::internal::WireFormatLite::WriteSInt32ToArray(2, this->test_sint32(), target); } // optional sfixed32 test_sfixed32 = 3; if (_has_bit(2)) { target = ::google::protobuf::internal::WireFormatLite::WriteSFixed32ToArray(3, this->test_sfixed32(), target); } // optional int64 test_int64 = 4; if (_has_bit(3)) { target = ::google::protobuf::internal::WireFormatLite::WriteInt64ToArray(4, this->test_int64(), target); } // optional sint64 test_sint64 = 5; if (_has_bit(4)) { target = ::google::protobuf::internal::WireFormatLite::WriteSInt64ToArray(5, this->test_sint64(), target); } // optional sfixed64 test_sfixed64 = 6; if (_has_bit(5)) { target = ::google::protobuf::internal::WireFormatLite::WriteSFixed64ToArray(6, this->test_sfixed64(), target); } // optional uint32 test_uint32 = 7; if (_has_bit(6)) { target = ::google::protobuf::internal::WireFormatLite::WriteUInt32ToArray(7, this->test_uint32(), target); } // optional fixed32 test_fixed32 = 8; if (_has_bit(7)) { target = ::google::protobuf::internal::WireFormatLite::WriteFixed32ToArray(8, this->test_fixed32(), target); } // optional uint64 test_uint64 = 9; if (_has_bit(8)) { target = ::google::protobuf::internal::WireFormatLite::WriteUInt64ToArray(9, this->test_uint64(), target); } // optional fixed64 test_fixed64 = 10; if (_has_bit(9)) { target = ::google::protobuf::internal::WireFormatLite::WriteFixed64ToArray(10, this->test_fixed64(), target); } // optional float test_float = 11; if (_has_bit(10)) { target = ::google::protobuf::internal::WireFormatLite::WriteFloatToArray(11, this->test_float(), target); } // optional double test_double = 12; if (_has_bit(11)) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(12, this->test_double(), target); } // optional bool test_boolean = 13; if (_has_bit(12)) { target = ::google::protobuf::internal::WireFormatLite::WriteBoolToArray(13, this->test_boolean(), target); } // optional .foo.TestEnumSmall test_enum_small = 14; if (_has_bit(13)) { target = ::google::protobuf::internal::WireFormatLite::WriteEnumToArray( 14, this->test_enum_small(), target); } // optional .foo.TestEnum test_enum = 15; if (_has_bit(14)) { target = ::google::protobuf::internal::WireFormatLite::WriteEnumToArray( 15, this->test_enum(), target); } // optional string test_string = 16; if (_has_bit(15)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test_string().data(), this->test_string().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 16, this->test_string(), target); } // optional bytes test_bytes = 17; if (_has_bit(16)) { target = ::google::protobuf::internal::WireFormatLite::WriteBytesToArray( 17, this->test_bytes(), target); } // optional .foo.SubMess test_message = 18; if (_has_bit(17)) { target = ::google::protobuf::internal::WireFormatLite:: WriteMessageNoVirtualToArray( 18, this->test_message(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessOptional::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // optional int32 test_int32 = 1; if (has_test_int32()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size( this->test_int32()); } // optional sint32 test_sint32 = 2; if (has_test_sint32()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::SInt32Size( this->test_sint32()); } // optional sfixed32 test_sfixed32 = 3; if (has_test_sfixed32()) { total_size += 1 + 4; } // optional int64 test_int64 = 4; if (has_test_int64()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int64Size( this->test_int64()); } // optional sint64 test_sint64 = 5; if (has_test_sint64()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::SInt64Size( this->test_sint64()); } // optional sfixed64 test_sfixed64 = 6; if (has_test_sfixed64()) { total_size += 1 + 8; } // optional uint32 test_uint32 = 7; if (has_test_uint32()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::UInt32Size( this->test_uint32()); } // optional fixed32 test_fixed32 = 8; if (has_test_fixed32()) { total_size += 1 + 4; } } if (_has_bits_[8 / 32] & (0xffu << (8 % 32))) { // optional uint64 test_uint64 = 9; if (has_test_uint64()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::UInt64Size( this->test_uint64()); } // optional fixed64 test_fixed64 = 10; if (has_test_fixed64()) { total_size += 1 + 8; } // optional float test_float = 11; if (has_test_float()) { total_size += 1 + 4; } // optional double test_double = 12; if (has_test_double()) { total_size += 1 + 8; } // optional bool test_boolean = 13; if (has_test_boolean()) { total_size += 1 + 1; } // optional .foo.TestEnumSmall test_enum_small = 14; if (has_test_enum_small()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::EnumSize(this->test_enum_small()); } // optional .foo.TestEnum test_enum = 15; if (has_test_enum()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::EnumSize(this->test_enum()); } // optional string test_string = 16; if (has_test_string()) { total_size += 2 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test_string()); } } if (_has_bits_[16 / 32] & (0xffu << (16 % 32))) { // optional bytes test_bytes = 17; if (has_test_bytes()) { total_size += 2 + ::google::protobuf::internal::WireFormatLite::BytesSize( this->test_bytes()); } // optional .foo.SubMess test_message = 18; if (has_test_message()) { total_size += 2 + ::google::protobuf::internal::WireFormatLite::MessageSizeNoVirtual( this->test_message()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessOptional::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessOptional* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessOptional::MergeFrom(const TestMessOptional& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test_int32(from.test_int32()); } if (from._has_bit(1)) { set_test_sint32(from.test_sint32()); } if (from._has_bit(2)) { set_test_sfixed32(from.test_sfixed32()); } if (from._has_bit(3)) { set_test_int64(from.test_int64()); } if (from._has_bit(4)) { set_test_sint64(from.test_sint64()); } if (from._has_bit(5)) { set_test_sfixed64(from.test_sfixed64()); } if (from._has_bit(6)) { set_test_uint32(from.test_uint32()); } if (from._has_bit(7)) { set_test_fixed32(from.test_fixed32()); } } if (from._has_bits_[8 / 32] & (0xffu << (8 % 32))) { if (from._has_bit(8)) { set_test_uint64(from.test_uint64()); } if (from._has_bit(9)) { set_test_fixed64(from.test_fixed64()); } if (from._has_bit(10)) { set_test_float(from.test_float()); } if (from._has_bit(11)) { set_test_double(from.test_double()); } if (from._has_bit(12)) { set_test_boolean(from.test_boolean()); } if (from._has_bit(13)) { set_test_enum_small(from.test_enum_small()); } if (from._has_bit(14)) { set_test_enum(from.test_enum()); } if (from._has_bit(15)) { set_test_string(from.test_string()); } } if (from._has_bits_[16 / 32] & (0xffu << (16 % 32))) { if (from._has_bit(16)) { set_test_bytes(from.test_bytes()); } if (from._has_bit(17)) { mutable_test_message()->::foo::SubMess::MergeFrom(from.test_message()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessOptional::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessOptional::CopyFrom(const TestMessOptional& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessOptional::IsInitialized() const { if (has_test_message()) { if (!this->test_message().IsInitialized()) return false; } return true; } void TestMessOptional::Swap(TestMessOptional* other) { if (other != this) { std::swap(test_int32_, other->test_int32_); std::swap(test_sint32_, other->test_sint32_); std::swap(test_sfixed32_, other->test_sfixed32_); std::swap(test_int64_, other->test_int64_); std::swap(test_sint64_, other->test_sint64_); std::swap(test_sfixed64_, other->test_sfixed64_); std::swap(test_uint32_, other->test_uint32_); std::swap(test_fixed32_, other->test_fixed32_); std::swap(test_uint64_, other->test_uint64_); std::swap(test_fixed64_, other->test_fixed64_); std::swap(test_float_, other->test_float_); std::swap(test_double_, other->test_double_); std::swap(test_boolean_, other->test_boolean_); std::swap(test_enum_small_, other->test_enum_small_); std::swap(test_enum_, other->test_enum_); std::swap(test_string_, other->test_string_); std::swap(test_bytes_, other->test_bytes_); std::swap(test_message_, other->test_message_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessOptional::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessOptional_descriptor_; metadata.reflection = TestMessOptional_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredInt32::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredInt32::TestMessRequiredInt32() { SharedCtor(); } void TestMessRequiredInt32::InitAsDefaultInstance() { } TestMessRequiredInt32::TestMessRequiredInt32(const TestMessRequiredInt32& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredInt32::SharedCtor() { _cached_size_ = 0; test_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredInt32::~TestMessRequiredInt32() { SharedDtor(); } void TestMessRequiredInt32::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredInt32::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredInt32_descriptor_; } const TestMessRequiredInt32& TestMessRequiredInt32::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredInt32* TestMessRequiredInt32::default_instance_ = NULL; TestMessRequiredInt32* TestMessRequiredInt32::New() const { return new TestMessRequiredInt32; } void TestMessRequiredInt32::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredInt32::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required int32 test = 42; case 42: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadInt32( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredInt32::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredInt32::SerializeWithCachedSizesToArray(raw_buffer); return; } // required int32 test = 42; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteInt32(42, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredInt32::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required int32 test = 42; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteInt32ToArray(42, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredInt32::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required int32 test = 42; if (has_test()) { total_size += 2 + ::google::protobuf::internal::WireFormatLite::Int32Size( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredInt32::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredInt32* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredInt32::MergeFrom(const TestMessRequiredInt32& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredInt32::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredInt32::CopyFrom(const TestMessRequiredInt32& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredInt32::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredInt32::Swap(TestMessRequiredInt32* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredInt32::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredInt32_descriptor_; metadata.reflection = TestMessRequiredInt32_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredSInt32::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredSInt32::TestMessRequiredSInt32() { SharedCtor(); } void TestMessRequiredSInt32::InitAsDefaultInstance() { } TestMessRequiredSInt32::TestMessRequiredSInt32(const TestMessRequiredSInt32& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredSInt32::SharedCtor() { _cached_size_ = 0; test_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredSInt32::~TestMessRequiredSInt32() { SharedDtor(); } void TestMessRequiredSInt32::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredSInt32::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredSInt32_descriptor_; } const TestMessRequiredSInt32& TestMessRequiredSInt32::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredSInt32* TestMessRequiredSInt32::default_instance_ = NULL; TestMessRequiredSInt32* TestMessRequiredSInt32::New() const { return new TestMessRequiredSInt32; } void TestMessRequiredSInt32::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredSInt32::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required sint32 test = 43; case 43: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadSInt32( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredSInt32::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredSInt32::SerializeWithCachedSizesToArray(raw_buffer); return; } // required sint32 test = 43; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteSInt32(43, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredSInt32::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required sint32 test = 43; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteSInt32ToArray(43, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredSInt32::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required sint32 test = 43; if (has_test()) { total_size += 2 + ::google::protobuf::internal::WireFormatLite::SInt32Size( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredSInt32::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredSInt32* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredSInt32::MergeFrom(const TestMessRequiredSInt32& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredSInt32::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredSInt32::CopyFrom(const TestMessRequiredSInt32& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredSInt32::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredSInt32::Swap(TestMessRequiredSInt32* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredSInt32::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredSInt32_descriptor_; metadata.reflection = TestMessRequiredSInt32_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredSFixed32::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredSFixed32::TestMessRequiredSFixed32() { SharedCtor(); } void TestMessRequiredSFixed32::InitAsDefaultInstance() { } TestMessRequiredSFixed32::TestMessRequiredSFixed32(const TestMessRequiredSFixed32& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredSFixed32::SharedCtor() { _cached_size_ = 0; test_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredSFixed32::~TestMessRequiredSFixed32() { SharedDtor(); } void TestMessRequiredSFixed32::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredSFixed32::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredSFixed32_descriptor_; } const TestMessRequiredSFixed32& TestMessRequiredSFixed32::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredSFixed32* TestMessRequiredSFixed32::default_instance_ = NULL; TestMessRequiredSFixed32* TestMessRequiredSFixed32::New() const { return new TestMessRequiredSFixed32; } void TestMessRequiredSFixed32::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredSFixed32::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required sfixed32 test = 100; case 100: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadSFixed32( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredSFixed32::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredSFixed32::SerializeWithCachedSizesToArray(raw_buffer); return; } // required sfixed32 test = 100; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteSFixed32(100, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredSFixed32::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required sfixed32 test = 100; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteSFixed32ToArray(100, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredSFixed32::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required sfixed32 test = 100; if (has_test()) { total_size += 2 + 4; } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredSFixed32::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredSFixed32* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredSFixed32::MergeFrom(const TestMessRequiredSFixed32& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredSFixed32::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredSFixed32::CopyFrom(const TestMessRequiredSFixed32& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredSFixed32::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredSFixed32::Swap(TestMessRequiredSFixed32* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredSFixed32::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredSFixed32_descriptor_; metadata.reflection = TestMessRequiredSFixed32_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredInt64::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredInt64::TestMessRequiredInt64() { SharedCtor(); } void TestMessRequiredInt64::InitAsDefaultInstance() { } TestMessRequiredInt64::TestMessRequiredInt64(const TestMessRequiredInt64& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredInt64::SharedCtor() { _cached_size_ = 0; test_ = GOOGLE_LONGLONG(0); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredInt64::~TestMessRequiredInt64() { SharedDtor(); } void TestMessRequiredInt64::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredInt64::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredInt64_descriptor_; } const TestMessRequiredInt64& TestMessRequiredInt64::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredInt64* TestMessRequiredInt64::default_instance_ = NULL; TestMessRequiredInt64* TestMessRequiredInt64::New() const { return new TestMessRequiredInt64; } void TestMessRequiredInt64::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = GOOGLE_LONGLONG(0); } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredInt64::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required int64 test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadInt64( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredInt64::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredInt64::SerializeWithCachedSizesToArray(raw_buffer); return; } // required int64 test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteInt64(1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredInt64::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required int64 test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteInt64ToArray(1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredInt64::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required int64 test = 1; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int64Size( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredInt64::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredInt64* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredInt64::MergeFrom(const TestMessRequiredInt64& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredInt64::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredInt64::CopyFrom(const TestMessRequiredInt64& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredInt64::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredInt64::Swap(TestMessRequiredInt64* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredInt64::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredInt64_descriptor_; metadata.reflection = TestMessRequiredInt64_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredSInt64::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredSInt64::TestMessRequiredSInt64() { SharedCtor(); } void TestMessRequiredSInt64::InitAsDefaultInstance() { } TestMessRequiredSInt64::TestMessRequiredSInt64(const TestMessRequiredSInt64& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredSInt64::SharedCtor() { _cached_size_ = 0; test_ = GOOGLE_LONGLONG(0); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredSInt64::~TestMessRequiredSInt64() { SharedDtor(); } void TestMessRequiredSInt64::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredSInt64::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredSInt64_descriptor_; } const TestMessRequiredSInt64& TestMessRequiredSInt64::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredSInt64* TestMessRequiredSInt64::default_instance_ = NULL; TestMessRequiredSInt64* TestMessRequiredSInt64::New() const { return new TestMessRequiredSInt64; } void TestMessRequiredSInt64::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = GOOGLE_LONGLONG(0); } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredSInt64::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required sint64 test = 11; case 11: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadSInt64( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredSInt64::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredSInt64::SerializeWithCachedSizesToArray(raw_buffer); return; } // required sint64 test = 11; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteSInt64(11, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredSInt64::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required sint64 test = 11; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteSInt64ToArray(11, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredSInt64::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required sint64 test = 11; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::SInt64Size( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredSInt64::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredSInt64* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredSInt64::MergeFrom(const TestMessRequiredSInt64& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredSInt64::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredSInt64::CopyFrom(const TestMessRequiredSInt64& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredSInt64::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredSInt64::Swap(TestMessRequiredSInt64* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredSInt64::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredSInt64_descriptor_; metadata.reflection = TestMessRequiredSInt64_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredSFixed64::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredSFixed64::TestMessRequiredSFixed64() { SharedCtor(); } void TestMessRequiredSFixed64::InitAsDefaultInstance() { } TestMessRequiredSFixed64::TestMessRequiredSFixed64(const TestMessRequiredSFixed64& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredSFixed64::SharedCtor() { _cached_size_ = 0; test_ = GOOGLE_LONGLONG(0); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredSFixed64::~TestMessRequiredSFixed64() { SharedDtor(); } void TestMessRequiredSFixed64::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredSFixed64::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredSFixed64_descriptor_; } const TestMessRequiredSFixed64& TestMessRequiredSFixed64::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredSFixed64* TestMessRequiredSFixed64::default_instance_ = NULL; TestMessRequiredSFixed64* TestMessRequiredSFixed64::New() const { return new TestMessRequiredSFixed64; } void TestMessRequiredSFixed64::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = GOOGLE_LONGLONG(0); } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredSFixed64::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required sfixed64 test = 12; case 12: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadSFixed64( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredSFixed64::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredSFixed64::SerializeWithCachedSizesToArray(raw_buffer); return; } // required sfixed64 test = 12; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteSFixed64(12, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredSFixed64::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required sfixed64 test = 12; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteSFixed64ToArray(12, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredSFixed64::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required sfixed64 test = 12; if (has_test()) { total_size += 1 + 8; } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredSFixed64::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredSFixed64* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredSFixed64::MergeFrom(const TestMessRequiredSFixed64& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredSFixed64::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredSFixed64::CopyFrom(const TestMessRequiredSFixed64& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredSFixed64::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredSFixed64::Swap(TestMessRequiredSFixed64* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredSFixed64::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredSFixed64_descriptor_; metadata.reflection = TestMessRequiredSFixed64_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredUInt32::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredUInt32::TestMessRequiredUInt32() { SharedCtor(); } void TestMessRequiredUInt32::InitAsDefaultInstance() { } TestMessRequiredUInt32::TestMessRequiredUInt32(const TestMessRequiredUInt32& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredUInt32::SharedCtor() { _cached_size_ = 0; test_ = 0u; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredUInt32::~TestMessRequiredUInt32() { SharedDtor(); } void TestMessRequiredUInt32::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredUInt32::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredUInt32_descriptor_; } const TestMessRequiredUInt32& TestMessRequiredUInt32::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredUInt32* TestMessRequiredUInt32::default_instance_ = NULL; TestMessRequiredUInt32* TestMessRequiredUInt32::New() const { return new TestMessRequiredUInt32; } void TestMessRequiredUInt32::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0u; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredUInt32::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required uint32 test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadUInt32( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredUInt32::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredUInt32::SerializeWithCachedSizesToArray(raw_buffer); return; } // required uint32 test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteUInt32(1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredUInt32::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required uint32 test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteUInt32ToArray(1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredUInt32::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required uint32 test = 1; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::UInt32Size( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredUInt32::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredUInt32* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredUInt32::MergeFrom(const TestMessRequiredUInt32& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredUInt32::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredUInt32::CopyFrom(const TestMessRequiredUInt32& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredUInt32::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredUInt32::Swap(TestMessRequiredUInt32* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredUInt32::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredUInt32_descriptor_; metadata.reflection = TestMessRequiredUInt32_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredFixed32::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredFixed32::TestMessRequiredFixed32() { SharedCtor(); } void TestMessRequiredFixed32::InitAsDefaultInstance() { } TestMessRequiredFixed32::TestMessRequiredFixed32(const TestMessRequiredFixed32& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredFixed32::SharedCtor() { _cached_size_ = 0; test_ = 0u; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredFixed32::~TestMessRequiredFixed32() { SharedDtor(); } void TestMessRequiredFixed32::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredFixed32::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredFixed32_descriptor_; } const TestMessRequiredFixed32& TestMessRequiredFixed32::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredFixed32* TestMessRequiredFixed32::default_instance_ = NULL; TestMessRequiredFixed32* TestMessRequiredFixed32::New() const { return new TestMessRequiredFixed32; } void TestMessRequiredFixed32::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0u; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredFixed32::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required fixed32 test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadFixed32( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredFixed32::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredFixed32::SerializeWithCachedSizesToArray(raw_buffer); return; } // required fixed32 test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteFixed32(1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredFixed32::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required fixed32 test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteFixed32ToArray(1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredFixed32::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required fixed32 test = 1; if (has_test()) { total_size += 1 + 4; } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredFixed32::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredFixed32* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredFixed32::MergeFrom(const TestMessRequiredFixed32& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredFixed32::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredFixed32::CopyFrom(const TestMessRequiredFixed32& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredFixed32::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredFixed32::Swap(TestMessRequiredFixed32* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredFixed32::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredFixed32_descriptor_; metadata.reflection = TestMessRequiredFixed32_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredUInt64::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredUInt64::TestMessRequiredUInt64() { SharedCtor(); } void TestMessRequiredUInt64::InitAsDefaultInstance() { } TestMessRequiredUInt64::TestMessRequiredUInt64(const TestMessRequiredUInt64& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredUInt64::SharedCtor() { _cached_size_ = 0; test_ = GOOGLE_ULONGLONG(0); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredUInt64::~TestMessRequiredUInt64() { SharedDtor(); } void TestMessRequiredUInt64::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredUInt64::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredUInt64_descriptor_; } const TestMessRequiredUInt64& TestMessRequiredUInt64::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredUInt64* TestMessRequiredUInt64::default_instance_ = NULL; TestMessRequiredUInt64* TestMessRequiredUInt64::New() const { return new TestMessRequiredUInt64; } void TestMessRequiredUInt64::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = GOOGLE_ULONGLONG(0); } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredUInt64::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required uint64 test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadUInt64( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredUInt64::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredUInt64::SerializeWithCachedSizesToArray(raw_buffer); return; } // required uint64 test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteUInt64(1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredUInt64::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required uint64 test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteUInt64ToArray(1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredUInt64::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required uint64 test = 1; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::UInt64Size( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredUInt64::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredUInt64* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredUInt64::MergeFrom(const TestMessRequiredUInt64& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredUInt64::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredUInt64::CopyFrom(const TestMessRequiredUInt64& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredUInt64::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredUInt64::Swap(TestMessRequiredUInt64* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredUInt64::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredUInt64_descriptor_; metadata.reflection = TestMessRequiredUInt64_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredFixed64::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredFixed64::TestMessRequiredFixed64() { SharedCtor(); } void TestMessRequiredFixed64::InitAsDefaultInstance() { } TestMessRequiredFixed64::TestMessRequiredFixed64(const TestMessRequiredFixed64& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredFixed64::SharedCtor() { _cached_size_ = 0; test_ = GOOGLE_ULONGLONG(0); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredFixed64::~TestMessRequiredFixed64() { SharedDtor(); } void TestMessRequiredFixed64::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredFixed64::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredFixed64_descriptor_; } const TestMessRequiredFixed64& TestMessRequiredFixed64::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredFixed64* TestMessRequiredFixed64::default_instance_ = NULL; TestMessRequiredFixed64* TestMessRequiredFixed64::New() const { return new TestMessRequiredFixed64; } void TestMessRequiredFixed64::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = GOOGLE_ULONGLONG(0); } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredFixed64::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required fixed64 test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadFixed64( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredFixed64::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredFixed64::SerializeWithCachedSizesToArray(raw_buffer); return; } // required fixed64 test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteFixed64(1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredFixed64::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required fixed64 test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteFixed64ToArray(1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredFixed64::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required fixed64 test = 1; if (has_test()) { total_size += 1 + 8; } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredFixed64::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredFixed64* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredFixed64::MergeFrom(const TestMessRequiredFixed64& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredFixed64::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredFixed64::CopyFrom(const TestMessRequiredFixed64& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredFixed64::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredFixed64::Swap(TestMessRequiredFixed64* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredFixed64::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredFixed64_descriptor_; metadata.reflection = TestMessRequiredFixed64_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredFloat::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredFloat::TestMessRequiredFloat() { SharedCtor(); } void TestMessRequiredFloat::InitAsDefaultInstance() { } TestMessRequiredFloat::TestMessRequiredFloat(const TestMessRequiredFloat& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredFloat::SharedCtor() { _cached_size_ = 0; test_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredFloat::~TestMessRequiredFloat() { SharedDtor(); } void TestMessRequiredFloat::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredFloat::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredFloat_descriptor_; } const TestMessRequiredFloat& TestMessRequiredFloat::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredFloat* TestMessRequiredFloat::default_instance_ = NULL; TestMessRequiredFloat* TestMessRequiredFloat::New() const { return new TestMessRequiredFloat; } void TestMessRequiredFloat::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredFloat::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required float test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadFloat( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredFloat::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredFloat::SerializeWithCachedSizesToArray(raw_buffer); return; } // required float test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteFloat(1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredFloat::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required float test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteFloatToArray(1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredFloat::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required float test = 1; if (has_test()) { total_size += 1 + 4; } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredFloat::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredFloat* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredFloat::MergeFrom(const TestMessRequiredFloat& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredFloat::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredFloat::CopyFrom(const TestMessRequiredFloat& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredFloat::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredFloat::Swap(TestMessRequiredFloat* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredFloat::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredFloat_descriptor_; metadata.reflection = TestMessRequiredFloat_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredDouble::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredDouble::TestMessRequiredDouble() { SharedCtor(); } void TestMessRequiredDouble::InitAsDefaultInstance() { } TestMessRequiredDouble::TestMessRequiredDouble(const TestMessRequiredDouble& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredDouble::SharedCtor() { _cached_size_ = 0; test_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredDouble::~TestMessRequiredDouble() { SharedDtor(); } void TestMessRequiredDouble::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredDouble::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredDouble_descriptor_; } const TestMessRequiredDouble& TestMessRequiredDouble::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredDouble* TestMessRequiredDouble::default_instance_ = NULL; TestMessRequiredDouble* TestMessRequiredDouble::New() const { return new TestMessRequiredDouble; } void TestMessRequiredDouble::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredDouble::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required double test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadDouble( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredDouble::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredDouble::SerializeWithCachedSizesToArray(raw_buffer); return; } // required double test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteDouble(1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredDouble::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required double test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredDouble::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required double test = 1; if (has_test()) { total_size += 1 + 8; } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredDouble::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredDouble* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredDouble::MergeFrom(const TestMessRequiredDouble& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredDouble::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredDouble::CopyFrom(const TestMessRequiredDouble& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredDouble::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredDouble::Swap(TestMessRequiredDouble* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredDouble::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredDouble_descriptor_; metadata.reflection = TestMessRequiredDouble_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredBool::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredBool::TestMessRequiredBool() { SharedCtor(); } void TestMessRequiredBool::InitAsDefaultInstance() { } TestMessRequiredBool::TestMessRequiredBool(const TestMessRequiredBool& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredBool::SharedCtor() { _cached_size_ = 0; test_ = false; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredBool::~TestMessRequiredBool() { SharedDtor(); } void TestMessRequiredBool::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredBool::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredBool_descriptor_; } const TestMessRequiredBool& TestMessRequiredBool::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredBool* TestMessRequiredBool::default_instance_ = NULL; TestMessRequiredBool* TestMessRequiredBool::New() const { return new TestMessRequiredBool; } void TestMessRequiredBool::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = false; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredBool::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required bool test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadBool( input, &test_)); _set_bit(0); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredBool::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredBool::SerializeWithCachedSizesToArray(raw_buffer); return; } // required bool test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteBool(1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredBool::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required bool test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteBoolToArray(1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredBool::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required bool test = 1; if (has_test()) { total_size += 1 + 1; } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredBool::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredBool* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredBool::MergeFrom(const TestMessRequiredBool& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredBool::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredBool::CopyFrom(const TestMessRequiredBool& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredBool::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredBool::Swap(TestMessRequiredBool* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredBool::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredBool_descriptor_; metadata.reflection = TestMessRequiredBool_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredEnum::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredEnum::TestMessRequiredEnum() { SharedCtor(); } void TestMessRequiredEnum::InitAsDefaultInstance() { } TestMessRequiredEnum::TestMessRequiredEnum(const TestMessRequiredEnum& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredEnum::SharedCtor() { _cached_size_ = 0; test_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredEnum::~TestMessRequiredEnum() { SharedDtor(); } void TestMessRequiredEnum::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredEnum::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredEnum_descriptor_; } const TestMessRequiredEnum& TestMessRequiredEnum::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredEnum* TestMessRequiredEnum::default_instance_ = NULL; TestMessRequiredEnum* TestMessRequiredEnum::New() const { return new TestMessRequiredEnum; } void TestMessRequiredEnum::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredEnum::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required .foo.TestEnum test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } int value; DO_(::google::protobuf::internal::WireFormatLite::ReadEnum(input, &value)); if (foo::TestEnum_IsValid(value)) { set_test(static_cast< foo::TestEnum >(value)); } else { mutable_unknown_fields()->AddVarint(1, value); } if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredEnum::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredEnum::SerializeWithCachedSizesToArray(raw_buffer); return; } // required .foo.TestEnum test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteEnum( 1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredEnum::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required .foo.TestEnum test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteEnumToArray( 1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredEnum::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required .foo.TestEnum test = 1; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::EnumSize(this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredEnum::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredEnum* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredEnum::MergeFrom(const TestMessRequiredEnum& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredEnum::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredEnum::CopyFrom(const TestMessRequiredEnum& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredEnum::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredEnum::Swap(TestMessRequiredEnum* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredEnum::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredEnum_descriptor_; metadata.reflection = TestMessRequiredEnum_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredEnumSmall::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredEnumSmall::TestMessRequiredEnumSmall() { SharedCtor(); } void TestMessRequiredEnumSmall::InitAsDefaultInstance() { } TestMessRequiredEnumSmall::TestMessRequiredEnumSmall(const TestMessRequiredEnumSmall& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredEnumSmall::SharedCtor() { _cached_size_ = 0; test_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredEnumSmall::~TestMessRequiredEnumSmall() { SharedDtor(); } void TestMessRequiredEnumSmall::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredEnumSmall::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredEnumSmall_descriptor_; } const TestMessRequiredEnumSmall& TestMessRequiredEnumSmall::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredEnumSmall* TestMessRequiredEnumSmall::default_instance_ = NULL; TestMessRequiredEnumSmall* TestMessRequiredEnumSmall::New() const { return new TestMessRequiredEnumSmall; } void TestMessRequiredEnumSmall::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { test_ = 0; } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredEnumSmall::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required .foo.TestEnumSmall test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } int value; DO_(::google::protobuf::internal::WireFormatLite::ReadEnum(input, &value)); if (foo::TestEnumSmall_IsValid(value)) { set_test(static_cast< foo::TestEnumSmall >(value)); } else { mutable_unknown_fields()->AddVarint(1, value); } if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredEnumSmall::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredEnumSmall::SerializeWithCachedSizesToArray(raw_buffer); return; } // required .foo.TestEnumSmall test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteEnum( 1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredEnumSmall::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required .foo.TestEnumSmall test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteEnumToArray( 1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredEnumSmall::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required .foo.TestEnumSmall test = 1; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::EnumSize(this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredEnumSmall::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredEnumSmall* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredEnumSmall::MergeFrom(const TestMessRequiredEnumSmall& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredEnumSmall::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredEnumSmall::CopyFrom(const TestMessRequiredEnumSmall& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredEnumSmall::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredEnumSmall::Swap(TestMessRequiredEnumSmall* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredEnumSmall::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredEnumSmall_descriptor_; metadata.reflection = TestMessRequiredEnumSmall_reflection_; return metadata; } // =================================================================== const ::std::string TestMessRequiredString::_default_test_; #ifndef _MSC_VER const int TestMessRequiredString::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredString::TestMessRequiredString() { SharedCtor(); } void TestMessRequiredString::InitAsDefaultInstance() { } TestMessRequiredString::TestMessRequiredString(const TestMessRequiredString& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredString::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredString::~TestMessRequiredString() { SharedDtor(); } void TestMessRequiredString::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredString::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredString_descriptor_; } const TestMessRequiredString& TestMessRequiredString::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredString* TestMessRequiredString::default_instance_ = NULL; TestMessRequiredString* TestMessRequiredString::New() const { return new TestMessRequiredString; } void TestMessRequiredString::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredString::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required string test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_test())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredString::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredString::SerializeWithCachedSizesToArray(raw_buffer); return; } // required string test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredString::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required string test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->test().data(), this->test().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredString::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required string test = 1; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::StringSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredString::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredString* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredString::MergeFrom(const TestMessRequiredString& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredString::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredString::CopyFrom(const TestMessRequiredString& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredString::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredString::Swap(TestMessRequiredString* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredString::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredString_descriptor_; metadata.reflection = TestMessRequiredString_reflection_; return metadata; } // =================================================================== const ::std::string TestMessRequiredBytes::_default_test_; #ifndef _MSC_VER const int TestMessRequiredBytes::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredBytes::TestMessRequiredBytes() { SharedCtor(); } void TestMessRequiredBytes::InitAsDefaultInstance() { } TestMessRequiredBytes::TestMessRequiredBytes(const TestMessRequiredBytes& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredBytes::SharedCtor() { _cached_size_ = 0; test_ = const_cast< ::std::string*>(&_default_test_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredBytes::~TestMessRequiredBytes() { SharedDtor(); } void TestMessRequiredBytes::SharedDtor() { if (test_ != &_default_test_) { delete test_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* TestMessRequiredBytes::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredBytes_descriptor_; } const TestMessRequiredBytes& TestMessRequiredBytes::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredBytes* TestMessRequiredBytes::default_instance_ = NULL; TestMessRequiredBytes* TestMessRequiredBytes::New() const { return new TestMessRequiredBytes; } void TestMessRequiredBytes::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != &_default_test_) { test_->clear(); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredBytes::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required bytes test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadBytes( input, this->mutable_test())); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredBytes::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredBytes::SerializeWithCachedSizesToArray(raw_buffer); return; } // required bytes test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteBytes( 1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredBytes::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required bytes test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteBytesToArray( 1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredBytes::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required bytes test = 1; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::BytesSize( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredBytes::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredBytes* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredBytes::MergeFrom(const TestMessRequiredBytes& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_test(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredBytes::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredBytes::CopyFrom(const TestMessRequiredBytes& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredBytes::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; return true; } void TestMessRequiredBytes::Swap(TestMessRequiredBytes* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredBytes::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredBytes_descriptor_; metadata.reflection = TestMessRequiredBytes_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER const int TestMessRequiredMessage::kTestFieldNumber; #endif // !_MSC_VER TestMessRequiredMessage::TestMessRequiredMessage() { SharedCtor(); } void TestMessRequiredMessage::InitAsDefaultInstance() { test_ = const_cast< ::foo::SubMess*>(&::foo::SubMess::default_instance()); } TestMessRequiredMessage::TestMessRequiredMessage(const TestMessRequiredMessage& from) { SharedCtor(); MergeFrom(from); } void TestMessRequiredMessage::SharedCtor() { _cached_size_ = 0; test_ = NULL; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } TestMessRequiredMessage::~TestMessRequiredMessage() { SharedDtor(); } void TestMessRequiredMessage::SharedDtor() { if (this != default_instance_) { delete test_; } } const ::google::protobuf::Descriptor* TestMessRequiredMessage::descriptor() { protobuf_AssignDescriptorsOnce(); return TestMessRequiredMessage_descriptor_; } const TestMessRequiredMessage& TestMessRequiredMessage::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } TestMessRequiredMessage* TestMessRequiredMessage::default_instance_ = NULL; TestMessRequiredMessage* TestMessRequiredMessage::New() const { return new TestMessRequiredMessage; } void TestMessRequiredMessage::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (test_ != NULL) test_->::foo::SubMess::Clear(); } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool TestMessRequiredMessage::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required .foo.SubMess test = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadMessageNoVirtual( input, mutable_test())); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void TestMessRequiredMessage::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { TestMessRequiredMessage::SerializeWithCachedSizesToArray(raw_buffer); return; } // required .foo.SubMess test = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteMessageNoVirtual( 1, this->test(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* TestMessRequiredMessage::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required .foo.SubMess test = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite:: WriteMessageNoVirtualToArray( 1, this->test(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int TestMessRequiredMessage::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required .foo.SubMess test = 1; if (has_test()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::MessageSizeNoVirtual( this->test()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void TestMessRequiredMessage::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const TestMessRequiredMessage* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void TestMessRequiredMessage::MergeFrom(const TestMessRequiredMessage& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { mutable_test()->::foo::SubMess::MergeFrom(from.test()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void TestMessRequiredMessage::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void TestMessRequiredMessage::CopyFrom(const TestMessRequiredMessage& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool TestMessRequiredMessage::IsInitialized() const { if ((_has_bits_[0] & 0x00000001) != 0x00000001) return false; if (has_test()) { if (!this->test().IsInitialized()) return false; } return true; } void TestMessRequiredMessage::Swap(TestMessRequiredMessage* other) { if (other != this) { std::swap(test_, other->test_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata TestMessRequiredMessage::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = TestMessRequiredMessage_descriptor_; metadata.reflection = TestMessRequiredMessage_reflection_; return metadata; } // =================================================================== #ifndef _MSC_VER #endif // !_MSC_VER EmptyMess::EmptyMess() { SharedCtor(); } void EmptyMess::InitAsDefaultInstance() { } EmptyMess::EmptyMess(const EmptyMess& from) { SharedCtor(); MergeFrom(from); } void EmptyMess::SharedCtor() { _cached_size_ = 0; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } EmptyMess::~EmptyMess() { SharedDtor(); } void EmptyMess::SharedDtor() { if (this != default_instance_) { } } const ::google::protobuf::Descriptor* EmptyMess::descriptor() { protobuf_AssignDescriptorsOnce(); return EmptyMess_descriptor_; } const EmptyMess& EmptyMess::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } EmptyMess* EmptyMess::default_instance_ = NULL; EmptyMess* EmptyMess::New() const { return new EmptyMess; } void EmptyMess::Clear() { ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool EmptyMess::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); } return true; #undef DO_ } void EmptyMess::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { EmptyMess::SerializeWithCachedSizesToArray(raw_buffer); return; } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* EmptyMess::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int EmptyMess::ByteSize() const { int total_size = 0; if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void EmptyMess::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const EmptyMess* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void EmptyMess::MergeFrom(const EmptyMess& from) { GOOGLE_CHECK_NE(&from, this); mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void EmptyMess::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void EmptyMess::CopyFrom(const EmptyMess& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool EmptyMess::IsInitialized() const { return true; } void EmptyMess::Swap(EmptyMess* other) { if (other != this) { _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata EmptyMess::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = EmptyMess_descriptor_; metadata.reflection = EmptyMess_reflection_; return metadata; } // =================================================================== const ::std::string DefaultRequiredValues::_default_v_string_("hi mom\n"); const ::std::string DefaultRequiredValues::_default_v_bytes_("a \000 character"); #ifndef _MSC_VER const int DefaultRequiredValues::kVInt32FieldNumber; const int DefaultRequiredValues::kVUint32FieldNumber; const int DefaultRequiredValues::kVInt64FieldNumber; const int DefaultRequiredValues::kVUint64FieldNumber; const int DefaultRequiredValues::kVFloatFieldNumber; const int DefaultRequiredValues::kVDoubleFieldNumber; const int DefaultRequiredValues::kVStringFieldNumber; const int DefaultRequiredValues::kVBytesFieldNumber; #endif // !_MSC_VER DefaultRequiredValues::DefaultRequiredValues() { SharedCtor(); } void DefaultRequiredValues::InitAsDefaultInstance() { } DefaultRequiredValues::DefaultRequiredValues(const DefaultRequiredValues& from) { SharedCtor(); MergeFrom(from); } void DefaultRequiredValues::SharedCtor() { _cached_size_ = 0; v_int32_ = -42; v_uint32_ = 666u; v_int64_ = 100000; v_uint64_ = 100001u; v_float_ = 2.5f; v_double_ = 4.5; v_string_ = const_cast< ::std::string*>(&_default_v_string_); v_bytes_ = const_cast< ::std::string*>(&_default_v_bytes_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } DefaultRequiredValues::~DefaultRequiredValues() { SharedDtor(); } void DefaultRequiredValues::SharedDtor() { if (v_string_ != &_default_v_string_) { delete v_string_; } if (v_bytes_ != &_default_v_bytes_) { delete v_bytes_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* DefaultRequiredValues::descriptor() { protobuf_AssignDescriptorsOnce(); return DefaultRequiredValues_descriptor_; } const DefaultRequiredValues& DefaultRequiredValues::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } DefaultRequiredValues* DefaultRequiredValues::default_instance_ = NULL; DefaultRequiredValues* DefaultRequiredValues::New() const { return new DefaultRequiredValues; } void DefaultRequiredValues::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { v_int32_ = -42; v_uint32_ = 666u; v_int64_ = 100000; v_uint64_ = 100001u; v_float_ = 2.5f; v_double_ = 4.5; if (_has_bit(6)) { if (v_string_ != &_default_v_string_) { v_string_->assign(_default_v_string_); } } if (_has_bit(7)) { if (v_bytes_ != &_default_v_bytes_) { v_bytes_->assign(_default_v_bytes_); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool DefaultRequiredValues::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // required int32 v_int32 = 1 [default = -42]; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadInt32( input, &v_int32_)); _set_bit(0); if (input->ExpectTag(16)) goto parse_v_uint32; break; } // required uint32 v_uint32 = 2 [default = 666]; case 2: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_v_uint32: DO_(::google::protobuf::internal::WireFormatLite::ReadUInt32( input, &v_uint32_)); _set_bit(1); if (input->ExpectTag(24)) goto parse_v_int64; break; } // required int32 v_int64 = 3 [default = 100000]; case 3: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_v_int64: DO_(::google::protobuf::internal::WireFormatLite::ReadInt32( input, &v_int64_)); _set_bit(2); if (input->ExpectTag(32)) goto parse_v_uint64; break; } // required uint32 v_uint64 = 4 [default = 100001]; case 4: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_v_uint64: DO_(::google::protobuf::internal::WireFormatLite::ReadUInt32( input, &v_uint64_)); _set_bit(3); if (input->ExpectTag(45)) goto parse_v_float; break; } // required float v_float = 5 [default = 2.5]; case 5: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } parse_v_float: DO_(::google::protobuf::internal::WireFormatLite::ReadFloat( input, &v_float_)); _set_bit(4); if (input->ExpectTag(49)) goto parse_v_double; break; } // required double v_double = 6 [default = 4.5]; case 6: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } parse_v_double: DO_(::google::protobuf::internal::WireFormatLite::ReadDouble( input, &v_double_)); _set_bit(5); if (input->ExpectTag(58)) goto parse_v_string; break; } // required string v_string = 7 [default = "hi mom\n"]; case 7: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_v_string: DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_v_string())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->v_string().data(), this->v_string().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectTag(66)) goto parse_v_bytes; break; } // required bytes v_bytes = 8 [default = "a \000 character"]; case 8: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_v_bytes: DO_(::google::protobuf::internal::WireFormatLite::ReadBytes( input, this->mutable_v_bytes())); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void DefaultRequiredValues::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { DefaultRequiredValues::SerializeWithCachedSizesToArray(raw_buffer); return; } // required int32 v_int32 = 1 [default = -42]; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteInt32(1, this->v_int32(), output); } // required uint32 v_uint32 = 2 [default = 666]; if (_has_bit(1)) { ::google::protobuf::internal::WireFormatLite::WriteUInt32(2, this->v_uint32(), output); } // required int32 v_int64 = 3 [default = 100000]; if (_has_bit(2)) { ::google::protobuf::internal::WireFormatLite::WriteInt32(3, this->v_int64(), output); } // required uint32 v_uint64 = 4 [default = 100001]; if (_has_bit(3)) { ::google::protobuf::internal::WireFormatLite::WriteUInt32(4, this->v_uint64(), output); } // required float v_float = 5 [default = 2.5]; if (_has_bit(4)) { ::google::protobuf::internal::WireFormatLite::WriteFloat(5, this->v_float(), output); } // required double v_double = 6 [default = 4.5]; if (_has_bit(5)) { ::google::protobuf::internal::WireFormatLite::WriteDouble(6, this->v_double(), output); } // required string v_string = 7 [default = "hi mom\n"]; if (_has_bit(6)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->v_string().data(), this->v_string().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 7, this->v_string(), output); } // required bytes v_bytes = 8 [default = "a \000 character"]; if (_has_bit(7)) { ::google::protobuf::internal::WireFormatLite::WriteBytes( 8, this->v_bytes(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* DefaultRequiredValues::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // required int32 v_int32 = 1 [default = -42]; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteInt32ToArray(1, this->v_int32(), target); } // required uint32 v_uint32 = 2 [default = 666]; if (_has_bit(1)) { target = ::google::protobuf::internal::WireFormatLite::WriteUInt32ToArray(2, this->v_uint32(), target); } // required int32 v_int64 = 3 [default = 100000]; if (_has_bit(2)) { target = ::google::protobuf::internal::WireFormatLite::WriteInt32ToArray(3, this->v_int64(), target); } // required uint32 v_uint64 = 4 [default = 100001]; if (_has_bit(3)) { target = ::google::protobuf::internal::WireFormatLite::WriteUInt32ToArray(4, this->v_uint64(), target); } // required float v_float = 5 [default = 2.5]; if (_has_bit(4)) { target = ::google::protobuf::internal::WireFormatLite::WriteFloatToArray(5, this->v_float(), target); } // required double v_double = 6 [default = 4.5]; if (_has_bit(5)) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(6, this->v_double(), target); } // required string v_string = 7 [default = "hi mom\n"]; if (_has_bit(6)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->v_string().data(), this->v_string().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 7, this->v_string(), target); } // required bytes v_bytes = 8 [default = "a \000 character"]; if (_has_bit(7)) { target = ::google::protobuf::internal::WireFormatLite::WriteBytesToArray( 8, this->v_bytes(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int DefaultRequiredValues::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // required int32 v_int32 = 1 [default = -42]; if (has_v_int32()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size( this->v_int32()); } // required uint32 v_uint32 = 2 [default = 666]; if (has_v_uint32()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::UInt32Size( this->v_uint32()); } // required int32 v_int64 = 3 [default = 100000]; if (has_v_int64()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size( this->v_int64()); } // required uint32 v_uint64 = 4 [default = 100001]; if (has_v_uint64()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::UInt32Size( this->v_uint64()); } // required float v_float = 5 [default = 2.5]; if (has_v_float()) { total_size += 1 + 4; } // required double v_double = 6 [default = 4.5]; if (has_v_double()) { total_size += 1 + 8; } // required string v_string = 7 [default = "hi mom\n"]; if (has_v_string()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::StringSize( this->v_string()); } // required bytes v_bytes = 8 [default = "a \000 character"]; if (has_v_bytes()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::BytesSize( this->v_bytes()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void DefaultRequiredValues::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const DefaultRequiredValues* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void DefaultRequiredValues::MergeFrom(const DefaultRequiredValues& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_v_int32(from.v_int32()); } if (from._has_bit(1)) { set_v_uint32(from.v_uint32()); } if (from._has_bit(2)) { set_v_int64(from.v_int64()); } if (from._has_bit(3)) { set_v_uint64(from.v_uint64()); } if (from._has_bit(4)) { set_v_float(from.v_float()); } if (from._has_bit(5)) { set_v_double(from.v_double()); } if (from._has_bit(6)) { set_v_string(from.v_string()); } if (from._has_bit(7)) { set_v_bytes(from.v_bytes()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void DefaultRequiredValues::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void DefaultRequiredValues::CopyFrom(const DefaultRequiredValues& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool DefaultRequiredValues::IsInitialized() const { if ((_has_bits_[0] & 0x000000ff) != 0x000000ff) return false; return true; } void DefaultRequiredValues::Swap(DefaultRequiredValues* other) { if (other != this) { std::swap(v_int32_, other->v_int32_); std::swap(v_uint32_, other->v_uint32_); std::swap(v_int64_, other->v_int64_); std::swap(v_uint64_, other->v_uint64_); std::swap(v_float_, other->v_float_); std::swap(v_double_, other->v_double_); std::swap(v_string_, other->v_string_); std::swap(v_bytes_, other->v_bytes_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata DefaultRequiredValues::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = DefaultRequiredValues_descriptor_; metadata.reflection = DefaultRequiredValues_reflection_; return metadata; } // =================================================================== const ::std::string DefaultOptionalValues::_default_v_string_("hi mom\n"); const ::std::string DefaultOptionalValues::_default_v_bytes_("a \000 character"); #ifndef _MSC_VER const int DefaultOptionalValues::kVInt32FieldNumber; const int DefaultOptionalValues::kVUint32FieldNumber; const int DefaultOptionalValues::kVInt64FieldNumber; const int DefaultOptionalValues::kVUint64FieldNumber; const int DefaultOptionalValues::kVFloatFieldNumber; const int DefaultOptionalValues::kVDoubleFieldNumber; const int DefaultOptionalValues::kVStringFieldNumber; const int DefaultOptionalValues::kVBytesFieldNumber; #endif // !_MSC_VER DefaultOptionalValues::DefaultOptionalValues() { SharedCtor(); } void DefaultOptionalValues::InitAsDefaultInstance() { } DefaultOptionalValues::DefaultOptionalValues(const DefaultOptionalValues& from) { SharedCtor(); MergeFrom(from); } void DefaultOptionalValues::SharedCtor() { _cached_size_ = 0; v_int32_ = -42; v_uint32_ = 666u; v_int64_ = 100000; v_uint64_ = 100001u; v_float_ = 2.5f; v_double_ = 4.5; v_string_ = const_cast< ::std::string*>(&_default_v_string_); v_bytes_ = const_cast< ::std::string*>(&_default_v_bytes_); ::memset(_has_bits_, 0, sizeof(_has_bits_)); } DefaultOptionalValues::~DefaultOptionalValues() { SharedDtor(); } void DefaultOptionalValues::SharedDtor() { if (v_string_ != &_default_v_string_) { delete v_string_; } if (v_bytes_ != &_default_v_bytes_) { delete v_bytes_; } if (this != default_instance_) { } } const ::google::protobuf::Descriptor* DefaultOptionalValues::descriptor() { protobuf_AssignDescriptorsOnce(); return DefaultOptionalValues_descriptor_; } const DefaultOptionalValues& DefaultOptionalValues::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } DefaultOptionalValues* DefaultOptionalValues::default_instance_ = NULL; DefaultOptionalValues* DefaultOptionalValues::New() const { return new DefaultOptionalValues; } void DefaultOptionalValues::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { v_int32_ = -42; v_uint32_ = 666u; v_int64_ = 100000; v_uint64_ = 100001u; v_float_ = 2.5f; v_double_ = 4.5; if (_has_bit(6)) { if (v_string_ != &_default_v_string_) { v_string_->assign(_default_v_string_); } } if (_has_bit(7)) { if (v_bytes_ != &_default_v_bytes_) { v_bytes_->assign(_default_v_bytes_); } } } ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool DefaultOptionalValues::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // optional int32 v_int32 = 1 [default = -42]; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadInt32( input, &v_int32_)); _set_bit(0); if (input->ExpectTag(16)) goto parse_v_uint32; break; } // optional uint32 v_uint32 = 2 [default = 666]; case 2: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_v_uint32: DO_(::google::protobuf::internal::WireFormatLite::ReadUInt32( input, &v_uint32_)); _set_bit(1); if (input->ExpectTag(24)) goto parse_v_int64; break; } // optional int32 v_int64 = 3 [default = 100000]; case 3: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_v_int64: DO_(::google::protobuf::internal::WireFormatLite::ReadInt32( input, &v_int64_)); _set_bit(2); if (input->ExpectTag(32)) goto parse_v_uint64; break; } // optional uint32 v_uint64 = 4 [default = 100001]; case 4: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_VARINT) { goto handle_uninterpreted; } parse_v_uint64: DO_(::google::protobuf::internal::WireFormatLite::ReadUInt32( input, &v_uint64_)); _set_bit(3); if (input->ExpectTag(45)) goto parse_v_float; break; } // optional float v_float = 5 [default = 2.5]; case 5: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED32) { goto handle_uninterpreted; } parse_v_float: DO_(::google::protobuf::internal::WireFormatLite::ReadFloat( input, &v_float_)); _set_bit(4); if (input->ExpectTag(49)) goto parse_v_double; break; } // optional double v_double = 6 [default = 4.5]; case 6: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_FIXED64) { goto handle_uninterpreted; } parse_v_double: DO_(::google::protobuf::internal::WireFormatLite::ReadDouble( input, &v_double_)); _set_bit(5); if (input->ExpectTag(58)) goto parse_v_string; break; } // optional string v_string = 7 [default = "hi mom\n"]; case 7: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_v_string: DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_v_string())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->v_string().data(), this->v_string().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectTag(66)) goto parse_v_bytes; break; } // optional bytes v_bytes = 8 [default = "a \000 character"]; case 8: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_v_bytes: DO_(::google::protobuf::internal::WireFormatLite::ReadBytes( input, this->mutable_v_bytes())); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void DefaultOptionalValues::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { DefaultOptionalValues::SerializeWithCachedSizesToArray(raw_buffer); return; } // optional int32 v_int32 = 1 [default = -42]; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteInt32(1, this->v_int32(), output); } // optional uint32 v_uint32 = 2 [default = 666]; if (_has_bit(1)) { ::google::protobuf::internal::WireFormatLite::WriteUInt32(2, this->v_uint32(), output); } // optional int32 v_int64 = 3 [default = 100000]; if (_has_bit(2)) { ::google::protobuf::internal::WireFormatLite::WriteInt32(3, this->v_int64(), output); } // optional uint32 v_uint64 = 4 [default = 100001]; if (_has_bit(3)) { ::google::protobuf::internal::WireFormatLite::WriteUInt32(4, this->v_uint64(), output); } // optional float v_float = 5 [default = 2.5]; if (_has_bit(4)) { ::google::protobuf::internal::WireFormatLite::WriteFloat(5, this->v_float(), output); } // optional double v_double = 6 [default = 4.5]; if (_has_bit(5)) { ::google::protobuf::internal::WireFormatLite::WriteDouble(6, this->v_double(), output); } // optional string v_string = 7 [default = "hi mom\n"]; if (_has_bit(6)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->v_string().data(), this->v_string().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 7, this->v_string(), output); } // optional bytes v_bytes = 8 [default = "a \000 character"]; if (_has_bit(7)) { ::google::protobuf::internal::WireFormatLite::WriteBytes( 8, this->v_bytes(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* DefaultOptionalValues::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // optional int32 v_int32 = 1 [default = -42]; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteInt32ToArray(1, this->v_int32(), target); } // optional uint32 v_uint32 = 2 [default = 666]; if (_has_bit(1)) { target = ::google::protobuf::internal::WireFormatLite::WriteUInt32ToArray(2, this->v_uint32(), target); } // optional int32 v_int64 = 3 [default = 100000]; if (_has_bit(2)) { target = ::google::protobuf::internal::WireFormatLite::WriteInt32ToArray(3, this->v_int64(), target); } // optional uint32 v_uint64 = 4 [default = 100001]; if (_has_bit(3)) { target = ::google::protobuf::internal::WireFormatLite::WriteUInt32ToArray(4, this->v_uint64(), target); } // optional float v_float = 5 [default = 2.5]; if (_has_bit(4)) { target = ::google::protobuf::internal::WireFormatLite::WriteFloatToArray(5, this->v_float(), target); } // optional double v_double = 6 [default = 4.5]; if (_has_bit(5)) { target = ::google::protobuf::internal::WireFormatLite::WriteDoubleToArray(6, this->v_double(), target); } // optional string v_string = 7 [default = "hi mom\n"]; if (_has_bit(6)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->v_string().data(), this->v_string().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 7, this->v_string(), target); } // optional bytes v_bytes = 8 [default = "a \000 character"]; if (_has_bit(7)) { target = ::google::protobuf::internal::WireFormatLite::WriteBytesToArray( 8, this->v_bytes(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int DefaultOptionalValues::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // optional int32 v_int32 = 1 [default = -42]; if (has_v_int32()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size( this->v_int32()); } // optional uint32 v_uint32 = 2 [default = 666]; if (has_v_uint32()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::UInt32Size( this->v_uint32()); } // optional int32 v_int64 = 3 [default = 100000]; if (has_v_int64()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::Int32Size( this->v_int64()); } // optional uint32 v_uint64 = 4 [default = 100001]; if (has_v_uint64()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::UInt32Size( this->v_uint64()); } // optional float v_float = 5 [default = 2.5]; if (has_v_float()) { total_size += 1 + 4; } // optional double v_double = 6 [default = 4.5]; if (has_v_double()) { total_size += 1 + 8; } // optional string v_string = 7 [default = "hi mom\n"]; if (has_v_string()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::StringSize( this->v_string()); } // optional bytes v_bytes = 8 [default = "a \000 character"]; if (has_v_bytes()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::BytesSize( this->v_bytes()); } } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void DefaultOptionalValues::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const DefaultOptionalValues* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void DefaultOptionalValues::MergeFrom(const DefaultOptionalValues& from) { GOOGLE_CHECK_NE(&from, this); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_v_int32(from.v_int32()); } if (from._has_bit(1)) { set_v_uint32(from.v_uint32()); } if (from._has_bit(2)) { set_v_int64(from.v_int64()); } if (from._has_bit(3)) { set_v_uint64(from.v_uint64()); } if (from._has_bit(4)) { set_v_float(from.v_float()); } if (from._has_bit(5)) { set_v_double(from.v_double()); } if (from._has_bit(6)) { set_v_string(from.v_string()); } if (from._has_bit(7)) { set_v_bytes(from.v_bytes()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void DefaultOptionalValues::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void DefaultOptionalValues::CopyFrom(const DefaultOptionalValues& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool DefaultOptionalValues::IsInitialized() const { return true; } void DefaultOptionalValues::Swap(DefaultOptionalValues* other) { if (other != this) { std::swap(v_int32_, other->v_int32_); std::swap(v_uint32_, other->v_uint32_); std::swap(v_int64_, other->v_int64_); std::swap(v_uint64_, other->v_uint64_); std::swap(v_float_, other->v_float_); std::swap(v_double_, other->v_double_); std::swap(v_string_, other->v_string_); std::swap(v_bytes_, other->v_bytes_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata DefaultOptionalValues::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = DefaultOptionalValues_descriptor_; metadata.reflection = DefaultOptionalValues_reflection_; return metadata; } // =================================================================== const ::std::string AllocValues::_default_o_bytes_; const ::std::string AllocValues::_default_a_string_; const ::std::string AllocValues::_default_a_bytes_; #ifndef _MSC_VER const int AllocValues::kOBytesFieldNumber; const int AllocValues::kRStringFieldNumber; const int AllocValues::kAStringFieldNumber; const int AllocValues::kABytesFieldNumber; const int AllocValues::kAMessFieldNumber; #endif // !_MSC_VER AllocValues::AllocValues() { SharedCtor(); } void AllocValues::InitAsDefaultInstance() { a_mess_ = const_cast< ::foo::DefaultRequiredValues*>(&::foo::DefaultRequiredValues::default_instance()); } AllocValues::AllocValues(const AllocValues& from) { SharedCtor(); MergeFrom(from); } void AllocValues::SharedCtor() { _cached_size_ = 0; o_bytes_ = const_cast< ::std::string*>(&_default_o_bytes_); a_string_ = const_cast< ::std::string*>(&_default_a_string_); a_bytes_ = const_cast< ::std::string*>(&_default_a_bytes_); a_mess_ = NULL; ::memset(_has_bits_, 0, sizeof(_has_bits_)); } AllocValues::~AllocValues() { SharedDtor(); } void AllocValues::SharedDtor() { if (o_bytes_ != &_default_o_bytes_) { delete o_bytes_; } if (a_string_ != &_default_a_string_) { delete a_string_; } if (a_bytes_ != &_default_a_bytes_) { delete a_bytes_; } if (this != default_instance_) { delete a_mess_; } } const ::google::protobuf::Descriptor* AllocValues::descriptor() { protobuf_AssignDescriptorsOnce(); return AllocValues_descriptor_; } const AllocValues& AllocValues::default_instance() { if (default_instance_ == NULL) protobuf_AddDesc_test_2dfull_2eproto(); return *default_instance_; } AllocValues* AllocValues::default_instance_ = NULL; AllocValues* AllocValues::New() const { return new AllocValues; } void AllocValues::Clear() { if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (_has_bit(0)) { if (o_bytes_ != &_default_o_bytes_) { o_bytes_->clear(); } } if (_has_bit(2)) { if (a_string_ != &_default_a_string_) { a_string_->clear(); } } if (_has_bit(3)) { if (a_bytes_ != &_default_a_bytes_) { a_bytes_->clear(); } } if (_has_bit(4)) { if (a_mess_ != NULL) a_mess_->::foo::DefaultRequiredValues::Clear(); } } r_string_.Clear(); ::memset(_has_bits_, 0, sizeof(_has_bits_)); mutable_unknown_fields()->Clear(); } bool AllocValues::MergePartialFromCodedStream( ::google::protobuf::io::CodedInputStream* input) { #define DO_(EXPRESSION) if (!(EXPRESSION)) return false ::google::protobuf::uint32 tag; while ((tag = input->ReadTag()) != 0) { switch (::google::protobuf::internal::WireFormatLite::GetTagFieldNumber(tag)) { // optional bytes o_bytes = 1; case 1: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } DO_(::google::protobuf::internal::WireFormatLite::ReadBytes( input, this->mutable_o_bytes())); if (input->ExpectTag(18)) goto parse_r_string; break; } // repeated string r_string = 2; case 2: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_r_string: DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->add_r_string())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->r_string(0).data(), this->r_string(0).length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectTag(18)) goto parse_r_string; if (input->ExpectTag(26)) goto parse_a_string; break; } // required string a_string = 3; case 3: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_a_string: DO_(::google::protobuf::internal::WireFormatLite::ReadString( input, this->mutable_a_string())); ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->a_string().data(), this->a_string().length(), ::google::protobuf::internal::WireFormat::PARSE); if (input->ExpectTag(34)) goto parse_a_bytes; break; } // required bytes a_bytes = 4; case 4: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_a_bytes: DO_(::google::protobuf::internal::WireFormatLite::ReadBytes( input, this->mutable_a_bytes())); if (input->ExpectTag(42)) goto parse_a_mess; break; } // required .foo.DefaultRequiredValues a_mess = 5; case 5: { if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) != ::google::protobuf::internal::WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { goto handle_uninterpreted; } parse_a_mess: DO_(::google::protobuf::internal::WireFormatLite::ReadMessageNoVirtual( input, mutable_a_mess())); if (input->ExpectAtEnd()) return true; break; } default: { handle_uninterpreted: if (::google::protobuf::internal::WireFormatLite::GetTagWireType(tag) == ::google::protobuf::internal::WireFormatLite::WIRETYPE_END_GROUP) { return true; } DO_(::google::protobuf::internal::WireFormat::SkipField( input, tag, mutable_unknown_fields())); break; } } } return true; #undef DO_ } void AllocValues::SerializeWithCachedSizes( ::google::protobuf::io::CodedOutputStream* output) const { ::google::protobuf::uint8* raw_buffer = output->GetDirectBufferForNBytesAndAdvance(_cached_size_); if (raw_buffer != NULL) { AllocValues::SerializeWithCachedSizesToArray(raw_buffer); return; } // optional bytes o_bytes = 1; if (_has_bit(0)) { ::google::protobuf::internal::WireFormatLite::WriteBytes( 1, this->o_bytes(), output); } // repeated string r_string = 2; for (int i = 0; i < this->r_string_size(); i++) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->r_string(i).data(), this->r_string(i).length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 2, this->r_string(i), output); } // required string a_string = 3; if (_has_bit(2)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->a_string().data(), this->a_string().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); ::google::protobuf::internal::WireFormatLite::WriteString( 3, this->a_string(), output); } // required bytes a_bytes = 4; if (_has_bit(3)) { ::google::protobuf::internal::WireFormatLite::WriteBytes( 4, this->a_bytes(), output); } // required .foo.DefaultRequiredValues a_mess = 5; if (_has_bit(4)) { ::google::protobuf::internal::WireFormatLite::WriteMessageNoVirtual( 5, this->a_mess(), output); } if (!unknown_fields().empty()) { ::google::protobuf::internal::WireFormat::SerializeUnknownFields( unknown_fields(), output); } } ::google::protobuf::uint8* AllocValues::SerializeWithCachedSizesToArray( ::google::protobuf::uint8* target) const { // optional bytes o_bytes = 1; if (_has_bit(0)) { target = ::google::protobuf::internal::WireFormatLite::WriteBytesToArray( 1, this->o_bytes(), target); } // repeated string r_string = 2; for (int i = 0; i < this->r_string_size(); i++) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->r_string(i).data(), this->r_string(i).length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite:: WriteStringToArray(2, this->r_string(i), target); } // required string a_string = 3; if (_has_bit(2)) { ::google::protobuf::internal::WireFormat::VerifyUTF8String( this->a_string().data(), this->a_string().length(), ::google::protobuf::internal::WireFormat::SERIALIZE); target = ::google::protobuf::internal::WireFormatLite::WriteStringToArray( 3, this->a_string(), target); } // required bytes a_bytes = 4; if (_has_bit(3)) { target = ::google::protobuf::internal::WireFormatLite::WriteBytesToArray( 4, this->a_bytes(), target); } // required .foo.DefaultRequiredValues a_mess = 5; if (_has_bit(4)) { target = ::google::protobuf::internal::WireFormatLite:: WriteMessageNoVirtualToArray( 5, this->a_mess(), target); } if (!unknown_fields().empty()) { target = ::google::protobuf::internal::WireFormat::SerializeUnknownFieldsToArray( unknown_fields(), target); } return target; } int AllocValues::ByteSize() const { int total_size = 0; if (_has_bits_[0 / 32] & (0xffu << (0 % 32))) { // optional bytes o_bytes = 1; if (has_o_bytes()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::BytesSize( this->o_bytes()); } // required string a_string = 3; if (has_a_string()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::StringSize( this->a_string()); } // required bytes a_bytes = 4; if (has_a_bytes()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::BytesSize( this->a_bytes()); } // required .foo.DefaultRequiredValues a_mess = 5; if (has_a_mess()) { total_size += 1 + ::google::protobuf::internal::WireFormatLite::MessageSizeNoVirtual( this->a_mess()); } } // repeated string r_string = 2; total_size += 1 * this->r_string_size(); for (int i = 0; i < this->r_string_size(); i++) { total_size += ::google::protobuf::internal::WireFormatLite::StringSize( this->r_string(i)); } if (!unknown_fields().empty()) { total_size += ::google::protobuf::internal::WireFormat::ComputeUnknownFieldsSize( unknown_fields()); } _cached_size_ = total_size; return total_size; } void AllocValues::MergeFrom(const ::google::protobuf::Message& from) { GOOGLE_CHECK_NE(&from, this); const AllocValues* source = ::google::protobuf::internal::dynamic_cast_if_available( &from); if (source == NULL) { ::google::protobuf::internal::ReflectionOps::Merge(from, this); } else { MergeFrom(*source); } } void AllocValues::MergeFrom(const AllocValues& from) { GOOGLE_CHECK_NE(&from, this); r_string_.MergeFrom(from.r_string_); if (from._has_bits_[0 / 32] & (0xffu << (0 % 32))) { if (from._has_bit(0)) { set_o_bytes(from.o_bytes()); } if (from._has_bit(2)) { set_a_string(from.a_string()); } if (from._has_bit(3)) { set_a_bytes(from.a_bytes()); } if (from._has_bit(4)) { mutable_a_mess()->::foo::DefaultRequiredValues::MergeFrom(from.a_mess()); } } mutable_unknown_fields()->MergeFrom(from.unknown_fields()); } void AllocValues::CopyFrom(const ::google::protobuf::Message& from) { if (&from == this) return; Clear(); MergeFrom(from); } void AllocValues::CopyFrom(const AllocValues& from) { if (&from == this) return; Clear(); MergeFrom(from); } bool AllocValues::IsInitialized() const { if ((_has_bits_[0] & 0x0000001c) != 0x0000001c) return false; if (has_a_mess()) { if (!this->a_mess().IsInitialized()) return false; } return true; } void AllocValues::Swap(AllocValues* other) { if (other != this) { std::swap(o_bytes_, other->o_bytes_); r_string_.Swap(&other->r_string_); std::swap(a_string_, other->a_string_); std::swap(a_bytes_, other->a_bytes_); std::swap(a_mess_, other->a_mess_); std::swap(_has_bits_[0], other->_has_bits_[0]); _unknown_fields_.Swap(&other->_unknown_fields_); std::swap(_cached_size_, other->_cached_size_); } } ::google::protobuf::Metadata AllocValues::GetMetadata() const { protobuf_AssignDescriptorsOnce(); ::google::protobuf::Metadata metadata; metadata.descriptor = AllocValues_descriptor_; metadata.reflection = AllocValues_reflection_; return metadata; } } // namespace foo protobuf-c-0.15/src/test/test.proto0000644000175000017500000000076311332660133014256 00000000000000package foo; message Person { required string name = 1; required int32 id = 2; optional string email = 3; enum PhoneType { MOBILE = 0; HOME = 1; WORK = 2; } message PhoneNumber { required string number = 1; optional PhoneType type = 2 [default = HOME]; } repeated PhoneNumber phone = 4; } message LookupResult { optional Person person = 1; } message Name { optional string name = 1; }; service DirLookup { rpc ByName (Name) returns (LookupResult); } protobuf-c-0.15/src/test/example-server.c0000644000175000017500000001606311332660133015315 00000000000000#include #include #include #include #include #include #include "generated-code/test.pb-c.h" #include static unsigned database_size; static Foo__Person *database; /* sorted by name */ static void die (const char *format, ...) { va_list args; va_start (args, format); vfprintf (stderr, format, args); va_end (args); fprintf (stderr, "\n"); exit (1); } static void usage (void) { die ("usage: example-server [--port=NUM | --unix=PATH] --database=INPUT\n" "\n" "Run a protobuf server as specified by the DirLookup service\n" "in the test.proto file in the protobuf-c distribution.\n" "\n" "Options:\n" " --port=NUM Port to listen on for RPC clients.\n" " --unix=PATH Unix-domain socket to listen on.\n" " --database=FILE data which the server will use to answer requests.\n" "\n" "The database file is a sequence of stanzas, one per person:\n" "\n" "dave\n" " email who@cares.com\n" " mobile (123)123-1234\n" " id 666\n" "\n" "notes:\n" "- each stanza begins with a single unindented line, the person's name.\n"); } static void *xmalloc (size_t size) { void *rv; if (size == 0) return NULL; rv = malloc (size); if (rv == NULL) die ("out-of-memory allocating %u bytes", (unsigned) size); return rv; } static void *xrealloc (void *a, size_t size) { void *rv; if (size == 0) { free (a); return NULL; } if (a == NULL) return xmalloc (size); rv = realloc (a, size); if (rv == NULL) die ("out-of-memory re-allocating %u bytes", (unsigned) size); return rv; } static char *xstrdup (const char *str) { if (str == NULL) return NULL; return strcpy (xmalloc (strlen (str) + 1), str); } static char *peek_next_token (char *buf) { while (*buf && !isspace (*buf)) buf++; while (*buf && isspace (*buf)) buf++; return buf; } static protobuf_c_boolean is_whitespace (const char *text) { while (*text != 0) { if (!isspace (*text)) return 0; text++; } return 1; } static void chomp_trailing_whitespace (char *buf) { unsigned len = strlen (buf); while (len > 0) { if (!isspace (buf[len-1])) break; len--; } buf[len] = 0; } static protobuf_c_boolean starts_with (const char *str, const char *prefix) { return memcmp (str, prefix, strlen (prefix)) == 0; } static int compare_persons_by_name (const void *a, const void *b) { return strcmp (((const Foo__Person*)a)->name, ((const Foo__Person*)b)->name); } static void load_database (const char *filename) { FILE *fp = fopen (filename, "r"); char buf[2048]; unsigned n_people = 0; unsigned people_alloced = 32; unsigned line_no; Foo__Person *people = xmalloc (sizeof (Foo__Person) * people_alloced); if (fp == NULL) die ("error opening %s: %s", filename, strerror (errno)); line_no = 0; while (fgets (buf, sizeof (buf), fp) != NULL) { line_no++; if (buf[0] == '#') continue; if (is_whitespace (buf)) continue; chomp_trailing_whitespace (buf); if (isspace (buf[0])) { Foo__Person *person; char *start = buf + 1; if (n_people == 0) die ("error on %s, line %u: line began with a space, but no person's name preceded it", filename, line_no); person = people + (n_people - 1); while (*start && isspace (*start)) start++; if (starts_with (start, "id ")) person->id = atoi (peek_next_token (start)); else if (starts_with (start, "email ")) person->email = xstrdup (peek_next_token (start)); else if (starts_with (start, "mobile ") || starts_with (start, "home ") || starts_with (start, "work ")) { Foo__Person__PhoneNumber *pn = xmalloc (sizeof (Foo__Person__PhoneNumber)); Foo__Person__PhoneNumber tmp = FOO__PERSON__PHONE_NUMBER__INIT; tmp.has_type = 1; tmp.type = start[0] == 'm' ? FOO__PERSON__PHONE_TYPE__MOBILE : start[0] == 'h' ? FOO__PERSON__PHONE_TYPE__HOME : FOO__PERSON__PHONE_TYPE__WORK; tmp.number = xstrdup (peek_next_token (start)); person->phone = xrealloc (person->phone, sizeof (Foo__Person__PhoneNumber*) * (person->n_phone+1)); *pn = tmp; person->phone[person->n_phone++] = pn; } else die ("error on %s, line %u: unrecognized field starting with %s", filename, line_no, start); } else { Foo__Person *person; if (n_people == people_alloced) { people_alloced *= 2; people = xrealloc (people, people_alloced * sizeof (Foo__Person)); } person = people + n_people++; foo__person__init (person); person->name = xstrdup (buf); } } if (n_people == 0) die ("empty database: insufficiently interesting to procede"); qsort (people, n_people, sizeof (Foo__Person), compare_persons_by_name); database = people; database_size = n_people; fclose (fp); } static int compare_name_to_person (const void *a, const void *b) { return strcmp (a, ((const Foo__Person*)b)->name); } static void example__by_name (Foo__DirLookup_Service *service, const Foo__Name *name, Foo__LookupResult_Closure closure, void *closure_data) { (void) service; if (name == NULL || name->name == NULL) closure (NULL, closure_data); else { Foo__LookupResult result = FOO__LOOKUP_RESULT__INIT; Foo__Person *rv = bsearch (name->name, database, database_size, sizeof (Foo__Person), compare_name_to_person); if (rv != NULL) result.person = rv; closure (&result, closure_data); } } static Foo__DirLookup_Service the_dir_lookup_service = FOO__DIR_LOOKUP__INIT(example__); int main(int argc, char**argv) { ProtobufC_RPC_Server *server; ProtobufC_RPC_AddressType address_type=0; const char *name = NULL; unsigned i; for (i = 1; i < (unsigned) argc; i++) { if (starts_with (argv[i], "--port=")) { address_type = PROTOBUF_C_RPC_ADDRESS_TCP; name = strchr (argv[i], '=') + 1; } else if (starts_with (argv[i], "--unix=")) { address_type = PROTOBUF_C_RPC_ADDRESS_LOCAL; name = strchr (argv[i], '=') + 1; } else if (starts_with (argv[i], "--database=")) { load_database (strchr (argv[i], '=') + 1); } else usage (); } if (database_size == 0) die ("missing --database=FILE (try --database=example.database)"); if (name == NULL) die ("missing --port=NUM or --unix=PATH"); server = protobuf_c_rpc_server_new (address_type, name, (ProtobufCService *) &the_dir_lookup_service, NULL); for (;;) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); return 0; } protobuf-c-0.15/src/test/CMakeLists.txt0000644000175000017500000000647511536220130014753 00000000000000if ( BUILD_PROTOBUF_C_COMPILER AND BUILD_PROTOBUF_C_STATIC_LIB ) function(BUILD_C_TEST target_name proto_name) set(TMP_OUTPUT_DIR ${CMAKE_BINARY_DIR}/${target_name}/generated-code) file(MAKE_DIRECTORY ${TMP_OUTPUT_DIR}) set(GENERATED_SOURCES ${TMP_OUTPUT_DIR}/${proto_name}.pb-c.h ${TMP_OUTPUT_DIR}/${proto_name}.pb-c.c) add_executable(${target_name} ${target_name}.c ${GENERATED_SOURCES} ${ARGN}) set_target_properties(${target_name} PROPERTIES COMPILE_FLAGS "-I${CMAKE_BINARY_DIR}/${target_name}") target_link_libraries(${target_name} protobuf-c-static) add_custom_command(OUTPUT ${GENERATED_SOURCES} COMMAND protoc-c -I${CMAKE_CURRENT_SOURCE_DIR} --c_out=${TMP_OUTPUT_DIR} ${CMAKE_CURRENT_SOURCE_DIR}/${proto_name}.proto DEPENDS protoc-c ${CMAKE_CURRENT_SOURCE_DIR}/${proto_name}.proto COMMENT "Running C protocol buffer compiler on ${proto_name}" VERBATIM) endfunction() function(BUILD_CPP_TEST target_name proto_name) set(TMP_OUTPUT_DIR ${CMAKE_BINARY_DIR}/${target_name}/generated-code) file(MAKE_DIRECTORY ${TMP_OUTPUT_DIR}) set(GENERATED_SOURCES ${TMP_OUTPUT_DIR}/${proto_name}.pb.h ${TMP_OUTPUT_DIR}/${proto_name}.pb.cc) add_executable(${target_name} ${target_name}.cc ${GENERATED_SOURCES} ${ARGN}) set_target_properties(${target_name} PROPERTIES COMPILE_FLAGS "-I${CMAKE_BINARY_DIR}/${target_name} -I${PROTOBUF_INCLUDE_DIRS}") target_link_libraries(${target_name} ${PROTOBUF_LIBRARIES}) if ( UNIX ) find_package(Threads REQUIRED) target_link_libraries(${target_name} ${CMAKE_THREAD_LIBS_INIT}) endif() add_custom_command(OUTPUT ${GENERATED_SOURCES} COMMAND ${PROTOBUF_PROTOC_EXECUTABLE} -I${CMAKE_CURRENT_SOURCE_DIR} --cpp_out=${TMP_OUTPUT_DIR} ${CMAKE_CURRENT_SOURCE_DIR}/${proto_name}.proto DEPENDS ${CMAKE_CURRENT_SOURCE_DIR}/${proto_name}.proto COMMENT "Running C++ protocol buffer compiler on ${proto_name}" VERBATIM) endfunction() build_cpp_test(cxx-generate-packed-data test-full) set(TMP_OUTPUT_DIR ${CMAKE_BINARY_DIR}/cxx-generate-packed-data) file(MAKE_DIRECTORY ${TMP_OUTPUT_DIR}/generated-code) set(GENERATED_INC_FILE ${TMP_OUTPUT_DIR}/generated-code/test-full-cxx-output.inc) add_custom_command(OUTPUT ${GENERATED_INC_FILE} COMMAND cxx-generate-packed-data > ${GENERATED_INC_FILE} DEPENDS cxx-generate-packed-data) build_c_test(test-generated-code2 test-full ${GENERATED_INC_FILE}) get_target_property(EXTRA_COMPILE_FLAGS test-generated-code2 COMPILE_FLAGS) set(EXTRA_COMPILE_FLAGS "${EXTRA_COMPILE_FLAGS} -I${TMP_OUTPUT_DIR}") set_target_properties(test-generated-code2 PROPERTIES COMPILE_FLAGS ${EXTRA_COMPILE_FLAGS}) add_test(NAME test-generated-code2 COMMAND test-generated-code2) build_c_test(test-generated-code test) add_test(NAME test-generated-code COMMAND test-generated-code) if ( UNIX ) build_c_test(test-rpc test) build_c_test(example-client test) build_c_test(example-server test) add_test(NAME test-rpc COMMAND test-rpc) endif() endif() protobuf-c-0.15/src/test/test-generated-code.c0000644000175000017500000000172411332660133016177 00000000000000#include "generated-code/test.pb-c.h" #include #include #include int main() { Foo__Person person = FOO__PERSON__INIT; Foo__Person *person2; unsigned char simple_pad[8]; size_t size, size2; unsigned char *packed; ProtobufCBufferSimple bs = PROTOBUF_C_BUFFER_SIMPLE_INIT (simple_pad); person.name = "dave b"; person.id = 42; size = foo__person__get_packed_size (&person); packed = malloc (size); assert (packed); size2 = foo__person__pack (&person, packed); assert (size == size2); foo__person__pack_to_buffer (&person, &bs.base); assert (bs.len == size); assert (memcmp (bs.data, packed, size) == 0); PROTOBUF_C_BUFFER_SIMPLE_CLEAR (&bs); person2 = foo__person__unpack (NULL, size, packed); assert (person2 != NULL); assert (person2->id == 42); assert (strcmp (person2->name, "dave b") == 0); foo__person__free_unpacked (person2, NULL); free (packed); printf ("test succeeded.\n"); return 0; } protobuf-c-0.15/src/test/README0000644000175000017500000000234711377074237013107 00000000000000There are two tests. "test-generated-code" is a simple test that can easily be adapted. "test-generated-code2" is a comprehensive test. -- If you have a quick problem, hack at "test-generated-code"; but i don't want that file to be too hard to navigate, so you must eventually add a test to "test-generated-code2". I appreciate additional test cases! Please submit them as issues in the tracking system, or email me. -- Here are the files involved in each test: test-generated-code test.proto Protobuf declarations for the simple test. test-generated-code.c Actual test code. test-generated-code Test executable. generated-code/test.pb-c.h Protobuf-C generated code based on test.proto generated-code/test.pb-c.c Protobuf-C generated code based on test.proto test-generated-code2 test-full.proto Protobuf declarations for the exhaustive test. cxx-generate-packed-data.cc C++ code to generated data to compare with C. cxx-generate-packed-data Program whichs generates data (using C++ api) generated-code/test-full-cxx-output.inc Output of cxx-generate-packed-data. test-generated-code2.c Actual test code. test-generated-code2 Test executable. protobuf-c-0.15/src/test/Makefile.am0000644000175000017500000000422311377074237014256 00000000000000check_PROGRAMS = test-generated-code test-generated-code2 test-rpc noinst_PROGRAMS = cxx-generate-packed-data example-server example-client INCLUDES = -I$(srcdir)/.. test_generated_code_SOURCES = \ test-generated-code.c \ generated-code/test.pb-c.c test_generated_code_LDADD = \ ../libprotobuf-c.la test_generated_code2_SOURCES = \ test-generated-code2.c \ generated-code/test-full.pb-c.c test_generated_code2_LDADD = \ ../libprotobuf-c.la test_rpc_SOURCES = \ test-rpc.c \ generated-code/test.pb-c.c test_rpc_LDADD = \ ../libprotobuf-c.la cxx_generate_packed_data_SOURCES = \ cxx-generate-packed-data.cc generated-code/test-full.pb.cc cxx-generate-packed-data.$(OBJEXT): generated-code/test-full.pb.h cxx_generate_packed_data_LDADD = -lprotobuf cxx_generate_packed_data_LDFLAGS = -pthread example_server_SOURCES = \ example-server.c generated-code/test.pb-c.c example_server_LDADD = ../libprotobuf-c.la example_client_SOURCES = \ example-client.c generated-code/test.pb-c.c example_client_LDADD = ../libprotobuf-c.la generated-code/test.pb-c.c generated-code/test.pb-c.h: ../protoc-c$(EXEEXT) $(srcdir)/test.proto mkdir -p generated-code ../protoc-c -I$(srcdir) --c_out=generated-code $(srcdir)/test.proto generated-code/test-full.pb-c.c generated-code/test-full.pb-c.h: ../protoc-c $(srcdir)/test-full.proto mkdir -p generated-code ../protoc-c -I$(srcdir) --c_out=generated-code $(srcdir)/test-full.proto generated-code/test-full.pb.cc generated-code/test-full.pb.h: $(srcdir)/test-full.proto @PROTOC@ mkdir -p generated-code @PROTOC@ -I$(srcdir) --cpp_out=generated-code $(srcdir)/test-full.proto generated-code/test-full-cxx-output.inc: cxx-generate-packed-data$(EXEEXT) ./cxx-generate-packed-data > generated-code/test-full-cxx-output.inc BUILT_SOURCES = generated-code/test.pb-c.c generated-code/test.pb-c.h \ generated-code/test-full.pb-c.c generated-code/test-full.pb-c.h \ generated-code/test-full.pb.cc generated-code/test-full.pb.h \ generated-code/test-full-cxx-output.inc DISTCLEANFILES = $(BUILT_SOURCES) TESTS = test-generated-code test-generated-code2 test-rpc EXTRA_DIST = test.proto test-full.proto common-test-arrays.h protobuf-c-0.15/src/test/common-test-arrays.h0000644000175000017500000000571311350217244016130 00000000000000 /* data included from the c++ packed-data generator, and from the c test code. */ #define THOUSAND 1000 #define MILLION 1000000 #define BILLION 1000000000 #define TRILLION 1000000000000LL #define QUADRILLION 1000000000000000LL #define QUINTILLION 1000000000000000000LL int32_t int32_arr0[2] = { -1, 1 }; int32_t int32_arr1[5] = { 42, 666, -1123123, 0, 47 }; int32_t int32_arr_min_max[2] = { INT32_MIN, INT32_MAX }; uint32_t uint32_roundnumbers[4] = { BILLION, MILLION, 1, 0 }; uint32_t uint32_0_max[2] = { 0, UINT32_MAX }; int64_t int64_roundnumbers[15] = { -QUINTILLION, -QUADRILLION, -TRILLION, -BILLION, -MILLION, -THOUSAND, 1, THOUSAND, MILLION, BILLION, TRILLION, QUADRILLION, QUINTILLION }; int64_t int64_min_max[2] = { INT64_MIN, INT64_MAX }; uint64_t uint64_roundnumbers[9] = { 1, THOUSAND, MILLION, BILLION, TRILLION, QUADRILLION, QUINTILLION }; uint64_t uint64_0_1_max[3] = { 0, 1, UINT64_MAX }; uint64_t uint64_random[] = {0, 666, 4200000000ULL, 16ULL * (uint64_t) QUINTILLION + 33 }; #define FLOATING_POINT_RANDOM \ -1000.0, -100.0, -42.0, 0, 666, 131313 float float_random[] = { FLOATING_POINT_RANDOM }; double double_random[] = { FLOATING_POINT_RANDOM }; protobuf_c_boolean boolean_0[] = {0 }; protobuf_c_boolean boolean_1[] = {1 }; protobuf_c_boolean boolean_random[] = {0,1,1,0,0,1,1,1,0,0,0,0,0,1,1,1,1,1,1,0,1,1,0,1,1,0 }; TEST_ENUM_SMALL_TYPE_NAME enum_small_0[] = { TEST_ENUM_SMALL(VALUE) }; TEST_ENUM_SMALL_TYPE_NAME enum_small_1[] = { TEST_ENUM_SMALL(OTHER_VALUE) }; #define T(v) (TEST_ENUM_SMALL_TYPE_NAME)(v) TEST_ENUM_SMALL_TYPE_NAME enum_small_random[] = {T(0),T(1),T(1),T(0),T(0),T(1),T(1),T(1),T(0),T(0),T(0),T(0),T(0),T(1),T(1),T(1),T(1),T(1),T(1),T(0),T(1),T(1),T(0),T(1),T(1),T(0) }; #undef T #define T(v) (TEST_ENUM_TYPE_NAME)(v) TEST_ENUM_TYPE_NAME enum_0[] = { T(0) }; TEST_ENUM_TYPE_NAME enum_1[] = { T(1) }; TEST_ENUM_TYPE_NAME enum_random[] = { T(0), T(268435455), T(127), T(16384), T(16383), T(2097152), T(2097151), T(128), T(268435456), T(0), T(2097152), T(268435455), T(127), T(16383), T(16384) }; #undef T char *repeated_strings_0[] = { (char*)"onestring" }; char *repeated_strings_1[] = { (char*)"two", (char*)"string" }; char *repeated_strings_2[] = { (char*)"many", (char*)"tiny", (char*)"little", (char*)"strings", (char*)"should", (char*)"be", (char*)"handled" }; char *repeated_strings_3[] = { (char*)"one very long strings XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX" }; protobuf-c-0.15/src/test/test-rpc.c0000644000175000017500000002046611332660133014121 00000000000000#include #include #include #include #include "generated-code/test.pb-c.h" #include static void message (const char *format, ...) { va_list args; va_start (args, format); vfprintf (stderr, format, args); va_end (args); fputc ('\n', stderr); } /* --- A local service --- */ static void test__by_name (Foo__DirLookup_Service *service, const Foo__Name *name, Foo__LookupResult_Closure closure, void *closure_data) { Foo__LookupResult result = FOO__LOOKUP_RESULT__INIT; Foo__Person__PhoneNumber pn = FOO__PERSON__PHONE_NUMBER__INIT; Foo__Person__PhoneNumber *pns[] = { &pn }; Foo__Person person = FOO__PERSON__INIT; char *number = NULL; Foo__Person__PhoneType type = FOO__PERSON__PHONE_TYPE__MOBILE; char *email = NULL; (void) service; if (name->name == NULL) closure (NULL, closure_data); else if (strcmp (name->name, "dave") == 0) { number = "555-1212"; type = FOO__PERSON__PHONE_TYPE__MOBILE; } else if (strcmp (name->name, "joe the plumber") == 0) { number = "976-PIPE"; type = FOO__PERSON__PHONE_TYPE__WORK; email = "joe@the-plumber.com"; } if (number != NULL) { pn.number = number; pn.has_type = 1; pn.type = type; person.n_phone = 1; person.phone = pns; person.email = email; person.name = name->name; result.person = &person; } closure (&result, closure_data); } static Foo__DirLookup_Service the_dir_lookup_service = FOO__DIR_LOOKUP__INIT(test__); static void test_dave_closure (const Foo__LookupResult *result, void *closure_data) { assert (result); assert (result->person != NULL); assert (result->person->name != NULL); assert (strcmp (result->person->name, "dave") == 0); assert (result->person->n_phone == 1); assert (strcmp (result->person->phone[0]->number, "555-1212") == 0); assert (result->person->phone[0]->type == FOO__PERSON__PHONE_TYPE__MOBILE); * (protobuf_c_boolean *) closure_data = 1; } static void test_joe_the_plumber_closure (const Foo__LookupResult *result, void *closure_data) { assert (result); assert (result->person != NULL); assert (result->person->name != NULL); assert (strcmp (result->person->name, "joe the plumber") == 0); assert (result->person->n_phone == 1); assert (strcmp (result->person->phone[0]->number, "976-PIPE") == 0); assert (result->person->phone[0]->type == FOO__PERSON__PHONE_TYPE__WORK); * (protobuf_c_boolean *) closure_data = 1; } static void test_not_found_closure (const Foo__LookupResult *result, void *closure_data) { assert (result); assert (result->person == NULL); * (protobuf_c_boolean *) closure_data = 1; } static void test_defunct_closure (const Foo__LookupResult *result, void *closure_data) { assert (result == NULL); * (protobuf_c_boolean *) closure_data = 1; } static void test_service (ProtobufCService *service) { Foo__Name name = FOO__NAME__INIT; protobuf_c_boolean is_done; name.name = "dave"; is_done = 0; foo__dir_lookup__by_name (service, &name, test_dave_closure, &is_done); while (!is_done) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); name.name = "joe the plumber"; is_done = 0; foo__dir_lookup__by_name (service, &name, test_joe_the_plumber_closure, &is_done); while (!is_done) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); name.name = "asdfvcvzxsa"; is_done = 0; foo__dir_lookup__by_name (service, &name, test_not_found_closure, &is_done); while (!is_done) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); } static void test_defunct_client (ProtobufCService *service) { Foo__Name name = FOO__NAME__INIT; protobuf_c_boolean is_done; name.name = "dave"; is_done = 0; foo__dir_lookup__by_name (service, &name, test_defunct_closure, &is_done); while (!is_done) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); name.name = "joe the plumber"; is_done = 0; foo__dir_lookup__by_name (service, &name, test_defunct_closure, &is_done); while (!is_done) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); name.name = "asdfvcvzxsa"; is_done = 0; foo__dir_lookup__by_name (service, &name, test_defunct_closure, &is_done); while (!is_done) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); } /* --- main() --- */ static void set_boolean_true (ProtobufCDispatch *dispatch, void *func_data) { (void) dispatch; * (protobuf_c_boolean *) func_data = 1; } int main() { protobuf_c_boolean is_done; ProtobufCService *local_service = (ProtobufCService *) &the_dir_lookup_service; ProtobufCService *remote_service; ProtobufC_RPC_Client *client; ProtobufC_RPC_Server *server; message ("testing local service"); test_service (local_service); message ("creating client"); /* Create a client with no server. Verify that the client returns a failure immediately */ remote_service = protobuf_c_rpc_client_new (PROTOBUF_C_RPC_ADDRESS_LOCAL, "test.socket", &foo__dir_lookup__descriptor, NULL); assert (remote_service != NULL); client = (ProtobufC_RPC_Client *) remote_service; protobuf_c_rpc_client_set_autoreconnect_period (client, 10); is_done = 0; protobuf_c_dispatch_add_timer_millis (protobuf_c_dispatch_default (), 250, set_boolean_true, &is_done); message ("verify client cannot connect"); while (!is_done) { protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); assert (!protobuf_c_rpc_client_is_connected (client)); } message ("testing unconnected client"); test_defunct_client (remote_service); message ("creating server"); /* Create a server and wait for the client to connect. */ server = protobuf_c_rpc_server_new (PROTOBUF_C_RPC_ADDRESS_LOCAL, "test.socket", local_service, NULL); assert (server != NULL); message ("waiting to connect"); is_done = 0; /* technically, there's no way to know how long it'll take to connect if the machine is heavily loaded. We give 250 millis, which should be ample on an unloaded system. */ protobuf_c_dispatch_add_timer_millis (protobuf_c_dispatch_default (), 250, set_boolean_true, &is_done); while (!is_done && !protobuf_c_rpc_client_is_connected (client)) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); if (!protobuf_c_rpc_client_is_connected (client)) assert(0); /* operation timed-out; could be high machine load */ /* wait for the timer to elapse, since that's laziest way to handle it. */ while (!is_done) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); /* Test the client */ message ("testing client"); test_service (remote_service); /* Destroy the server and ensure that a request is failed in a timely fashion. */ message ("destroying server"); protobuf_c_rpc_server_destroy (server, 0); server = NULL; message ("test client has no data"); test_defunct_client (remote_service); /* Create a server again and wait for the client to reconnect. */ message ("creating server again"); server = protobuf_c_rpc_server_new (PROTOBUF_C_RPC_ADDRESS_LOCAL, "test.socket", local_service, NULL); assert (server != NULL); is_done = 0; protobuf_c_dispatch_add_timer_millis (protobuf_c_dispatch_default (), 250, set_boolean_true, &is_done); while (!is_done) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); assert (protobuf_c_rpc_client_is_connected (client)); /* Test the client again, for kicks. */ message ("testing client again"); test_service (remote_service); /* Destroy the client */ message ("destroying client"); protobuf_c_service_destroy (remote_service); /* Destroy the server */ message ("destroying server"); protobuf_c_rpc_server_destroy (server, 0); protobuf_c_dispatch_destroy_default (); return 0; } protobuf-c-0.15/src/test/example-client.c0000644000175000017500000000750611332660133015267 00000000000000#include #include #include #include #include #include #include "generated-code/test.pb-c.h" #include static void die (const char *format, ...) { va_list args; va_start (args, format); vfprintf (stderr, format, args); va_end (args); fprintf (stderr, "\n"); exit (1); } static void usage (void) { die ("usage: example-client [--tcp=HOST:PORT | --unix=PATH]\n" "\n" "Run a protobuf client as specified by the DirLookup service\n" "in the test.proto file in the protobuf-c distribution.\n" "\n" "Options:\n" " --tcp=HOST:PORT Port to listen on for RPC clients.\n" " --unix=PATH Unix-domain socket to listen on.\n" ); } static void *xmalloc (size_t size) { void *rv; if (size == 0) return NULL; rv = malloc (size); if (rv == NULL) die ("out-of-memory allocating %u bytes", (unsigned) size); return rv; } static protobuf_c_boolean is_whitespace (const char *text) { while (*text != 0) { if (!isspace (*text)) return 0; text++; } return 1; } static void chomp_trailing_whitespace (char *buf) { unsigned len = strlen (buf); while (len > 0) { if (!isspace (buf[len-1])) break; len--; } buf[len] = 0; } static protobuf_c_boolean starts_with (const char *str, const char *prefix) { return memcmp (str, prefix, strlen (prefix)) == 0; } static void handle_query_response (const Foo__LookupResult *result, void *closure_data) { if (result == NULL) printf ("Error processing request.\n"); else if (result->person == NULL) printf ("Not found.\n"); else { Foo__Person *person = result->person; unsigned i; printf ("%s\n" " %u\n", person->name, person->id); if (person->email) printf (" %s\n", person->email); for (i = 0; i < person->n_phone; i++) { const ProtobufCEnumValue *ev; ev = protobuf_c_enum_descriptor_get_value (&foo__person__phone_type__descriptor, person->phone[i]->type); printf (" %s %s\n", ev ? ev->name : "???", person->phone[i]->number); } } * (protobuf_c_boolean *) closure_data = 1; } int main(int argc, char**argv) { ProtobufCService *service; ProtobufC_RPC_Client *client; ProtobufC_RPC_AddressType address_type=0; const char *name = NULL; unsigned i; for (i = 1; i < (unsigned) argc; i++) { if (starts_with (argv[i], "--tcp=")) { address_type = PROTOBUF_C_RPC_ADDRESS_TCP; name = strchr (argv[i], '=') + 1; } else if (starts_with (argv[i], "--unix=")) { address_type = PROTOBUF_C_RPC_ADDRESS_LOCAL; name = strchr (argv[i], '=') + 1; } else usage (); } if (name == NULL) die ("missing --tcp=HOST:PORT or --unix=PATH"); service = protobuf_c_rpc_client_new (address_type, name, &foo__dir_lookup__descriptor, NULL); if (service == NULL) die ("error creating client"); client = (ProtobufC_RPC_Client *) service; fprintf (stderr, "Connecting... "); while (!protobuf_c_rpc_client_is_connected (client)) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); fprintf (stderr, "done.\n"); for (;;) { char buf[1024]; Foo__Name query = FOO__NAME__INIT; protobuf_c_boolean is_done = 0; fprintf (stderr, ">> "); if (fgets (buf, sizeof (buf), stdin) == NULL) break; if (is_whitespace (buf)) continue; chomp_trailing_whitespace (buf); query.name = buf; foo__dir_lookup__by_name (service, &query, handle_query_response, &is_done); while (!is_done) protobuf_c_dispatch_run (protobuf_c_dispatch_default ()); } return 0; } protobuf-c-0.15/src/CMakeLists.txt0000644000175000017500000001112211536220130013755 00000000000000set(BUILD_PROTOBUF_C_COMPILER ON CACHE BOOL "build protobuf-c compiler (aka protoc-c)") if ( BUILD_PROTOBUF_C_COMPILER ) find_package(Protobuf REQUIRED) include_directories(${PROTOBUF_INCLUDE_DIRS} ${CMAKE_CURRENT_SOURCE_DIR}) set(PROTOC_C_SOURCES google/protobuf/compiler/c/c_service.cc google/protobuf/compiler/c/c_helpers.cc google/protobuf/compiler/c/c_enum.cc google/protobuf/compiler/c/c_enum_field.cc google/protobuf/compiler/c/c_string_field.cc google/protobuf/compiler/c/c_primitive_field.cc google/protobuf/compiler/c/c_extension.cc google/protobuf/compiler/c/c_file.cc google/protobuf/compiler/c/c_field.cc google/protobuf/compiler/c/c_message.cc google/protobuf/compiler/c/c_generator.cc google/protobuf/compiler/c/c_message_field.cc google/protobuf/compiler/c/main.cc google/protobuf/compiler/c/c_bytes_field.cc) add_executable(protoc-c ${PROTOC_C_SOURCES}) target_link_libraries(protoc-c ${PROTOBUF_LIBRARY} ${PROTOBUF_PROTOC_LIBRARY}) if ( UNIX ) find_package(Threads REQUIRED) target_link_libraries(protoc-c ${CMAKE_THREAD_LIBS_INIT}) endif() install(TARGETS protoc-c DESTINATION ${PROTOBUF_C_INSTALL_BINDIR}) endif() include(CheckIncludeFiles) check_include_files("alloca.h" HAVE_ALLOCA_H) check_include_files("malloc.h" HAVE_MALLOC_H) check_include_files("sys/poll.h" HAVE_SYS_POLL_H) check_include_files("sys/select.h" HAVE_SYS_SELECT_H) check_include_files("inttypes.h" HAVE_INTTYPES_H) check_include_files("sys/uio.h" HAVE_SYS_UIO_H) check_include_files("unistd.h" HAVE_UNISTD_H) check_include_files("io.h" HAVE_IO_H) include(TestBigEndian) test_big_endian(IS_BIG_ENDIAN) if ( NOT IS_BIG_ENDIAN ) set(IS_LITTLE_ENDIAN 1) endif() add_definitions(-DHAVE_PROTOBUF_C_CONFIG_H=1) configure_file(google/protobuf-c/protobuf-c-config.h.in google/protobuf-c/protobuf-c-config.h) include_directories(${CMAKE_CURRENT_BINARY_DIR}/google/protobuf-c) set(BUILD_PROTOBUF_C_STATIC_LIB ON CACHE BOOL "build static protobuf-c library") set(BUILD_PROTOBUF_C_SHARED_LIB ON CACHE BOOL "build shared protobuf-c library") if ( WIN32 ) set(PROTOBUF_C_SOURCES google/protobuf-c/protobuf-c-data-buffer.c google/protobuf-c/protobuf-c.c) else() set(PROTOBUF_C_SOURCES google/protobuf-c/protobuf-c-dispatch.c google/protobuf-c/protobuf-c-data-buffer.c google/protobuf-c/protobuf-c-rpc.c google/protobuf-c/protobuf-c.c) endif() if ( BUILD_PROTOBUF_C_STATIC_LIB ) add_library(protobuf-c-static STATIC ${PROTOBUF_C_SOURCES}) install(TARGETS protobuf-c-static ARCHIVE DESTINATION ${PROTOBUF_C_INSTALL_LIBDIR}) set_target_properties(protobuf-c-static PROPERTIES OUTPUT_NAME protobuf-c) get_target_property(DIRECTORY protobuf-c-static ARCHIVE_OUTPUT_DIRECTORY) set_target_properties(protobuf-c-static PROPERTIES ARCHIVE_OUTPUT_DIRECTORY ${DIRECTORY}/static) endif() if ( BUILD_PROTOBUF_C_SHARED_LIB ) add_library(protobuf-c-shared SHARED ${PROTOBUF_C_SOURCES}) install(TARGETS protobuf-c-shared RUNTIME DESTINATION ${PROTOBUF_C_INSTALL_BINDIR} LIBRARY DESTINATION ${PROTOBUF_C_INSTALL_LIBDIR} ARCHIVE DESTINATION ${PROTOBUF_C_INSTALL_LIBDIR}/dllimport) set_target_properties(protobuf-c-shared PROPERTIES OUTPUT_NAME protobuf-c) set_target_properties(protobuf-c-shared PROPERTIES VERSION ${PROTOBUF_C_VERSION}) get_target_property(DIRECTORY protobuf-c-shared ARCHIVE_OUTPUT_DIRECTORY) set_target_properties(protobuf-c-shared PROPERTIES ARCHIVE_OUTPUT_DIRECTORY ${DIRECTORY}/shared) get_target_property(DIRECTORY protobuf-c-shared LIBRARY_OUTPUT_DIRECTORY) set_target_properties(protobuf-c-shared PROPERTIES LIBRARY_OUTPUT_DIRECTORY ${DIRECTORY}/shared) if ( WIN32 ) set_target_properties(protobuf-c-shared PROPERTIES COMPILE_DEFINITIONS "PROTOBUF_C_USE_SHARED_LIB;PROTOBUF_C_EXPORT") endif() endif() if ( BUILD_PROTOBUF_C_STATIC_LIB OR BUILD_PROTOBUF_C_SHARED_LIB ) if ( WIN32 ) set(PROTOBUF_C_PUBLIC_HEADERS google/protobuf-c/protobuf-c.h google/protobuf-c/protobuf-c-private.h) else() set(PROTOBUF_C_PUBLIC_HEADERS google/protobuf-c/protobuf-c.h google/protobuf-c/protobuf-c-private.h google/protobuf-c/protobuf-c-dispatch.h google/protobuf-c/protobuf-c-rpc.h) endif() install(FILES ${PROTOBUF_C_PUBLIC_HEADERS} DESTINATION ${PROTOBUF_C_INSTALL_INCLUDEDIR}) endif() add_subdirectory(test) protobuf-c-0.15/src/Makefile.am0000644000175000017500000000430211536220506013262 00000000000000if BUILD_PROTOC_C SUBDIRS = . test bin_PROGRAMS = protoc-c protoc_c_SOURCES = \ google/protobuf/compiler/c/c_service.cc \ google/protobuf/compiler/c/c_helpers.cc \ google/protobuf/compiler/c/c_enum.cc \ google/protobuf/compiler/c/c_enum_field.cc \ google/protobuf/compiler/c/c_string_field.cc \ google/protobuf/compiler/c/c_primitive_field.cc \ google/protobuf/compiler/c/c_extension.cc \ google/protobuf/compiler/c/c_file.cc \ google/protobuf/compiler/c/c_field.cc \ google/protobuf/compiler/c/c_message.cc \ google/protobuf/compiler/c/c_generator.cc \ google/protobuf/compiler/c/c_message_field.cc \ google/protobuf/compiler/c/main.cc \ google/protobuf/compiler/c/c_bytes_field.cc protoc_c_LDADD = \ -lprotoc -lprotobuf -lpthread endif lib_LTLIBRARIES = libprotobuf-c.la protobufcincludedir = $(includedir)/google/protobuf-c EXTRA_DIST = CMakeLists.txt test/CMakeLists.txt libprotobuf_c_la_SOURCES = \ google/protobuf-c/protobuf-c-dispatch.c \ google/protobuf-c/protobuf-c-data-buffer.c \ google/protobuf-c/protobuf-c-rpc.c \ google/protobuf-c/protobuf-c.c # ah, -no-undefined, goofball windows hack. # the documentation for this is rather confusing to me, # but suffice it to say this is needed # on a few garbage platforms (AIX, windows), # and it compiles to a no-op on sensible platforms (elf) libprotobuf_c_la_LDFLAGS = \ -no-undefined \ -version-info 0:0:0 noinst_HEADERS = \ google/protobuf/compiler/c/c_message_field.h \ google/protobuf/compiler/c/c_service.h \ google/protobuf/compiler/c/c_helpers.h \ google/protobuf/compiler/c/c_enum.h \ google/protobuf/compiler/c/c_enum_field.h \ google/protobuf/compiler/c/c_string_field.h \ google/protobuf/compiler/c/c_primitive_field.h \ google/protobuf/compiler/c/c_extension.h \ google/protobuf/compiler/c/c_file.h \ google/protobuf/compiler/c/c_field.h \ google/protobuf/compiler/c/c_message.h \ google/protobuf/compiler/c/c_generator.h \ google/protobuf/compiler/c/c_bytes_field.h \ google/protobuf-c/protobuf-c-data-buffer.h \ google/protobuf-c/gskrbtreemacros.h \ google/protobuf-c/gsklistmacros.h protobufcinclude_HEADERS = \ google/protobuf-c/protobuf-c.h \ google/protobuf-c/protobuf-c-private.h \ google/protobuf-c/protobuf-c-dispatch.h \ google/protobuf-c/protobuf-c-rpc.h protobuf-c-0.15/src/google/0000777000175000017500000000000011536221215012565 500000000000000protobuf-c-0.15/src/google/protobuf/0000777000175000017500000000000011536221215014425 500000000000000protobuf-c-0.15/src/google/protobuf/compiler/0000777000175000017500000000000011536221215016237 500000000000000protobuf-c-0.15/src/google/protobuf/compiler/c/0000777000175000017500000000000011536221215016461 500000000000000protobuf-c-0.15/src/google/protobuf/compiler/c/c_extension.h0000644000175000017500000000415411332660134021071 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_EXTENSION_H__ #define GOOGLE_PROTOBUF_COMPILER_C_EXTENSION_H__ #include #include namespace google { namespace protobuf { class FieldDescriptor; // descriptor.h namespace io { class Printer; // printer.h } } namespace protobuf { namespace compiler { namespace c { // Generates code for an extension, which may be within the scope of some // message or may be at file scope. This is much simpler than FieldGenerator // since extensions are just simple identifiers with interesting types. class ExtensionGenerator { public: // See generator.cc for the meaning of dllexport_decl. explicit ExtensionGenerator(const FieldDescriptor* descriptor, const string& dllexport_decl); ~ExtensionGenerator(); // Header stuff. void GenerateDeclaration(io::Printer* printer); // Source file stuff. void GenerateDefinition(io::Printer* printer); private: const FieldDescriptor* descriptor_; string type_traits_; string dllexport_decl_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(ExtensionGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_MESSAGE_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_primitive_field.h0000644000175000017500000000343611332660134022232 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_PRIMITIVE_FIELD_H__ #define GOOGLE_PROTOBUF_COMPILER_C_PRIMITIVE_FIELD_H__ #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { class PrimitiveFieldGenerator : public FieldGenerator { public: explicit PrimitiveFieldGenerator(const FieldDescriptor* descriptor); ~PrimitiveFieldGenerator(); // implements FieldGenerator --------------------------------------- void GenerateStructMembers(io::Printer* printer) const; void GenerateDescriptorInitializer(io::Printer* printer) const; string GetDefaultValue(void) const; void GenerateStaticInit(io::Printer* printer) const; private: GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(PrimitiveFieldGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_PRIMITIVE_FIELD_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_string_field.cc0000644000175000017500000000703511431045374021670 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { using internal::WireFormat; void SetStringVariables(const FieldDescriptor* descriptor, map* variables) { (*variables)["name"] = FieldName(descriptor); (*variables)["default"] = FullNameToLower(descriptor->full_name()) + "__default_value"; (*variables)["deprecated"] = FieldDeprecated(descriptor); } // =================================================================== StringFieldGenerator:: StringFieldGenerator(const FieldDescriptor* descriptor) : FieldGenerator(descriptor) { SetStringVariables(descriptor, &variables_); } StringFieldGenerator::~StringFieldGenerator() {} void StringFieldGenerator::GenerateStructMembers(io::Printer* printer) const { switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: case FieldDescriptor::LABEL_OPTIONAL: printer->Print(variables_, "char *$name$$deprecated$;\n"); break; case FieldDescriptor::LABEL_REPEATED: printer->Print(variables_, "size_t n_$name$$deprecated$;\n"); printer->Print(variables_, "char **$name$$deprecated$;\n"); break; } } void StringFieldGenerator::GenerateDefaultValueDeclarations(io::Printer* printer) const { printer->Print(variables_, "extern char $default$[];\n"); } void StringFieldGenerator::GenerateDefaultValueImplementations(io::Printer* printer) const { std::map vars; vars["default"] = variables_.find("default")->second; vars["escaped"] = CEscape(descriptor_->default_value_string()); printer->Print(vars, "char $default$[] = \"$escaped$\";\n"); } string StringFieldGenerator::GetDefaultValue(void) const { return variables_.find("default")->second; } void StringFieldGenerator::GenerateStaticInit(io::Printer* printer) const { std::map vars; if (descriptor_->has_default_value()) { vars["default"] = GetDefaultValue(); } else { vars["default"] = "NULL"; } switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: case FieldDescriptor::LABEL_OPTIONAL: printer->Print(vars, "$default$"); break; case FieldDescriptor::LABEL_REPEATED: printer->Print(vars, "0,NULL"); break; } } void StringFieldGenerator::GenerateDescriptorInitializer(io::Printer* printer) const { GenerateDescriptorInitializerGeneric(printer, false, "STRING", "NULL"); } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_extension.cc0000644000175000017500000000305711332660134021230 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { ExtensionGenerator::ExtensionGenerator(const FieldDescriptor* descriptor, const string& dllexport_decl) : descriptor_(descriptor), dllexport_decl_(dllexport_decl) { } ExtensionGenerator::~ExtensionGenerator() {} void ExtensionGenerator::GenerateDeclaration(io::Printer* printer) { } void ExtensionGenerator::GenerateDefinition(io::Printer* printer) { } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_service.h0000644000175000017500000000426011332660134020513 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_SERVICE_H__ #define GOOGLE_PROTOBUF_COMPILER_C_SERVICE_H__ #include #include #include namespace google { namespace protobuf { namespace io { class Printer; // printer.h } } namespace protobuf { namespace compiler { namespace c { class ServiceGenerator { public: // See generator.cc for the meaning of dllexport_decl. explicit ServiceGenerator(const ServiceDescriptor* descriptor, const string& dllexport_decl); ~ServiceGenerator(); // Header stuff. void GenerateMainHFile(io::Printer* printer); void GenerateVfuncs(io::Printer* printer); void GenerateInitMacros(io::Printer* printer); void GenerateDescriptorDeclarations(io::Printer* printer); void GenerateCallersDeclarations(io::Printer* printer); // Source file stuff. void GenerateCFile(io::Printer* printer); void GenerateServiceDescriptor(io::Printer* printer); void GenerateInit(io::Printer* printer); void GenerateCallersImplementations(io::Printer* printer); const ServiceDescriptor* descriptor_; map vars_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(ServiceGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_SERVICE_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_enum.h0000644000175000017500000000435511332660134020024 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_ENUM_H__ #define GOOGLE_PROTOBUF_COMPILER_C_ENUM_H__ #include #include namespace google { namespace protobuf { namespace io { class Printer; // printer.h } } namespace protobuf { namespace compiler { namespace c { class EnumGenerator { public: // See generator.cc for the meaning of dllexport_decl. explicit EnumGenerator(const EnumDescriptor* descriptor, const string& dllexport_decl); ~EnumGenerator(); // Header stuff. // Generate header code defining the enum. This code should be placed // within the enum's package namespace, but NOT within any class, even for // nested enums. void GenerateDefinition(io::Printer* printer); void GenerateDescriptorDeclarations(io::Printer* printer); // Source file stuff. // Generate the ProtobufCEnumDescriptor for this enum void GenerateEnumDescriptor(io::Printer* printer); // Generate static initializer for a ProtobufCEnumValue // given the index of the value in the enum. void GenerateValueInitializer(io::Printer *printer, int index); private: const EnumDescriptor* descriptor_; string dllexport_decl_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(EnumGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_ENUM_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_enum_field.h0000644000175000017500000000343611332660134021166 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_ENUM_FIELD_H__ #define GOOGLE_PROTOBUF_COMPILER_C_ENUM_FIELD_H__ #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { class EnumFieldGenerator : public FieldGenerator { public: explicit EnumFieldGenerator(const FieldDescriptor* descriptor); ~EnumFieldGenerator(); // implements FieldGenerator --------------------------------------- void GenerateStructMembers(io::Printer* printer) const; void GenerateDescriptorInitializer(io::Printer* printer) const; string GetDefaultValue(void) const; void GenerateStaticInit(io::Printer* printer) const; private: map variables_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(EnumFieldGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_ENUM_FIELD_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_message_field.h0000644000175000017500000000342111332660134021640 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_MESSAGE_FIELD_H__ #define GOOGLE_PROTOBUF_COMPILER_C_MESSAGE_FIELD_H__ #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { class MessageFieldGenerator : public FieldGenerator { public: explicit MessageFieldGenerator(const FieldDescriptor* descriptor); ~MessageFieldGenerator(); // implements FieldGenerator --------------------------------------- void GenerateStructMembers(io::Printer* printer) const; void GenerateDescriptorInitializer(io::Printer* printer) const; string GetDefaultValue(void) const; void GenerateStaticInit(io::Printer* printer) const; private: GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(MessageFieldGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_MESSAGE_FIELD_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_field.cc0000644000175000017500000001311611377074237020310 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include #include #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { FieldGenerator::~FieldGenerator() { } static bool is_packable_type(FieldDescriptor::Type type) { return type == FieldDescriptor::TYPE_DOUBLE || type == FieldDescriptor::TYPE_FLOAT || type == FieldDescriptor::TYPE_INT64 || type == FieldDescriptor::TYPE_UINT64 || type == FieldDescriptor::TYPE_INT32 || type == FieldDescriptor::TYPE_FIXED64 || type == FieldDescriptor::TYPE_FIXED32 || type == FieldDescriptor::TYPE_BOOL || type == FieldDescriptor::TYPE_UINT32 || type == FieldDescriptor::TYPE_ENUM || type == FieldDescriptor::TYPE_SFIXED32 || type == FieldDescriptor::TYPE_SFIXED64 || type == FieldDescriptor::TYPE_SINT32 || type == FieldDescriptor::TYPE_SINT64; //TYPE_BYTES //TYPE_STRING //TYPE_GROUP //TYPE_MESSAGE } void FieldGenerator::GenerateDescriptorInitializerGeneric(io::Printer* printer, bool optional_uses_has, const string &type_macro, const string &descriptor_addr) const { map variables; variables["LABEL"] = CamelToUpper(GetLabelName(descriptor_->label())); variables["TYPE"] = type_macro; variables["classname"] = FullNameToC(FieldScope(descriptor_)->full_name()); variables["name"] = FieldName(descriptor_); variables["proto_name"] = descriptor_->name(); variables["descriptor_addr"] = descriptor_addr; variables["value"] = SimpleItoa(descriptor_->number()); if (descriptor_->has_default_value()) { variables["default_value"] = string("&") + FullNameToLower(descriptor_->full_name()) + "__default_value"; } else { variables["default_value"] = "NULL"; } if (descriptor_->label() == FieldDescriptor::LABEL_REPEATED && is_packable_type (descriptor_->type()) && descriptor_->options().packed()) variables["packed"] = "1"; else variables["packed"] = "0"; printer->Print(variables, "{\n" " \"$proto_name$\",\n" " $value$,\n" " PROTOBUF_C_LABEL_$LABEL$,\n" " PROTOBUF_C_TYPE_$TYPE$,\n"); bool packed = false; switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: printer->Print(variables, " 0, /* quantifier_offset */\n"); break; case FieldDescriptor::LABEL_OPTIONAL: if (optional_uses_has) { printer->Print(variables, " PROTOBUF_C_OFFSETOF($classname$, has_$name$),\n"); } else { printer->Print(variables, " 0, /* quantifier_offset */\n"); } break; case FieldDescriptor::LABEL_REPEATED: printer->Print(variables, " PROTOBUF_C_OFFSETOF($classname$, n_$name$),\n"); break; } printer->Print(variables, " PROTOBUF_C_OFFSETOF($classname$, $name$),\n"); printer->Print(variables, " $descriptor_addr$,\n"); printer->Print(variables, " $default_value$,\n"); printer->Print(variables, " $packed$, /* packed */\n"); printer->Print(variables, " 0,NULL,NULL /* reserved1,reserved2, etc */\n"); printer->Print("},\n"); } FieldGeneratorMap::FieldGeneratorMap(const Descriptor* descriptor) : descriptor_(descriptor), field_generators_( new scoped_ptr[descriptor->field_count()]) { // Construct all the FieldGenerators. for (int i = 0; i < descriptor->field_count(); i++) { field_generators_[i].reset(MakeGenerator(descriptor->field(i))); } } FieldGenerator* FieldGeneratorMap::MakeGenerator(const FieldDescriptor* field) { switch (field->type()) { case FieldDescriptor::TYPE_MESSAGE: return new MessageFieldGenerator(field); case FieldDescriptor::TYPE_STRING: return new StringFieldGenerator(field); case FieldDescriptor::TYPE_BYTES: return new BytesFieldGenerator(field); case FieldDescriptor::TYPE_ENUM: return new EnumFieldGenerator(field); case FieldDescriptor::TYPE_GROUP: return 0; // XXX default: return new PrimitiveFieldGenerator(field); } } FieldGeneratorMap::~FieldGeneratorMap() {} const FieldGenerator& FieldGeneratorMap::get( const FieldDescriptor* field) const { GOOGLE_CHECK_EQ(field->containing_type(), descriptor_); return *field_generators_[field->index()]; } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_generator.h0000644000175000017500000000373611332660134021050 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // // Modified to implement C code by Dave Benson. // Generates C code for a given .proto file. #ifndef GOOGLE_PROTOBUF_COMPILER_C_GENERATOR_H__ #define GOOGLE_PROTOBUF_COMPILER_C_GENERATOR_H__ #include #include namespace google { namespace protobuf { namespace compiler { namespace c { // CodeGenerator implementation which generates a C++ source file and // header. If you create your own protocol compiler binary and you want // it to support C++ output, you can do so by registering an instance of this // CodeGenerator with the CommandLineInterface in your main() function. class LIBPROTOC_EXPORT CGenerator : public CodeGenerator { public: CGenerator(); ~CGenerator(); // implements CodeGenerator ---------------------------------------- bool Generate(const FileDescriptor* file, const string& parameter, OutputDirectory* output_directory, string* error) const; private: GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(CGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_GENERATOR_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_service.cc0000644000175000017500000002174011332660134020653 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { ServiceGenerator::ServiceGenerator(const ServiceDescriptor* descriptor, const string& dllexport_decl) : descriptor_(descriptor) { vars_["name"] = descriptor_->name(); vars_["fullname"] = descriptor_->full_name(); vars_["cname"] = FullNameToC(descriptor_->full_name()); vars_["lcfullname"] = FullNameToLower(descriptor_->full_name()); vars_["ucfullname"] = FullNameToUpper(descriptor_->full_name()); vars_["lcfullpadd"] = ConvertToSpaces(vars_["lcfullname"]); vars_["package"] = descriptor_->file()->package(); if (dllexport_decl.empty()) { vars_["dllexport"] = ""; } else { vars_["dllexport"] = dllexport_decl + " "; } } ServiceGenerator::~ServiceGenerator() {} // Header stuff. void ServiceGenerator::GenerateMainHFile(io::Printer* printer) { GenerateVfuncs(printer); GenerateInitMacros(printer); GenerateCallersDeclarations(printer); } void ServiceGenerator::GenerateVfuncs(io::Printer* printer) { printer->Print(vars_, "typedef struct _$cname$_Service $cname$_Service;\n" "struct _$cname$_Service\n" "{\n" " ProtobufCService base;\n"); for (int i = 0; i < descriptor_->method_count(); i++) { const MethodDescriptor *method = descriptor_->method(i); string lcname = CamelToLower(method->name()); vars_["method"] = lcname; vars_["metpad"] = ConvertToSpaces(lcname); vars_["input_typename"] = FullNameToC(method->input_type()->full_name()); vars_["output_typename"] = FullNameToC(method->output_type()->full_name()); printer->Print(vars_, " void (*$method$)($cname$_Service *service,\n" " $metpad$ const $input_typename$ *input,\n" " $metpad$ $output_typename$_Closure closure,\n" " $metpad$ void *closure_data);\n"); } printer->Print(vars_, "};\n"); printer->Print(vars_, "typedef void (*$cname$_ServiceDestroy)($cname$_Service *);\n" "void $lcfullname$__init ($cname$_Service *service,\n" " $lcfullpadd$ $cname$_ServiceDestroy destroy);\n"); } void ServiceGenerator::GenerateInitMacros(io::Printer* printer) { printer->Print(vars_, "#define $ucfullname$__BASE_INIT \\\n" " { &$lcfullname$__descriptor, protobuf_c_service_invoke_internal, NULL }\n" "#define $ucfullname$__INIT(function_prefix__) \\\n" " { $ucfullname$__BASE_INIT"); for (int i = 0; i < descriptor_->method_count(); i++) { const MethodDescriptor *method = descriptor_->method(i); string lcname = CamelToLower(method->name()); vars_["method"] = lcname; vars_["metpad"] = ConvertToSpaces(lcname); printer->Print(vars_, ",\\\n function_prefix__ ## $method$"); } printer->Print(vars_, " }\n"); } void ServiceGenerator::GenerateCallersDeclarations(io::Printer* printer) { for (int i = 0; i < descriptor_->method_count(); i++) { const MethodDescriptor *method = descriptor_->method(i); string lcname = CamelToLower(method->name()); string lcfullname = FullNameToLower(descriptor_->full_name()); vars_["method"] = lcname; vars_["metpad"] = ConvertToSpaces(lcname); vars_["input_typename"] = FullNameToC(method->input_type()->full_name()); vars_["output_typename"] = FullNameToC(method->output_type()->full_name()); vars_["padddddddddddddddddd"] = ConvertToSpaces(lcfullname + "__" + lcname); printer->Print(vars_, "void $lcfullname$__$method$(ProtobufCService *service,\n" " $padddddddddddddddddd$ const $input_typename$ *input,\n" " $padddddddddddddddddd$ $output_typename$_Closure closure,\n" " $padddddddddddddddddd$ void *closure_data);\n"); } } void ServiceGenerator::GenerateDescriptorDeclarations(io::Printer* printer) { printer->Print(vars_, "extern const ProtobufCServiceDescriptor $lcfullname$__descriptor;\n"); } // Source file stuff. void ServiceGenerator::GenerateCFile(io::Printer* printer) { GenerateServiceDescriptor(printer); GenerateCallersImplementations(printer); GenerateInit(printer); } void ServiceGenerator::GenerateInit(io::Printer* printer) { printer->Print(vars_, "void $lcfullname$__init ($cname$_Service *service,\n" " $lcfullpadd$ $cname$_ServiceDestroy destroy)\n" "{\n" " protobuf_c_service_generated_init (&service->base,\n" " &$lcfullname$__descriptor,\n" " (ProtobufCServiceDestroy) destroy);\n" "}\n"); } struct MethodIndexAndName { unsigned i; const char *name; }; static int compare_method_index_and_name_by_name (const void *a, const void *b) { const MethodIndexAndName *ma = (const MethodIndexAndName *) a; const MethodIndexAndName *mb = (const MethodIndexAndName *) b; return strcmp (ma->name, mb->name); } void ServiceGenerator::GenerateServiceDescriptor(io::Printer* printer) { int n_methods = descriptor_->method_count(); MethodIndexAndName *mi_array = new MethodIndexAndName[n_methods]; vars_["n_methods"] = SimpleItoa(n_methods); printer->Print(vars_, "static const ProtobufCMethodDescriptor $lcfullname$__method_descriptors[$n_methods$] =\n" "{\n"); for (int i = 0; i < n_methods; i++) { const MethodDescriptor *method = descriptor_->method(i); vars_["method"] = method->name(); vars_["input_descriptor"] = "&" + FullNameToLower(method->input_type()->full_name()) + "__descriptor"; vars_["output_descriptor"] = "&" + FullNameToLower(method->output_type()->full_name()) + "__descriptor"; printer->Print(vars_, " { \"$method$\", $input_descriptor$, $output_descriptor$ },\n"); mi_array[i].i = i; mi_array[i].name = method->name().c_str(); } printer->Print(vars_, "};\n"); qsort ((void*)mi_array, n_methods, sizeof (MethodIndexAndName), compare_method_index_and_name_by_name); printer->Print(vars_, "const unsigned $lcfullname$__method_indices_by_name[] = {\n"); for (int i = 0; i < n_methods; i++) { vars_["i"] = SimpleItoa(mi_array[i].i); vars_["name"] = mi_array[i].name; vars_["comma"] = (i + 1 < n_methods) ? "," : " "; printer->Print(vars_, " $i$$comma$ /* $name$ */\n"); } printer->Print(vars_, "};\n"); printer->Print(vars_, "const ProtobufCServiceDescriptor $lcfullname$__descriptor =\n" "{\n" " PROTOBUF_C_SERVICE_DESCRIPTOR_MAGIC,\n" " \"$fullname$\",\n" " \"$name$\",\n" " \"$cname$\",\n" " \"$package$\",\n" " $n_methods$,\n" " $lcfullname$__method_descriptors,\n" " $lcfullname$__method_indices_by_name\n" "};\n"); } void ServiceGenerator::GenerateCallersImplementations(io::Printer* printer) { for (int i = 0; i < descriptor_->method_count(); i++) { const MethodDescriptor *method = descriptor_->method(i); string lcname = CamelToLower(method->name()); string lcfullname = FullNameToLower(descriptor_->full_name()); vars_["method"] = lcname; vars_["metpad"] = ConvertToSpaces(lcname); vars_["input_typename"] = FullNameToC(method->input_type()->full_name()); vars_["output_typename"] = FullNameToC(method->output_type()->full_name()); vars_["padddddddddddddddddd"] = ConvertToSpaces(lcfullname + "__" + lcname); vars_["index"] = SimpleItoa(i); printer->Print(vars_, "void $lcfullname$__$method$(ProtobufCService *service,\n" " $padddddddddddddddddd$ const $input_typename$ *input,\n" " $padddddddddddddddddd$ $output_typename$_Closure closure,\n" " $padddddddddddddddddd$ void *closure_data)\n" "{\n" " PROTOBUF_C_ASSERT (service->descriptor == &$lcfullname$__descriptor);\n" " service->invoke(service, $index$, (const ProtobufCMessage *) input, (ProtobufCClosure) closure, closure_data);\n" "}\n"); } } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_message.cc0000644000175000017500000003711311536220250020635 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include #include #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { // =================================================================== MessageGenerator::MessageGenerator(const Descriptor* descriptor, const string& dllexport_decl) : descriptor_(descriptor), dllexport_decl_(dllexport_decl), field_generators_(descriptor), nested_generators_(new scoped_ptr[ descriptor->nested_type_count()]), enum_generators_(new scoped_ptr[ descriptor->enum_type_count()]), extension_generators_(new scoped_ptr[ descriptor->extension_count()]) { for (int i = 0; i < descriptor->nested_type_count(); i++) { nested_generators_[i].reset( new MessageGenerator(descriptor->nested_type(i), dllexport_decl)); } for (int i = 0; i < descriptor->enum_type_count(); i++) { enum_generators_[i].reset( new EnumGenerator(descriptor->enum_type(i), dllexport_decl)); } for (int i = 0; i < descriptor->extension_count(); i++) { extension_generators_[i].reset( new ExtensionGenerator(descriptor->extension(i), dllexport_decl)); } } MessageGenerator::~MessageGenerator() {} void MessageGenerator:: GenerateStructTypedef(io::Printer* printer) { printer->Print("typedef struct _$classname$ $classname$;\n", "classname", FullNameToC(descriptor_->full_name())); for (int i = 0; i < descriptor_->nested_type_count(); i++) { nested_generators_[i]->GenerateStructTypedef(printer); } } void MessageGenerator:: GenerateEnumDefinitions(io::Printer* printer) { for (int i = 0; i < descriptor_->nested_type_count(); i++) { nested_generators_[i]->GenerateEnumDefinitions(printer); } for (int i = 0; i < descriptor_->enum_type_count(); i++) { enum_generators_[i]->GenerateDefinition(printer); } } void MessageGenerator:: GenerateStructDefinition(io::Printer* printer) { for (int i = 0; i < descriptor_->nested_type_count(); i++) { nested_generators_[i]->GenerateStructDefinition(printer); } std::map vars; vars["classname"] = FullNameToC(descriptor_->full_name()); vars["lcclassname"] = FullNameToLower(descriptor_->full_name()); vars["ucclassname"] = FullNameToUpper(descriptor_->full_name()); vars["field_count"] = SimpleItoa(descriptor_->field_count()); if (dllexport_decl_.empty()) { vars["dllexport"] = ""; } else { vars["dllexport"] = dllexport_decl_ + " "; } printer->Print(vars, "struct $dllexport$ _$classname$\n" "{\n" " ProtobufCMessage base;\n"); // Generate fields. printer->Indent(); for (int i = 0; i < descriptor_->field_count(); i++) { const FieldDescriptor *field = descriptor_->field(i); field_generators_.get(field).GenerateStructMembers(printer); } printer->Outdent(); printer->Print(vars, "};\n"); for (int i = 0; i < descriptor_->field_count(); i++) { const FieldDescriptor *field = descriptor_->field(i); if (field->has_default_value()) { field_generators_.get(field).GenerateDefaultValueDeclarations(printer); } } printer->Print(vars, "#define $ucclassname$__INIT \\\n" " { PROTOBUF_C_MESSAGE_INIT (&$lcclassname$__descriptor) \\\n "); for (int i = 0; i < descriptor_->field_count(); i++) { const FieldDescriptor *field = descriptor_->field(i); printer->Print(", "); field_generators_.get(field).GenerateStaticInit(printer); } printer->Print(" }\n\n\n"); } void MessageGenerator:: GenerateHelperFunctionDeclarations(io::Printer* printer, bool is_submessage) { for (int i = 0; i < descriptor_->nested_type_count(); i++) { nested_generators_[i]->GenerateHelperFunctionDeclarations(printer, true); } std::map vars; vars["classname"] = FullNameToC(descriptor_->full_name()); vars["lcclassname"] = FullNameToLower(descriptor_->full_name()); printer->Print(vars, "/* $classname$ methods */\n" "void $lcclassname$__init\n" " ($classname$ *message);\n" ); if (!is_submessage) { printer->Print(vars, "size_t $lcclassname$__get_packed_size\n" " (const $classname$ *message);\n" "size_t $lcclassname$__pack\n" " (const $classname$ *message,\n" " uint8_t *out);\n" "size_t $lcclassname$__pack_to_buffer\n" " (const $classname$ *message,\n" " ProtobufCBuffer *buffer);\n" "$classname$ *\n" " $lcclassname$__unpack\n" " (ProtobufCAllocator *allocator,\n" " size_t len,\n" " const uint8_t *data);\n" "void $lcclassname$__free_unpacked\n" " ($classname$ *message,\n" " ProtobufCAllocator *allocator);\n" ); } } void MessageGenerator:: GenerateDescriptorDeclarations(io::Printer* printer) { printer->Print("extern const ProtobufCMessageDescriptor $name$__descriptor;\n", "name", FullNameToLower(descriptor_->full_name())); for (int i = 0; i < descriptor_->nested_type_count(); i++) { nested_generators_[i]->GenerateDescriptorDeclarations(printer); } for (int i = 0; i < descriptor_->enum_type_count(); i++) { enum_generators_[i]->GenerateDescriptorDeclarations(printer); } } void MessageGenerator::GenerateClosureTypedef(io::Printer* printer) { for (int i = 0; i < descriptor_->nested_type_count(); i++) { nested_generators_[i]->GenerateClosureTypedef(printer); } std::map vars; vars["name"] = FullNameToC(descriptor_->full_name()); printer->Print(vars, "typedef void (*$name$_Closure)\n" " (const $name$ *message,\n" " void *closure_data);\n"); } static int compare_pfields_by_number (const void *a, const void *b) { const FieldDescriptor *pa = *(const FieldDescriptor **)a; const FieldDescriptor *pb = *(const FieldDescriptor **)b; if (pa->number() < pb->number()) return -1; if (pa->number() > pb->number()) return +1; return 0; } void MessageGenerator:: GenerateHelperFunctionDefinitions(io::Printer* printer, bool is_submessage) { for (int i = 0; i < descriptor_->nested_type_count(); i++) { nested_generators_[i]->GenerateHelperFunctionDefinitions(printer, true); } std::map vars; vars["classname"] = FullNameToC(descriptor_->full_name()); vars["lcclassname"] = FullNameToLower(descriptor_->full_name()); vars["ucclassname"] = FullNameToUpper(descriptor_->full_name()); printer->Print(vars, "void $lcclassname$__init\n" " ($classname$ *message)\n" "{\n" " static $classname$ init_value = $ucclassname$__INIT;\n" " *message = init_value;\n" "}\n"); if (!is_submessage) { printer->Print(vars, "size_t $lcclassname$__get_packed_size\n" " (const $classname$ *message)\n" "{\n" " PROTOBUF_C_ASSERT (message->base.descriptor == &$lcclassname$__descriptor);\n" " return protobuf_c_message_get_packed_size ((const ProtobufCMessage*)(message));\n" "}\n" "size_t $lcclassname$__pack\n" " (const $classname$ *message,\n" " uint8_t *out)\n" "{\n" " PROTOBUF_C_ASSERT (message->base.descriptor == &$lcclassname$__descriptor);\n" " return protobuf_c_message_pack ((const ProtobufCMessage*)message, out);\n" "}\n" "size_t $lcclassname$__pack_to_buffer\n" " (const $classname$ *message,\n" " ProtobufCBuffer *buffer)\n" "{\n" " PROTOBUF_C_ASSERT (message->base.descriptor == &$lcclassname$__descriptor);\n" " return protobuf_c_message_pack_to_buffer ((const ProtobufCMessage*)message, buffer);\n" "}\n" "$classname$ *\n" " $lcclassname$__unpack\n" " (ProtobufCAllocator *allocator,\n" " size_t len,\n" " const uint8_t *data)\n" "{\n" " return ($classname$ *)\n" " protobuf_c_message_unpack (&$lcclassname$__descriptor,\n" " allocator, len, data);\n" "}\n" "void $lcclassname$__free_unpacked\n" " ($classname$ *message,\n" " ProtobufCAllocator *allocator)\n" "{\n" " PROTOBUF_C_ASSERT (message->base.descriptor == &$lcclassname$__descriptor);\n" " protobuf_c_message_free_unpacked ((ProtobufCMessage*)message, allocator);\n" "}\n" ); } } void MessageGenerator:: GenerateMessageDescriptor(io::Printer* printer) { map vars; vars["fullname"] = descriptor_->full_name(); vars["classname"] = FullNameToC(descriptor_->full_name()); vars["lcclassname"] = FullNameToLower(descriptor_->full_name()); vars["shortname"] = ToCamel(descriptor_->name()); vars["n_fields"] = SimpleItoa(descriptor_->field_count()); vars["packagename"] = descriptor_->file()->package(); for (int i = 0; i < descriptor_->nested_type_count(); i++) { nested_generators_[i]->GenerateMessageDescriptor(printer); } for (int i = 0; i < descriptor_->enum_type_count(); i++) { enum_generators_[i]->GenerateEnumDescriptor(printer); } for (int i = 0; i < descriptor_->field_count(); i++) { const FieldDescriptor *fd = descriptor_->field(i); if (fd->has_default_value()) { field_generators_.get(fd).GenerateDefaultValueImplementations(printer); } } for (int i = 0; i < descriptor_->field_count(); i++) { const FieldDescriptor *fd = descriptor_->field(i); if (fd->has_default_value()) { bool already_defined = false; vars["name"] = fd->name(); vars["lcname"] = CamelToLower(fd->name()); vars["maybe_static"] = "static "; vars["field_dv_ctype_suffix"] = ""; vars["default_value"] = field_generators_.get(fd).GetDefaultValue(); switch (fd->cpp_type()) { case FieldDescriptor::CPPTYPE_INT32: vars["field_dv_ctype"] = "int32_t"; break; case FieldDescriptor::CPPTYPE_INT64: vars["field_dv_ctype"] = "int64_t"; break; case FieldDescriptor::CPPTYPE_UINT32: vars["field_dv_ctype"] = "uint32_t"; break; case FieldDescriptor::CPPTYPE_UINT64: vars["field_dv_ctype"] = "uint64_t"; break; case FieldDescriptor::CPPTYPE_FLOAT: vars["field_dv_ctype"] = "float"; break; case FieldDescriptor::CPPTYPE_DOUBLE: vars["field_dv_ctype"] = "double"; break; case FieldDescriptor::CPPTYPE_BOOL: vars["field_dv_ctype"] = "protobuf_c_boolean"; break; case FieldDescriptor::CPPTYPE_MESSAGE: // NOTE: not supported by protobuf vars["maybe_static"] = ""; vars["field_dv_ctype"] = "{ ... }"; GOOGLE_LOG(DFATAL) << "Messages can't have default values!"; break; case FieldDescriptor::CPPTYPE_STRING: if (fd->type() == FieldDescriptor::TYPE_BYTES) { vars["field_dv_ctype"] = "ProtobufCBinaryData"; } else /* STRING type */ { already_defined = true; vars["maybe_static"] = ""; vars["field_dv_ctype"] = "char"; vars["field_dv_ctype_suffix"] = "[]"; } break; case FieldDescriptor::CPPTYPE_ENUM: { const EnumValueDescriptor *vd = fd->default_value_enum(); vars["field_dv_ctype"] = FullNameToC(vd->type()->full_name()); break; } default: GOOGLE_LOG(DFATAL) << "Unknown CPPTYPE"; break; } if (!already_defined) printer->Print(vars, "$maybe_static$const $field_dv_ctype$ $lcclassname$__$lcname$__default_value$field_dv_ctype_suffix$ = $default_value$;\n"); } } if ( descriptor_->field_count() ) { printer->Print(vars, "static const ProtobufCFieldDescriptor $lcclassname$__field_descriptors[$n_fields$] =\n" "{\n"); printer->Indent(); const FieldDescriptor **sorted_fields = new const FieldDescriptor *[descriptor_->field_count()]; for (int i = 0; i < descriptor_->field_count(); i++) { sorted_fields[i] = descriptor_->field(i); } qsort (sorted_fields, descriptor_->field_count(), sizeof (const FieldDescriptor *), compare_pfields_by_number); for (int i = 0; i < descriptor_->field_count(); i++) { const FieldDescriptor *field = sorted_fields[i]; field_generators_.get(field).GenerateDescriptorInitializer(printer); } printer->Outdent(); printer->Print(vars, "};\n"); NameIndex *field_indices = new NameIndex [descriptor_->field_count()]; for (int i = 0; i < descriptor_->field_count(); i++) { field_indices[i].name = sorted_fields[i]->name().c_str(); field_indices[i].index = i; } qsort (field_indices, descriptor_->field_count(), sizeof (NameIndex), compare_name_indices_by_name); printer->Print(vars, "static const unsigned $lcclassname$__field_indices_by_name[] = {\n"); for (int i = 0; i < descriptor_->field_count(); i++) { vars["index"] = SimpleItoa(field_indices[i].index); vars["name"] = field_indices[i].name; printer->Print(vars, " $index$, /* field[$index$] = $name$ */\n"); } printer->Print("};\n"); // create range initializers int *values = new int[descriptor_->field_count()]; for (int i = 0; i < descriptor_->field_count(); i++) { values[i] = sorted_fields[i]->number(); } int n_ranges = WriteIntRanges(printer, descriptor_->field_count(), values, vars["lcclassname"] + "__number_ranges"); delete [] values; delete [] sorted_fields; vars["n_ranges"] = SimpleItoa(n_ranges); } else { /* MS compiler can't handle arrays with zero size and empty * initialization list. Furthermore it is an extension of GCC only but * not a standard. */ vars["n_ranges"] = "0"; printer->Print(vars, "#define $lcclassname$__field_descriptors NULL\n" "#define $lcclassname$__field_indices_by_name NULL\n" "#define $lcclassname$__number_ranges NULL\n"); } printer->Print(vars, "const ProtobufCMessageDescriptor $lcclassname$__descriptor =\n" "{\n" " PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC,\n" " \"$fullname$\",\n" " \"$shortname$\",\n" " \"$classname$\",\n" " \"$packagename$\",\n" " sizeof($classname$),\n" " $n_fields$,\n" " $lcclassname$__field_descriptors,\n" " $lcclassname$__field_indices_by_name,\n" " $n_ranges$," " $lcclassname$__number_ranges,\n" " (ProtobufCMessageInit) $lcclassname$__init,\n" " NULL,NULL,NULL /* reserved[123] */\n" "};\n"); } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_bytes_field.h0000644000175000017500000000366311332660134021352 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_BYTES_FIELD_H__ #define GOOGLE_PROTOBUF_COMPILER_C_BYTES_FIELD_H__ #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { class BytesFieldGenerator : public FieldGenerator { public: explicit BytesFieldGenerator(const FieldDescriptor* descriptor); ~BytesFieldGenerator(); // implements FieldGenerator --------------------------------------- void GenerateStructMembers(io::Printer* printer) const; void GenerateDescriptorInitializer(io::Printer* printer) const; void GenerateDefaultValueDeclarations(io::Printer* printer) const; void GenerateDefaultValueImplementations(io::Printer* printer) const; string GetDefaultValue(void) const; void GenerateStaticInit(io::Printer* printer) const; private: map variables_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(BytesFieldGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_STRING_FIELD_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_string_field.h0000644000175000017500000000367111332660134021531 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_STRING_FIELD_H__ #define GOOGLE_PROTOBUF_COMPILER_C_STRING_FIELD_H__ #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { class StringFieldGenerator : public FieldGenerator { public: explicit StringFieldGenerator(const FieldDescriptor* descriptor); ~StringFieldGenerator(); // implements FieldGenerator --------------------------------------- void GenerateStructMembers(io::Printer* printer) const; void GenerateDescriptorInitializer(io::Printer* printer) const; void GenerateDefaultValueDeclarations(io::Printer* printer) const; void GenerateDefaultValueImplementations(io::Printer* printer) const; string GetDefaultValue(void) const; void GenerateStaticInit(io::Printer* printer) const; private: map variables_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(StringFieldGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_STRING_FIELD_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_primitive_field.cc0000644000175000017500000001347511431045337022376 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { PrimitiveFieldGenerator:: PrimitiveFieldGenerator(const FieldDescriptor* descriptor) : FieldGenerator(descriptor) { } PrimitiveFieldGenerator::~PrimitiveFieldGenerator() {} void PrimitiveFieldGenerator::GenerateStructMembers(io::Printer* printer) const { string c_type; map vars; switch (descriptor_->type()) { case FieldDescriptor::TYPE_SINT32 : case FieldDescriptor::TYPE_SFIXED32: case FieldDescriptor::TYPE_INT32 : c_type = "int32_t"; break; case FieldDescriptor::TYPE_SINT64 : case FieldDescriptor::TYPE_SFIXED64: case FieldDescriptor::TYPE_INT64 : c_type = "int64_t"; break; case FieldDescriptor::TYPE_UINT32 : case FieldDescriptor::TYPE_FIXED32 : c_type = "uint32_t"; break; case FieldDescriptor::TYPE_UINT64 : case FieldDescriptor::TYPE_FIXED64 : c_type = "uint64_t"; break; case FieldDescriptor::TYPE_FLOAT : c_type = "float"; break; case FieldDescriptor::TYPE_DOUBLE : c_type = "double"; break; case FieldDescriptor::TYPE_BOOL : c_type = "protobuf_c_boolean"; break; case FieldDescriptor::TYPE_ENUM : case FieldDescriptor::TYPE_STRING : case FieldDescriptor::TYPE_BYTES : case FieldDescriptor::TYPE_GROUP : case FieldDescriptor::TYPE_MESSAGE : GOOGLE_LOG(FATAL) << "not a primitive type"; break; // No default because we want the compiler to complain if any new // types are added. } vars["c_type"] = c_type; vars["name"] = FieldName(descriptor_); vars["deprecated"] = FieldDeprecated(descriptor_); switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: printer->Print(vars, "$c_type$ $name$$deprecated$;\n"); break; case FieldDescriptor::LABEL_OPTIONAL: printer->Print(vars, "protobuf_c_boolean has_$name$$deprecated$;\n"); printer->Print(vars, "$c_type$ $name$$deprecated$;\n"); break; case FieldDescriptor::LABEL_REPEATED: printer->Print(vars, "size_t n_$name$$deprecated$;\n"); printer->Print(vars, "$c_type$ *$name$$deprecated$;\n"); break; } } string PrimitiveFieldGenerator::GetDefaultValue() const { /* XXX: SimpleItoa seems woefully inadequate for anything but int32, * but that's what protobuf uses. */ switch (descriptor_->cpp_type()) { case FieldDescriptor::CPPTYPE_INT32: return SimpleItoa(descriptor_->default_value_int32()); case FieldDescriptor::CPPTYPE_INT64: return SimpleItoa(descriptor_->default_value_int64()); case FieldDescriptor::CPPTYPE_UINT32: return SimpleItoa(descriptor_->default_value_uint32()); case FieldDescriptor::CPPTYPE_UINT64: return SimpleItoa(descriptor_->default_value_uint64()); case FieldDescriptor::CPPTYPE_FLOAT: return SimpleFtoa(descriptor_->default_value_float()); case FieldDescriptor::CPPTYPE_DOUBLE: return SimpleDtoa(descriptor_->default_value_double()); case FieldDescriptor::CPPTYPE_BOOL: return descriptor_->default_value_bool() ? "1" : "0"; default: GOOGLE_LOG(DFATAL) << "unexpected CPPTYPE in c_primitive_field"; return "UNEXPECTED_CPPTYPE"; } } void PrimitiveFieldGenerator::GenerateStaticInit(io::Printer* printer) const { map vars; if (descriptor_->has_default_value()) { vars["default_value"] = GetDefaultValue(); } else { vars["default_value"] = "0"; } switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: printer->Print(vars, "$default_value$"); break; case FieldDescriptor::LABEL_OPTIONAL: printer->Print(vars, "0,$default_value$"); break; case FieldDescriptor::LABEL_REPEATED: printer->Print("0,NULL"); break; } } void PrimitiveFieldGenerator::GenerateDescriptorInitializer(io::Printer* printer) const { string c_type_macro; switch (descriptor_->type()) { #define WRITE_CASE(shortname) case FieldDescriptor::TYPE_##shortname: c_type_macro = #shortname; break; WRITE_CASE(INT32) WRITE_CASE(SINT32) WRITE_CASE(UINT32) WRITE_CASE(SFIXED32) WRITE_CASE(FIXED32) WRITE_CASE(INT64) WRITE_CASE(SINT64) WRITE_CASE(UINT64) WRITE_CASE(FIXED64) WRITE_CASE(SFIXED64) WRITE_CASE(FLOAT) WRITE_CASE(DOUBLE) WRITE_CASE(BOOL) #undef WRITE_CASE case FieldDescriptor::TYPE_ENUM : case FieldDescriptor::TYPE_STRING : case FieldDescriptor::TYPE_BYTES : case FieldDescriptor::TYPE_GROUP : case FieldDescriptor::TYPE_MESSAGE : GOOGLE_LOG(FATAL) << "not a primitive type"; break; // No default because we want the compiler to complain if any new // types are added. } GenerateDescriptorInitializerGeneric(printer, true, c_type_macro, "NULL"); } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_generator.cc0000644000175000017500000001036311536220130021172 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { // Parses a set of comma-delimited name/value pairs, e.g.: // "foo=bar,baz,qux=corge" // parses to the pairs: // ("foo", "bar"), ("baz", ""), ("qux", "corge") void ParseOptions(const string& text, vector >* output) { vector parts; SplitStringUsing(text, ",", &parts); for (unsigned i = 0; i < parts.size(); i++) { string::size_type equals_pos = parts[i].find_first_of('='); pair value; if (equals_pos == string::npos) { value.first = parts[i]; value.second = ""; } else { value.first = parts[i].substr(0, equals_pos); value.second = parts[i].substr(equals_pos + 1); } output->push_back(value); } } CGenerator::CGenerator() {} CGenerator::~CGenerator() {} bool CGenerator::Generate(const FileDescriptor* file, const string& parameter, OutputDirectory* output_directory, string* error) const { vector > options; ParseOptions(parameter, &options); // ----------------------------------------------------------------- // parse generator options // TODO(kenton): If we ever have more options, we may want to create a // class that encapsulates them which we can pass down to all the // generator classes. Currently we pass dllexport_decl down to all of // them via the constructors, but we don't want to have to add another // constructor parameter for every option. // If the dllexport_decl option is passed to the compiler, we need to write // it in front of every symbol that should be exported if this .proto is // compiled into a Windows DLL. E.g., if the user invokes the protocol // compiler as: // protoc --cpp_out=dllexport_decl=FOO_EXPORT:outdir foo.proto // then we'll define classes like this: // class FOO_EXPORT Foo { // ... // } // FOO_EXPORT is a macro which should expand to __declspec(dllexport) or // __declspec(dllimport) depending on what is being compiled. string dllexport_decl; for (unsigned i = 0; i < options.size(); i++) { if (options[i].first == "dllexport_decl") { dllexport_decl = options[i].second; } else { *error = "Unknown generator option: " + options[i].first; return false; } } // ----------------------------------------------------------------- string basename = StripProto(file->name()); basename.append(".pb-c"); FileGenerator file_generator(file, dllexport_decl); // Generate header. { scoped_ptr output( output_directory->Open(basename + ".h")); io::Printer printer(output.get(), '$'); file_generator.GenerateHeader(&printer); } // Generate cc file. { scoped_ptr output( output_directory->Open(basename + ".c")); io::Printer printer(output.get(), '$'); file_generator.GenerateSource(&printer); } return true; } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_file.cc0000644000175000017500000001777211431045052020140 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { // =================================================================== FileGenerator::FileGenerator(const FileDescriptor* file, const string& dllexport_decl) : file_(file), message_generators_( new scoped_ptr[file->message_type_count()]), enum_generators_( new scoped_ptr[file->enum_type_count()]), service_generators_( new scoped_ptr[file->service_count()]), extension_generators_( new scoped_ptr[file->extension_count()]) { for (int i = 0; i < file->message_type_count(); i++) { message_generators_[i].reset( new MessageGenerator(file->message_type(i), dllexport_decl)); } for (int i = 0; i < file->enum_type_count(); i++) { enum_generators_[i].reset( new EnumGenerator(file->enum_type(i), dllexport_decl)); } for (int i = 0; i < file->service_count(); i++) { service_generators_[i].reset( new ServiceGenerator(file->service(i), dllexport_decl)); } for (int i = 0; i < file->extension_count(); i++) { extension_generators_[i].reset( new ExtensionGenerator(file->extension(i), dllexport_decl)); } SplitStringUsing(file_->package(), ".", &package_parts_); } FileGenerator::~FileGenerator() {} void FileGenerator::GenerateHeader(io::Printer* printer) { string filename_identifier = FilenameIdentifier(file_->name()); // Generate top of header. printer->Print( "/* Generated by the protocol buffer compiler. DO NOT EDIT! */\n" "\n" "#ifndef PROTOBUF_C_$filename_identifier$__INCLUDED\n" "#define PROTOBUF_C_$filename_identifier$__INCLUDED\n" "\n" "#include \n" "\n" "PROTOBUF_C_BEGIN_DECLS\n" "\n", "filename_identifier", filename_identifier); #if 0 // Verify the protobuf library header version is compatible with the protoc // version before going any further. printer->Print( "#if GOOGLE_PROTOBUF_VERSION < $min_header_version$\n" "#error This file was generated by a newer version of protoc which is\n" "#error incompatible with your Protocol Buffer headers. Please update\n" "#error your headers.\n" "#endif\n" "#if $protoc_version$ < GOOGLE_PROTOBUF_MIN_PROTOC_VERSION\n" "#error This file was generated by an older version of protoc which is\n" "#error incompatible with your Protocol Buffer headers. Please\n" "#error regenerate this file with a newer version of protoc.\n" "#endif\n" "\n", "min_header_version", SimpleItoa(protobuf::internal::kMinHeaderVersionForProtoc), "protoc_version", SimpleItoa(GOOGLE_PROTOBUF_VERSION)); #endif for (int i = 0; i < file_->dependency_count(); i++) { printer->Print( "#include \"$dependency$.pb-c.h\"\n", "dependency", StripProto(file_->dependency(i)->name())); } printer->Print("\n"); // Generate forward declarations of classes. for (int i = 0; i < file_->message_type_count(); i++) { message_generators_[i]->GenerateStructTypedef(printer); } printer->Print("\n"); // Generate enum definitions. printer->Print("\n/* --- enums --- */\n\n"); for (int i = 0; i < file_->message_type_count(); i++) { message_generators_[i]->GenerateEnumDefinitions(printer); } for (int i = 0; i < file_->enum_type_count(); i++) { enum_generators_[i]->GenerateDefinition(printer); } // Generate class definitions. printer->Print("\n/* --- messages --- */\n\n"); for (int i = 0; i < file_->message_type_count(); i++) { message_generators_[i]->GenerateStructDefinition(printer); } for (int i = 0; i < file_->message_type_count(); i++) { message_generators_[i]->GenerateHelperFunctionDeclarations(printer, false); } printer->Print("/* --- per-message closures --- */\n\n"); for (int i = 0; i < file_->message_type_count(); i++) { message_generators_[i]->GenerateClosureTypedef(printer); } // Generate service definitions. printer->Print("\n/* --- services --- */\n\n"); for (int i = 0; i < file_->service_count(); i++) { service_generators_[i]->GenerateMainHFile(printer); } // Declare extension identifiers. for (int i = 0; i < file_->extension_count(); i++) { extension_generators_[i]->GenerateDeclaration(printer); } printer->Print("\n/* --- descriptors --- */\n\n"); for (int i = 0; i < file_->enum_type_count(); i++) { enum_generators_[i]->GenerateDescriptorDeclarations(printer); } for (int i = 0; i < file_->message_type_count(); i++) { message_generators_[i]->GenerateDescriptorDeclarations(printer); } for (int i = 0; i < file_->service_count(); i++) { service_generators_[i]->GenerateDescriptorDeclarations(printer); } printer->Print( "\n" "PROTOBUF_C_END_DECLS\n" "\n\n#endif /* PROTOBUF_$filename_identifier$__INCLUDED */\n", "filename_identifier", filename_identifier); } void FileGenerator::GenerateSource(io::Printer* printer) { printer->Print( "/* Generated by the protocol buffer compiler. DO NOT EDIT! */\n" "\n" "/* Do not generate deprecated warnings for self */\n" "#ifndef PROTOBUF_C_NO_DEPRECATED\n" "#define PROTOBUF_C_NO_DEPRECATED\n" "#endif\n" "\n" "#include \"$basename$.pb-c.h\"\n", "basename", StripProto(file_->name())); #if 0 // For each dependency, write a prototype for that dependency's // BuildDescriptors() function. We don't expose these in the header because // they are internal implementation details, and since this is generated code // we don't have the usual risks involved with declaring external functions // within a .cc file. for (int i = 0; i < file_->dependency_count(); i++) { const FileDescriptor* dependency = file_->dependency(i); // Open the dependency's namespace. vector dependency_package_parts; SplitStringUsing(dependency->package(), ".", &dependency_package_parts); // Declare its BuildDescriptors() function. printer->Print( "void $function$();", "function", GlobalBuildDescriptorsName(dependency->name())); // Close the namespace. for (int i = 0; i < dependency_package_parts.size(); i++) { printer->Print(" }"); } printer->Print("\n"); } #endif for (int i = 0; i < file_->message_type_count(); i++) { message_generators_[i]->GenerateHelperFunctionDefinitions(printer, false); } for (int i = 0; i < file_->message_type_count(); i++) { message_generators_[i]->GenerateMessageDescriptor(printer); } for (int i = 0; i < file_->enum_type_count(); i++) { enum_generators_[i]->GenerateEnumDescriptor(printer); } for (int i = 0; i < file_->service_count(); i++) { service_generators_[i]->GenerateCFile(printer); } } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_message_field.cc0000644000175000017500000000554111431045312021776 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { using internal::WireFormat; // =================================================================== MessageFieldGenerator:: MessageFieldGenerator(const FieldDescriptor* descriptor) : FieldGenerator(descriptor) { } MessageFieldGenerator::~MessageFieldGenerator() {} void MessageFieldGenerator::GenerateStructMembers(io::Printer* printer) const { map vars; vars["name"] = FieldName(descriptor_); vars["type"] = FullNameToC(descriptor_->message_type()->full_name()); vars["deprecated"] = FieldDeprecated(descriptor_); switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: case FieldDescriptor::LABEL_OPTIONAL: printer->Print(vars, "$type$ *$name$$deprecated$;\n"); break; case FieldDescriptor::LABEL_REPEATED: printer->Print(vars, "size_t n_$name$$deprecated$;\n"); printer->Print(vars, "$type$ **$name$$deprecated$;\n"); break; } } string MessageFieldGenerator::GetDefaultValue(void) const { /* XXX: update when protobuf gets support * for default-values of message fields. */ return "NULL"; } void MessageFieldGenerator::GenerateStaticInit(io::Printer* printer) const { switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: case FieldDescriptor::LABEL_OPTIONAL: printer->Print("NULL"); break; case FieldDescriptor::LABEL_REPEATED: printer->Print("0,NULL"); break; } } void MessageFieldGenerator::GenerateDescriptorInitializer(io::Printer* printer) const { string addr = "&" + FullNameToLower(descriptor_->message_type()->full_name()) + "__descriptor"; GenerateDescriptorInitializerGeneric(printer, false, "MESSAGE", addr); } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_helpers.h0000644000175000017500000001276311536220130020516 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_HELPERS_H__ #define GOOGLE_PROTOBUF_COMPILER_C_HELPERS_H__ #include #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { // Returns the non-nested type name for the given type. If "qualified" is // true, prefix the type with the full namespace. For example, if you had: // package foo.bar; // message Baz { message Qux {} } // Then the qualified ClassName for Qux would be: // Foo__Bar__Baz_Qux // While the non-qualified version would be: // Baz_Qux string ClassName(const Descriptor* descriptor, bool qualified); string ClassName(const EnumDescriptor* enum_descriptor, bool qualified); // --- Borrowed from stubs. --- template string SimpleItoa(T n) { std::stringstream stream; stream << n; return stream.str(); } string SimpleFtoa(float f); string SimpleDtoa(double f); void SplitStringUsing(const string &str, const char *delim, std::vector *out); string CEscape(const string& src); string StringReplace(const string& s, const string& oldsub, const string& newsub, bool replace_all); inline bool HasSuffixString(const string& str, const string& suffix) { return str.size() >= suffix.size() && str.compare(str.size() - suffix.size(), suffix.size(), suffix) == 0; } inline string StripSuffixString(const string& str, const string& suffix) { if (HasSuffixString(str, suffix)) { return str.substr(0, str.size() - suffix.size()); } else { return str; } } char* FastHexToBuffer(int i, char* buffer); // Get the (unqualified) name that should be used for this field in C code. // The name is coerced to lower-case to emulate proto1 behavior. People // should be using lowercase-with-underscores style for proto field names // anyway, so normally this just returns field->name(). string FieldName(const FieldDescriptor* field); // Get macro string for deprecated field string FieldDeprecated(const FieldDescriptor* field); // Returns the scope where the field was defined (for extensions, this is // different from the message type to which the field applies). inline const Descriptor* FieldScope(const FieldDescriptor* field) { return field->is_extension() ? field->extension_scope() : field->containing_type(); } // convert a CamelCase class name into an all uppercase affair // with underscores separating words, e.g. MyClass becomes MY_CLASS. string CamelToUpper(const string &class_name); string CamelToLower(const string &class_name); // lowercased, underscored name to camel case string ToCamel(const string &name); // lowercase the string string ToLower(const string &class_name); string ToUpper(const string &class_name); // full_name() to lowercase with underscores string FullNameToLower(const string &full_name); string FullNameToUpper(const string &full_name); // full_name() to c-typename (with underscores for packages, otherwise camel case) string FullNameToC(const string &class_name); // make a string of spaces as long as input string ConvertToSpaces(const string &input); // Strips ".proto" or ".protodevel" from the end of a filename. string StripProto(const string& filename); // Get the C++ type name for a primitive type (e.g. "double", "::google::protobuf::int32", etc.). // Note: non-built-in type names will be qualified, meaning they will start // with a ::. If you are using the type as a template parameter, you will // need to insure there is a space between the < and the ::, because the // ridiculous C++ standard defines "<:" to be a synonym for "[". const char* PrimitiveTypeName(FieldDescriptor::CppType type); // Get the declared type name in CamelCase format, as is used e.g. for the // methods of WireFormat. For example, TYPE_INT32 becomes "Int32". const char* DeclaredTypeMethodName(FieldDescriptor::Type type); // Convert a file name into a valid identifier. string FilenameIdentifier(const string& filename); // Return the name of the BuildDescriptors() function for a given file. string GlobalBuildDescriptorsName(const string& filename); // return 'required', 'optional', or 'repeated' string GetLabelName(FieldDescriptor::Label label); // write IntRanges entries for a bunch of sorted values. // returns the number of ranges there are to bsearch. unsigned WriteIntRanges(io::Printer* printer, int n_values, const int *values, const string &name); struct NameIndex { unsigned index; const char *name; }; int compare_name_indices_by_name(const void*, const void*); } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_HELPERS_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_enum.cc0000644000175000017500000002071011332660134020153 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { EnumGenerator::EnumGenerator(const EnumDescriptor* descriptor, const string& dllexport_decl) : descriptor_(descriptor), dllexport_decl_(dllexport_decl) { } EnumGenerator::~EnumGenerator() {} void EnumGenerator::GenerateDefinition(io::Printer* printer) { map vars; vars["classname"] = FullNameToC(descriptor_->full_name()); vars["shortname"] = descriptor_->name(); printer->Print(vars, "typedef enum _$classname$ {\n"); printer->Indent(); const EnumValueDescriptor* min_value = descriptor_->value(0); const EnumValueDescriptor* max_value = descriptor_->value(0); vars["opt_comma"] = ","; for (int i = 0; i < descriptor_->value_count(); i++) { vars["name"] = descriptor_->value(i)->name(); vars["number"] = SimpleItoa(descriptor_->value(i)->number()); vars["prefix"] = FullNameToUpper(descriptor_->full_name()) + "__"; if (i + 1 == descriptor_->value_count()) vars["opt_comma"] = ""; printer->Print(vars, "$prefix$$name$ = $number$$opt_comma$\n"); if (descriptor_->value(i)->number() < min_value->number()) { min_value = descriptor_->value(i); } if (descriptor_->value(i)->number() > max_value->number()) { max_value = descriptor_->value(i); } } printer->Outdent(); printer->Print(vars, "} $classname$;\n"); } void EnumGenerator::GenerateDescriptorDeclarations(io::Printer* printer) { map vars; if (dllexport_decl_.empty()) { vars["dllexport"] = ""; } else { vars["dllexport"] = dllexport_decl_ + " "; } vars["classname"] = FullNameToC(descriptor_->full_name()); vars["lcclassname"] = FullNameToLower(descriptor_->full_name()); printer->Print(vars, "extern $dllexport$const ProtobufCEnumDescriptor $lcclassname$__descriptor;\n"); } struct ValueIndex { int value; unsigned index; unsigned final_index; /* index in uniqified array of values */ const char *name; }; void EnumGenerator::GenerateValueInitializer(io::Printer *printer, int index) { const EnumValueDescriptor *vd = descriptor_->value(index); map vars; vars["enum_value_name"] = vd->name(); vars["c_enum_value_name"] = FullNameToUpper(descriptor_->full_name()) + "__" + ToUpper(vd->name()); vars["value"] = SimpleItoa(vd->number()); printer->Print(vars, " { \"$enum_value_name$\", \"$c_enum_value_name$\", $value$ },\n"); } static int compare_value_indices_by_value_then_index(const void *a, const void *b) { const ValueIndex *vi_a = (const ValueIndex *) a; const ValueIndex *vi_b = (const ValueIndex *) b; if (vi_a->value < vi_b->value) return -1; if (vi_a->value > vi_b->value) return +1; if (vi_a->index < vi_b->index) return -1; if (vi_a->index > vi_b->index) return +1; return 0; } static int compare_value_indices_by_name(const void *a, const void *b) { const ValueIndex *vi_a = (const ValueIndex *) a; const ValueIndex *vi_b = (const ValueIndex *) b; return strcmp (vi_a->name, vi_b->name); } void EnumGenerator::GenerateEnumDescriptor(io::Printer* printer) { map vars; vars["fullname"] = descriptor_->full_name(); vars["lcclassname"] = FullNameToLower(descriptor_->full_name()); vars["cname"] = FullNameToC(descriptor_->full_name()); vars["shortname"] = descriptor_->name(); vars["packagename"] = descriptor_->file()->package(); vars["value_count"] = SimpleItoa(descriptor_->value_count()); // Sort by name and value, dropping duplicate values if they appear later. // TODO: use a c++ paradigm for this! NameIndex *name_index = new NameIndex[descriptor_->value_count()]; ValueIndex *value_index = new ValueIndex[descriptor_->value_count()]; for (int j = 0; j < descriptor_->value_count(); j++) { const EnumValueDescriptor *vd = descriptor_->value(j); name_index[j].index = j; name_index[j].name = vd->name().c_str(); value_index[j].index = j; value_index[j].value = vd->number(); value_index[j].name = vd->name().c_str(); } qsort(value_index, descriptor_->value_count(), sizeof(ValueIndex), compare_value_indices_by_value_then_index); // only record unique values int n_unique_values; if (descriptor_->value_count() == 0) { n_unique_values = 0; // should never happen } else { n_unique_values = 1; value_index[0].final_index = 0; for (int j = 1; j < descriptor_->value_count(); j++) { if (value_index[j-1].value != value_index[j].value) value_index[j].final_index = n_unique_values++; else value_index[j].final_index = n_unique_values - 1; } } vars["unique_value_count"] = SimpleItoa(n_unique_values); printer->Print(vars, "const ProtobufCEnumValue $lcclassname$__enum_values_by_number[$unique_value_count$] =\n" "{\n"); if (descriptor_->value_count() > 0) { GenerateValueInitializer(printer, value_index[0].index); for (int j = 1; j < descriptor_->value_count(); j++) { if (value_index[j-1].value != value_index[j].value) { GenerateValueInitializer(printer, value_index[j].index); } } } printer->Print(vars, "};\n"); printer->Print(vars, "static const ProtobufCIntRange $lcclassname$__value_ranges[] = {\n"); unsigned n_ranges = 0; if (descriptor_->value_count() > 0) { unsigned range_start = 0; unsigned range_len = 1; unsigned range_start_value = value_index[0].value; unsigned last_value = range_start_value; for (int j = 1; j < descriptor_->value_count(); j++) { if (value_index[j-1].value != value_index[j].value) { if (last_value + 1 == value_index[j].value) { range_len++; } else { // output range vars["range_start_value"] = SimpleItoa(range_start_value); vars["orig_index"] = SimpleItoa(range_start); printer->Print (vars, "{$range_start_value$, $orig_index$},"); range_start_value = value_index[j].value; range_start += range_len; range_len = 1; n_ranges++; } last_value = value_index[j].value; } } { vars["range_start_value"] = SimpleItoa(range_start_value); vars["orig_index"] = SimpleItoa(range_start); printer->Print (vars, "{$range_start_value$, $orig_index$},"); range_start += range_len; n_ranges++; } { vars["range_start_value"] = SimpleItoa(0); vars["orig_index"] = SimpleItoa(range_start); printer->Print (vars, "{$range_start_value$, $orig_index$}\n};\n"); } } vars["n_ranges"] = SimpleItoa(n_ranges); qsort(value_index, descriptor_->value_count(), sizeof(ValueIndex), compare_value_indices_by_name); printer->Print(vars, "const ProtobufCEnumValueIndex $lcclassname$__enum_values_by_name[$value_count$] =\n" "{\n"); for (int j = 0; j < descriptor_->value_count(); j++) { vars["index"] = SimpleItoa(value_index[j].final_index); vars["name"] = value_index[j].name; printer->Print (vars, " { \"$name$\", $index$ },\n"); } printer->Print(vars, "};\n"); printer->Print(vars, "const ProtobufCEnumDescriptor $lcclassname$__descriptor =\n" "{\n" " PROTOBUF_C_ENUM_DESCRIPTOR_MAGIC,\n" " \"$fullname$\",\n" " \"$shortname$\",\n" " \"$cname$\",\n" " \"$packagename$\",\n" " $unique_value_count$,\n" " $lcclassname$__enum_values_by_number,\n" " $value_count$,\n" " $lcclassname$__enum_values_by_name,\n" " $n_ranges$,\n" " $lcclassname$__value_ranges,\n" " NULL,NULL,NULL,NULL /* reserved[1234] */\n" "};\n"); } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_bytes_field.cc0000644000175000017500000001022211431045420021470 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { using internal::WireFormat; void SetBytesVariables(const FieldDescriptor* descriptor, map* variables) { (*variables)["name"] = FieldName(descriptor); (*variables)["default"] = "\"" + CEscape(descriptor->default_value_string()) + "\""; (*variables)["deprecated"] = FieldDeprecated(descriptor); } // =================================================================== BytesFieldGenerator:: BytesFieldGenerator(const FieldDescriptor* descriptor) : FieldGenerator(descriptor) { SetBytesVariables(descriptor, &variables_); variables_["default_value"] = descriptor->has_default_value() ? GetDefaultValue() : string("{0,NULL}"); } BytesFieldGenerator::~BytesFieldGenerator() {} void BytesFieldGenerator::GenerateStructMembers(io::Printer* printer) const { switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: printer->Print(variables_, "ProtobufCBinaryData $name$$deprecated$;\n"); break; case FieldDescriptor::LABEL_OPTIONAL: printer->Print(variables_, "protobuf_c_boolean has_$name$$deprecated$;\n"); printer->Print(variables_, "ProtobufCBinaryData $name$$deprecated$;\n"); break; case FieldDescriptor::LABEL_REPEATED: printer->Print(variables_, "size_t n_$name$$deprecated$;\n"); printer->Print(variables_, "ProtobufCBinaryData *$name$$deprecated$;\n"); break; } } void BytesFieldGenerator::GenerateDefaultValueDeclarations(io::Printer* printer) const { std::map vars; vars["default_value_data"] = FullNameToLower(descriptor_->full_name()) + "__default_value_data"; printer->Print(vars, "extern uint8_t $default_value_data$[];\n"); } void BytesFieldGenerator::GenerateDefaultValueImplementations(io::Printer* printer) const { std::map vars; vars["default_value_data"] = FullNameToLower(descriptor_->full_name()) + "__default_value_data"; vars["escaped"] = CEscape(descriptor_->default_value_string()); printer->Print(vars, "uint8_t $default_value_data$[] = \"$escaped$\";\n"); } string BytesFieldGenerator::GetDefaultValue(void) const { return "{ " + SimpleItoa(descriptor_->default_value_string().size()) + ", " + FullNameToLower(descriptor_->full_name()) + "__default_value_data }"; } void BytesFieldGenerator::GenerateStaticInit(io::Printer* printer) const { switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: printer->Print(variables_, "$default_value$"); break; case FieldDescriptor::LABEL_OPTIONAL: printer->Print(variables_, "0,$default_value$"); break; case FieldDescriptor::LABEL_REPEATED: // no support for default? printer->Print("0,NULL"); break; } } void BytesFieldGenerator::GenerateDescriptorInitializer(io::Printer* printer) const { GenerateDescriptorInitializerGeneric(printer, true, "BYTES", "NULL"); } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_enum_field.cc0000644000175000017500000000714211431045441021320 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { using internal::WireFormat; // TODO(kenton): Factor out a "SetCommonFieldVariables()" to get rid of // repeat code between this and the other field types. void SetEnumVariables(const FieldDescriptor* descriptor, map* variables) { (*variables)["name"] = FieldName(descriptor); (*variables)["type"] = FullNameToC(descriptor->enum_type()->full_name()); if (descriptor->has_default_value()) { const EnumValueDescriptor* default_value = descriptor->default_value_enum(); (*variables)["default"] = FullNameToUpper(default_value->type()->full_name()) + "__" + ToUpper(default_value->name()); } else (*variables)["default"] = "0"; (*variables)["deprecated"] = FieldDeprecated(descriptor); } // =================================================================== EnumFieldGenerator:: EnumFieldGenerator(const FieldDescriptor* descriptor) : FieldGenerator(descriptor) { SetEnumVariables(descriptor, &variables_); } EnumFieldGenerator::~EnumFieldGenerator() {} void EnumFieldGenerator::GenerateStructMembers(io::Printer* printer) const { switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: printer->Print(variables_, "$type$ $name$$deprecated$;\n"); break; case FieldDescriptor::LABEL_OPTIONAL: printer->Print(variables_, "protobuf_c_boolean has_$name$$deprecated$;\n"); printer->Print(variables_, "$type$ $name$$deprecated$;\n"); break; case FieldDescriptor::LABEL_REPEATED: printer->Print(variables_, "size_t n_$name$$deprecated$;\n"); printer->Print(variables_, "$type$ *$name$$deprecated$;\n"); break; } } string EnumFieldGenerator::GetDefaultValue(void) const { return variables_.find("default")->second; } void EnumFieldGenerator::GenerateStaticInit(io::Printer* printer) const { switch (descriptor_->label()) { case FieldDescriptor::LABEL_REQUIRED: printer->Print(variables_, "$default$"); break; case FieldDescriptor::LABEL_OPTIONAL: printer->Print(variables_, "0,$default$"); break; case FieldDescriptor::LABEL_REPEATED: // no support for default? printer->Print("0,NULL"); break; } } void EnumFieldGenerator::GenerateDescriptorInitializer(io::Printer* printer) const { string addr = "&" + FullNameToLower(descriptor_->enum_type()->full_name()) + "__descriptor"; GenerateDescriptorInitializerGeneric(printer, true, "ENUM", addr); } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/main.cc0000644000175000017500000000063311332660134017633 00000000000000#include #include int main(int argc, char* argv[]) { google::protobuf::compiler::CommandLineInterface cli; // Support generation of Foo code. google::protobuf::compiler::c::CGenerator c_generator; cli.RegisterGenerator("--c_out", &c_generator, "Generate C/H files."); return cli.Run(argc, argv); } protobuf-c-0.15/src/google/protobuf/compiler/c/c_message.h0000644000175000017500000000627011332660134020502 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_MESSAGE_H__ #define GOOGLE_PROTOBUF_COMPILER_C_MESSAGE_H__ #include #include #include namespace google { namespace protobuf { namespace io { class Printer; // printer.h } } namespace protobuf { namespace compiler { namespace c { class EnumGenerator; // enum.h class ExtensionGenerator; // extension.h class MessageGenerator { public: // See generator.cc for the meaning of dllexport_decl. explicit MessageGenerator(const Descriptor* descriptor, const string& dllexport_decl); ~MessageGenerator(); // Header stuff. // Generate typedef. void GenerateStructTypedef(io::Printer* printer); // Generate descriptor prototype void GenerateDescriptorDeclarations(io::Printer* printer); // Generate descriptor prototype void GenerateClosureTypedef(io::Printer* printer); // Generate definitions of all nested enums (must come before class // definitions because those classes use the enums definitions). void GenerateEnumDefinitions(io::Printer* printer); // Generate definitions for this class and all its nested types. void GenerateStructDefinition(io::Printer* printer); // Generate __INIT macro for populating this structure void GenerateStructStaticInitMacro(io::Printer* printer); // Generate standard helper functions declarations for this message. void GenerateHelperFunctionDeclarations(io::Printer* printer, bool is_submessage); // Source file stuff. // Generate code that initializes the global variable storing the message's // descriptor. void GenerateMessageDescriptor(io::Printer* printer); void GenerateHelperFunctionDefinitions(io::Printer* printer, bool is_submessage); private: string GetDefaultValueC(const FieldDescriptor *fd); const Descriptor* descriptor_; string dllexport_decl_; FieldGeneratorMap field_generators_; scoped_array > nested_generators_; scoped_array > enum_generators_; scoped_array > extension_generators_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(MessageGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_MESSAGE_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_helpers.cc0000644000175000017500000003664211536220130020656 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #include #include #include // for snprintf #include #include #include namespace google { namespace protobuf { namespace compiler { namespace c { #if defined(_MSC_VER) // FIXME: In the case where the generated string is longer than the buffer, // _snprint() returns a negative value, where snprintf() returns the number // of characters that *would* have been stored, had there been room. // That is fundamental, as it allows snprintf() to be used to find the size // necessary for the buffer, simply by calling it with the size of the buffer // passed in as zero. // Note: at the present moment return value isn't used in the code. #define snprintf _snprintf #pragma warning(disable:4800) #pragma warning(disable:4996) #endif string DotsToUnderscores(const string& name) { return StringReplace(name, ".", "_", true); } string DotsToColons(const string& name) { return StringReplace(name, ".", "::", true); } string SimpleFtoa(float f) { char buf[100]; snprintf(buf,sizeof(buf),"%.*g", FLT_DIG, f); buf[sizeof(buf)-1] = 0; /* should NOT be necessary */ return buf; } string SimpleDtoa(double d) { char buf[100]; snprintf(buf,sizeof(buf),"%.*g", DBL_DIG, d); buf[sizeof(buf)-1] = 0; /* should NOT be necessary */ return buf; } string CamelToUpper(const string &name) { bool was_upper = true; // suppress initial _ string rv = ""; int len = name.length(); for (int i = 0; i < len; i++) { bool is_upper = isupper(name[i]); if (is_upper) { if (!was_upper) rv += '_'; rv += name[i]; } else { rv += toupper(name[i]); } was_upper = is_upper; } return rv; } string CamelToLower(const string &name) { bool was_upper = true; // suppress initial _ string rv = ""; int len = name.length(); for (int i = 0; i < len; i++) { bool is_upper = isupper(name[i]); if (is_upper) { if (!was_upper) rv += '_'; rv += tolower(name[i]); } else { rv += name[i]; } was_upper = is_upper; } return rv; } string ToUpper(const string &name) { string rv = ""; int len = name.length(); for (int i = 0; i < len; i++) { rv += toupper(name[i]); } return rv; } string ToLower(const string &name) { string rv = ""; int len = name.length(); for (int i = 0; i < len; i++) { rv += tolower(name[i]); } return rv; } string ToCamel(const string &name) { string rv = ""; int len = name.length(); bool next_is_upper = true; for (int i = 0; i < len; i++) { if (name[i] == '_') { next_is_upper = true; } else if (next_is_upper) { rv += toupper (name[i]); next_is_upper = false; } else { rv += name[i]; } } return rv; } string FullNameToLower(const string &full_name) { vector pieces; SplitStringUsing(full_name, ".", &pieces); string rv = ""; for (unsigned i = 0; i < pieces.size(); i++) { if (pieces[i] == "") continue; if (rv != "") rv += "__"; rv += CamelToLower(pieces[i]); } return rv; } string FullNameToUpper(const string &full_name) { vector pieces; SplitStringUsing(full_name, ".", &pieces); string rv = ""; for (unsigned i = 0; i < pieces.size(); i++) { if (pieces[i] == "") continue; if (rv != "") rv += "__"; rv += CamelToUpper(pieces[i]); } return rv; } string FullNameToC(const string &full_name) { vector pieces; SplitStringUsing(full_name, ".", &pieces); string rv = ""; for (unsigned i = 0; i < pieces.size(); i++) { if (pieces[i] == "") continue; if (rv != "") rv += "__"; rv += ToCamel(pieces[i]); } return rv; } string ConvertToSpaces(const string &input) { return string(input.size(), ' '); } int compare_name_indices_by_name(const void *a, const void *b) { const NameIndex *ni_a = (const NameIndex *) a; const NameIndex *ni_b = (const NameIndex *) b; return strcmp (ni_a->name, ni_b->name); } string CEscape(const string& src); const char* const kKeywordList[] = { "and", "and_eq", "asm", "auto", "bitand", "bitor", "bool", "break", "case", "catch", "char", "class", "compl", "const", "const_cast", "continue", "default", "delete", "do", "double", "dynamic_cast", "else", "enum", "explicit", "extern", "false", "float", "for", "friend", "goto", "if", "inline", "int", "long", "mutable", "namespace", "new", "not", "not_eq", "operator", "or", "or_eq", "private", "protected", "public", "register", "reinterpret_cast", "return", "short", "signed", "sizeof", "static", "static_cast", "struct", "switch", "template", "this", "throw", "true", "try", "typedef", "typeid", "typename", "union", "unsigned", "using", "virtual", "void", "volatile", "wchar_t", "while", "xor", "xor_eq" }; std::set MakeKeywordsMap() { set result; for (int i = 0; i < GOOGLE_ARRAYSIZE(kKeywordList); i++) { result.insert(kKeywordList[i]); } return result; } std::set kKeywords = MakeKeywordsMap(); string ClassName(const Descriptor* descriptor, bool qualified) { // Find "outer", the descriptor of the top-level message in which // "descriptor" is embedded. const Descriptor* outer = descriptor; while (outer->containing_type() != NULL) outer = outer->containing_type(); const string& outer_name = outer->full_name(); string inner_name = descriptor->full_name().substr(outer_name.size()); if (qualified) { return "::" + DotsToColons(outer_name) + DotsToUnderscores(inner_name); } else { return outer->name() + DotsToUnderscores(inner_name); } } string ClassName(const EnumDescriptor* enum_descriptor, bool qualified) { if (enum_descriptor->containing_type() == NULL) { if (qualified) { return DotsToColons(enum_descriptor->full_name()); } else { return enum_descriptor->name(); } } else { string result = ClassName(enum_descriptor->containing_type(), qualified); result += '_'; result += enum_descriptor->name(); return result; } } string FieldName(const FieldDescriptor* field) { string result = ToLower(field->name()); if (kKeywords.count(result) > 0) { result.append("_"); } return result; } string FieldDeprecated(const FieldDescriptor* field) { if (field->options().deprecated()) { return " PROTOBUF_C_DEPRECATED"; } return ""; } string StripProto(const string& filename) { if (HasSuffixString(filename, ".protodevel")) { return StripSuffixString(filename, ".protodevel"); } else { return StripSuffixString(filename, ".proto"); } } // Convert a file name into a valid identifier. string FilenameIdentifier(const string& filename) { string result; for (unsigned i = 0; i < filename.size(); i++) { if (isalnum(filename[i])) { result.push_back(filename[i]); } else { // Not alphanumeric. To avoid any possibility of name conflicts we // use the hex code for the character. result.push_back('_'); char buffer[32]; result.append(FastHexToBuffer(static_cast(filename[i]), buffer)); } } return result; } // Return the name of the BuildDescriptors() function for a given file. string GlobalBuildDescriptorsName(const string& filename) { return "proto_BuildDescriptors_" + FilenameIdentifier(filename); } string GetLabelName(FieldDescriptor::Label label) { switch (label) { case FieldDescriptor::LABEL_OPTIONAL: return "optional"; case FieldDescriptor::LABEL_REQUIRED: return "required"; case FieldDescriptor::LABEL_REPEATED: return "repeated"; } return "bad-label"; } unsigned WriteIntRanges(io::Printer* printer, int n_values, const int *values, const string &name) { map vars; vars["name"] = name; if (n_values > 0) { int n_ranges = 1; for (int i = 1; i < n_values; i++) { if (values[i-1] + 1 != values[i]) n_ranges++; } vars["n_ranges"] = SimpleItoa(n_ranges); printer->Print(vars, "static const ProtobufCIntRange $name$[$n_ranges$ + 1] =\n" "{\n"); int last_range_start = 0; for (int i = 1; i < n_values; i++) { if (values[i-1] + 1 != values[i]) { int count = i - last_range_start; int expected = values[i-1] + 1; vars["start_value"] = SimpleItoa(expected - count); vars["orig_offset"] = SimpleItoa(last_range_start); printer->Print (vars, " { $start_value$, $orig_offset$ },\n"); last_range_start = i; } } // write last real entry { int i = n_values; int count = i - last_range_start; int expected = values[i-1] + 1; vars["start_value"] = SimpleItoa(expected - count); vars["orig_offset"] = SimpleItoa(last_range_start); printer->Print (vars, " { $start_value$, $orig_offset$ },\n"); } // write sentinel entry vars["n_entries"] = SimpleItoa(n_values); printer->Print (vars, " { 0, $n_entries$ }\n"); printer->Print (vars, "};\n"); return n_ranges; } else { printer->Print (vars, "#define $name$ NULL\n"); return 0; } } // XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXx // XXXXXXXXX this stuff is copied from strutils.cc !!!! XXXXXXXXXXXXXXXXXXXXXXXXXXXXx // XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXx // ---------------------------------------------------------------------- // StringReplace() // Replace the "old" pattern with the "new" pattern in a string, // and append the result to "res". If replace_all is false, // it only replaces the first instance of "old." // ---------------------------------------------------------------------- void StringReplace(const string& s, const string& oldsub, const string& newsub, bool replace_all, string* res) { if (oldsub.empty()) { res->append(s); // if empty, append the given string. return; } string::size_type start_pos = 0; string::size_type pos; do { pos = s.find(oldsub, start_pos); if (pos == string::npos) { break; } res->append(s, start_pos, pos - start_pos); res->append(newsub); start_pos = pos + oldsub.size(); // start searching again after the "old" } while (replace_all); res->append(s, start_pos, s.length() - start_pos); } // ---------------------------------------------------------------------- // StringReplace() // Give me a string and two patterns "old" and "new", and I replace // the first instance of "old" in the string with "new", if it // exists. If "global" is true; call this repeatedly until it // fails. RETURN a new string, regardless of whether the replacement // happened or not. // ---------------------------------------------------------------------- string StringReplace(const string& s, const string& oldsub, const string& newsub, bool replace_all) { string ret; StringReplace(s, oldsub, newsub, replace_all, &ret); return ret; } // ---------------------------------------------------------------------- // SplitStringUsing() // Split a string using a character delimiter. Append the components // to 'result'. // // Note: For multi-character delimiters, this routine will split on *ANY* of // the characters in the string, not the entire string as a single delimiter. // ---------------------------------------------------------------------- template static inline void SplitStringToIteratorUsing(const string& full, const char* delim, ITR& result) { // Optimize the common case where delim is a single character. if (delim[0] != '\0' && delim[1] == '\0') { char c = delim[0]; const char* p = full.data(); const char* end = p + full.size(); while (p != end) { if (*p == c) { ++p; } else { const char* start = p; while (++p != end && *p != c); *result++ = string(start, p - start); } } return; } string::size_type begin_index, end_index; begin_index = full.find_first_not_of(delim); while (begin_index != string::npos) { end_index = full.find_first_of(delim, begin_index); if (end_index == string::npos) { *result++ = full.substr(begin_index); return; } *result++ = full.substr(begin_index, (end_index - begin_index)); begin_index = full.find_first_not_of(delim, end_index); } } void SplitStringUsing(const string& full, const char* delim, vector* result) { back_insert_iterator< vector > it(*result); SplitStringToIteratorUsing(full, delim, it); } char* FastHexToBuffer(int i, char* buffer) { snprintf(buffer, 16, "%x", i); return buffer; } static int CEscapeInternal(const char* src, int src_len, char* dest, int dest_len, bool use_hex) { const char* src_end = src + src_len; int used = 0; bool last_hex_escape = false; // true if last output char was \xNN for (; src < src_end; src++) { if (dest_len - used < 2) // Need space for two letter escape return -1; bool is_hex_escape = false; switch (*src) { case '\n': dest[used++] = '\\'; dest[used++] = 'n'; break; case '\r': dest[used++] = '\\'; dest[used++] = 'r'; break; case '\t': dest[used++] = '\\'; dest[used++] = 't'; break; case '\"': dest[used++] = '\\'; dest[used++] = '\"'; break; case '\'': dest[used++] = '\\'; dest[used++] = '\''; break; case '\\': dest[used++] = '\\'; dest[used++] = '\\'; break; default: // Note that if we emit \xNN and the src character after that is a hex // digit then that digit must be escaped too to prevent it being // interpreted as part of the character code by C. if (!isprint(*src) || (last_hex_escape && isxdigit(*src))) { if (dest_len - used < 4) // need space for 4 letter escape return -1; sprintf(dest + used, (use_hex ? "\\x%02x" : "\\%03o"), static_cast(*src)); is_hex_escape = use_hex; used += 4; } else { dest[used++] = *src; break; } } last_hex_escape = is_hex_escape; } if (dest_len - used < 1) // make sure that there is room for \0 return -1; dest[used] = '\0'; // doesn't count towards return value though return used; } string CEscape(const string& src) { const int dest_length = src.size() * 4 + 1; // Maximum possible expansion scoped_array dest(new char[dest_length]); const int len = CEscapeInternal(src.data(), src.size(), dest.get(), dest_length, false); GOOGLE_DCHECK_GE(len, 0); return string(dest.get(), len); } } // namespace c } // namespace compiler } // namespace protobuf } // namespace google protobuf-c-0.15/src/google/protobuf/compiler/c/c_field.h0000644000175000017500000000570511332660134020143 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_FIELD_H__ #define GOOGLE_PROTOBUF_COMPILER_C_FIELD_H__ #include #include namespace google { namespace protobuf { namespace io { class Printer; // printer.h } } namespace protobuf { namespace compiler { namespace c { class FieldGenerator { public: explicit FieldGenerator(const FieldDescriptor *descriptor) : descriptor_(descriptor) {} virtual ~FieldGenerator(); // Generate definitions to be included in the structure. virtual void GenerateStructMembers(io::Printer* printer) const = 0; // Generate a static initializer for this field. virtual void GenerateDescriptorInitializer(io::Printer* printer) const = 0; virtual void GenerateDefaultValueDeclarations(io::Printer* printer) const { } virtual void GenerateDefaultValueImplementations(io::Printer* printer) const { } virtual string GetDefaultValue() const = 0; // Generate members to initialize this field from a static initializer virtual void GenerateStaticInit(io::Printer* printer) const = 0; protected: void GenerateDescriptorInitializerGeneric(io::Printer* printer, bool optional_uses_has, const string &type_macro, const string &descriptor_addr) const; const FieldDescriptor *descriptor_; private: GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(FieldGenerator); }; // Convenience class which constructs FieldGenerators for a Descriptor. class FieldGeneratorMap { public: explicit FieldGeneratorMap(const Descriptor* descriptor); ~FieldGeneratorMap(); const FieldGenerator& get(const FieldDescriptor* field) const; private: const Descriptor* descriptor_; scoped_array > field_generators_; static FieldGenerator* MakeGenerator(const FieldDescriptor* field); GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(FieldGeneratorMap); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_FIELD_H__ protobuf-c-0.15/src/google/protobuf/compiler/c/c_file.h0000644000175000017500000000453011332660134017772 00000000000000// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. // http://code.google.com/p/protobuf/ // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // Modified to implement C code by Dave Benson. #ifndef GOOGLE_PROTOBUF_COMPILER_C_FILE_H__ #define GOOGLE_PROTOBUF_COMPILER_C_FILE_H__ #include #include #include #include namespace google { namespace protobuf { class FileDescriptor; // descriptor.h namespace io { class Printer; // printer.h } } namespace protobuf { namespace compiler { namespace c { class EnumGenerator; // enum.h class MessageGenerator; // message.h class ServiceGenerator; // service.h class ExtensionGenerator; // extension.h class FileGenerator { public: // See generator.cc for the meaning of dllexport_decl. explicit FileGenerator(const FileDescriptor* file, const string& dllexport_decl); ~FileGenerator(); void GenerateHeader(io::Printer* printer); void GenerateSource(io::Printer* printer); private: const FileDescriptor* file_; scoped_array > message_generators_; scoped_array > enum_generators_; scoped_array > service_generators_; scoped_array > extension_generators_; // E.g. if the package is foo.bar, package_parts_ is {"foo", "bar"}. vector package_parts_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(FileGenerator); }; } // namespace c } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_C_FILE_H__ protobuf-c-0.15/src/google/protobuf-c/0000777000175000017500000000000011536221215014645 500000000000000protobuf-c-0.15/src/google/protobuf-c/protobuf-c-private.h0000644000175000017500000000544111332660134020467 00000000000000/* --- protobuf-c-private.h: private structures and functions --- */ /* * Copyright 2008, Dave Benson. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with * the License. You may obtain a copy of the License * at http://www.apache.org/licenses/LICENSE-2.0 Unless * required by applicable law or agreed to in writing, * software distributed under the License is distributed on * an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ /* === needs to be declared for the PROTOBUF_C_BUFFER_SIMPLE_INIT macro === */ void protobuf_c_buffer_simple_append (ProtobufCBuffer *buffer, size_t len, const unsigned char *data); /* === stuff which needs to be declared for use in the generated code === */ struct _ProtobufCEnumValueIndex { const char *name; unsigned index; /* into values[] array */ }; /* IntRange: helper structure for optimizing int => index lookups in the case where the keys are mostly consecutive values, as they presumably are for enums and fields. The data structures assumes that the values in the original array are sorted */ struct _ProtobufCIntRange { int start_value; unsigned orig_index; /* NOTE: the number of values in the range can be inferred by looking at the next element's orig_index. a dummy element is added to make this simple */ }; /* === declared for exposition on ProtobufCIntRange === */ /* note: ranges must have an extra sentinel IntRange at the end whose orig_index is set to the number of actual values in the original array */ /* returns -1 if no orig_index found */ int protobuf_c_int_ranges_lookup (unsigned n_ranges, ProtobufCIntRange *ranges); #define PROTOBUF_C_SERVICE_DESCRIPTOR_MAGIC 0x14159bc3 #define PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC 0x28aaeef9 #define PROTOBUF_C_ENUM_DESCRIPTOR_MAGIC 0x114315af /* === behind the scenes on the generated service's __init functions */ typedef void (*ProtobufCServiceDestroy) (ProtobufCService *service); void protobuf_c_service_generated_init (ProtobufCService *service, const ProtobufCServiceDescriptor *descriptor, ProtobufCServiceDestroy destroy); void protobuf_c_service_invoke_internal(ProtobufCService *service, unsigned method_index, const ProtobufCMessage *input, ProtobufCClosure closure, void *closure_data); protobuf-c-0.15/src/google/protobuf-c/protobuf-c-data-buffer.h0000644000175000017500000001150711332660134021175 00000000000000 #ifndef __PROTOBUF_C_DATA_BUFFER_H_ #define __PROTOBUF_C_DATA_BUFFER_H_ #include "protobuf-c.h" #include typedef struct _ProtobufCDataBuffer ProtobufCDataBuffer; typedef struct _ProtobufCDataBufferFragment ProtobufCDataBufferFragment; struct _ProtobufCDataBufferFragment { ProtobufCDataBufferFragment *next; unsigned buf_start; /* offset in buf of valid data */ unsigned buf_length; /* length of valid data in buf */ }; struct _ProtobufCDataBuffer { size_t size; ProtobufCDataBufferFragment *first_frag; ProtobufCDataBufferFragment *last_frag; ProtobufCAllocator *allocator; }; void protobuf_c_data_buffer_init (ProtobufCDataBuffer *buffer, ProtobufCAllocator *allocator); void protobuf_c_data_buffer_clear (ProtobufCDataBuffer *buffer); void protobuf_c_data_buffer_reset (ProtobufCDataBuffer *buffer); size_t protobuf_c_data_buffer_read (ProtobufCDataBuffer *buffer, void* data, size_t max_length); size_t protobuf_c_data_buffer_peek (const ProtobufCDataBuffer* buffer, void* data, size_t max_length); size_t protobuf_c_data_buffer_discard (ProtobufCDataBuffer *buffer, size_t max_discard); char *protobuf_c_data_buffer_read_line (ProtobufCDataBuffer *buffer); char *protobuf_c_data_buffer_parse_string0 (ProtobufCDataBuffer *buffer); /* Returns first char of buffer, or -1. */ int protobuf_c_data_buffer_peek_char (const ProtobufCDataBuffer *buffer); int protobuf_c_data_buffer_read_char (ProtobufCDataBuffer *buffer); int protobuf_c_data_buffer_index_of(ProtobufCDataBuffer *buffer, char char_to_find); /* * Appending to the buffer. */ void protobuf_c_data_buffer_append (ProtobufCDataBuffer *buffer, const void *data, size_t length); void protobuf_c_data_buffer_append_string (ProtobufCDataBuffer *buffer, const char *string); void protobuf_c_data_buffer_append_char (ProtobufCDataBuffer *buffer, char character); void protobuf_c_data_buffer_append_repeated_char(ProtobufCDataBuffer *buffer, char character, size_t count); #define protobuf_c_data_buffer_append_zeros(buffer, count) \ protobuf_c_data_buffer_append_repeated_char ((buffer), 0, (count)) /* XXX: protobuf_c_data_buffer_append_repeated_data() is UNIMPLEMENTED */ void protobuf_c_data_buffer_append_repeated_data(ProtobufCDataBuffer *buffer, const void *data_to_repeat, size_t data_length, size_t count); void protobuf_c_data_buffer_append_string0 (ProtobufCDataBuffer *buffer, const char *string); /* Take all the contents from src and append * them to dst, leaving src empty. */ size_t protobuf_c_data_buffer_drain (ProtobufCDataBuffer *dst, ProtobufCDataBuffer *src); /* Like `drain', but only transfers some of the data. */ size_t protobuf_c_data_buffer_transfer (ProtobufCDataBuffer *dst, ProtobufCDataBuffer *src, size_t max_transfer); /* file-descriptor mucking */ int protobuf_c_data_buffer_writev (ProtobufCDataBuffer *read_from, int fd); int protobuf_c_data_buffer_writev_len (ProtobufCDataBuffer *read_from, int fd, size_t max_bytes); int protobuf_c_data_buffer_read_in_fd (ProtobufCDataBuffer *write_to, int read_from); /* This deallocates memory used by the buffer-- you are responsible * for the allocation and deallocation of the ProtobufCDataBuffer itself. */ void protobuf_c_data_buffer_destruct (ProtobufCDataBuffer *to_destroy); /* Free all unused buffer fragments. */ void protobuf_c_data_buffer_cleanup_recycling_bin (); #endif protobuf-c-0.15/src/google/protobuf-c/protobuf-c-rpc.c0000644000175000017500000013214411536220130017567 00000000000000/* KNOWN DEFECTS: - server does not obey max_pending_requests_per_connection - no ipv6 support */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "protobuf-c-rpc.h" #include "protobuf-c-data-buffer.h" #include "gsklistmacros.h" #define protobuf_c_assert(x) assert(x) #undef TRUE #define TRUE 1 #undef FALSE #define FALSE 0 /* enabled for efficiency, can be useful to disable for debugging */ #define RECYCLE_REQUESTS 1 #define UINT_TO_POINTER(ui) ((void*)(uintptr_t)(ui)) #define POINTER_TO_UINT(ptr) ((unsigned)(uintptr_t)(ptr)) #define MAX_FAILED_MSG_LENGTH 512 typedef enum { PROTOBUF_C_CLIENT_STATE_INIT, PROTOBUF_C_CLIENT_STATE_NAME_LOOKUP, PROTOBUF_C_CLIENT_STATE_CONNECTING, PROTOBUF_C_CLIENT_STATE_CONNECTED, PROTOBUF_C_CLIENT_STATE_FAILED_WAITING, PROTOBUF_C_CLIENT_STATE_FAILED, /* if no autoreconnect */ PROTOBUF_C_CLIENT_STATE_DESTROYED } ProtobufC_RPC_ClientState; typedef struct _Closure Closure; struct _Closure { /* these will be NULL for unallocated request ids */ const ProtobufCMessageDescriptor *response_type; ProtobufCClosure closure; /* this is the next request id, or 0 for none */ void *closure_data; }; static void error_handler (ProtobufC_RPC_Error_Code code, const char *message, void *error_func_data) { fprintf (stderr, "*** error: %s: %s\n", (char*) error_func_data, message); } struct _ProtobufC_RPC_Client { ProtobufCService base_service; ProtobufCDataBuffer incoming; ProtobufCDataBuffer outgoing; ProtobufCAllocator *allocator; ProtobufCDispatch *dispatch; ProtobufC_RPC_AddressType address_type; char *name; ProtobufC_FD fd; protobuf_c_boolean autoreconnect; unsigned autoreconnect_millis; ProtobufC_NameLookup_Func resolver; ProtobufC_RPC_Error_Func error_handler; void *error_handler_data; ProtobufC_RPC_ClientState state; union { struct { ProtobufCDispatchIdle *idle; } init; struct { protobuf_c_boolean pending; protobuf_c_boolean destroyed_while_pending; uint16_t port; } name_lookup; struct { unsigned closures_alloced; unsigned first_free_request_id; /* indexed by (request_id-1) */ Closure *closures; } connected; struct { ProtobufCDispatchTimer *timer; char *error_message; } failed_waiting; struct { char *error_message; } failed; } info; }; static void begin_name_lookup (ProtobufC_RPC_Client *client); static void destroy_client_rpc (ProtobufCService *service); static void set_fd_nonblocking(int fd) { int flags = fcntl (fd, F_GETFL); protobuf_c_assert (flags >= 0); fcntl (fd, F_SETFL, flags | O_NONBLOCK); } static void handle_autoreconnect_timeout (ProtobufCDispatch *dispatch, void *func_data) { ProtobufC_RPC_Client *client = func_data; protobuf_c_assert (client->state == PROTOBUF_C_CLIENT_STATE_FAILED_WAITING); client->allocator->free (client->allocator, client->info.failed_waiting.error_message); begin_name_lookup (client); } static void client_failed (ProtobufC_RPC_Client *client, const char *format_str, ...) { va_list args; char buf[MAX_FAILED_MSG_LENGTH]; size_t msg_len; char *msg; size_t n_closures = 0; Closure *closures = NULL; switch (client->state) { case PROTOBUF_C_CLIENT_STATE_NAME_LOOKUP: protobuf_c_assert (!client->info.name_lookup.pending); break; case PROTOBUF_C_CLIENT_STATE_CONNECTING: /* nothing to do */ break; case PROTOBUF_C_CLIENT_STATE_CONNECTED: n_closures = client->info.connected.closures_alloced; closures = client->info.connected.closures; break; /* should not get here */ case PROTOBUF_C_CLIENT_STATE_INIT: case PROTOBUF_C_CLIENT_STATE_FAILED_WAITING: case PROTOBUF_C_CLIENT_STATE_FAILED: case PROTOBUF_C_CLIENT_STATE_DESTROYED: protobuf_c_assert (FALSE); break; } if (client->fd >= 0) { protobuf_c_dispatch_close_fd (client->dispatch, client->fd); client->fd = -1; } protobuf_c_data_buffer_reset (&client->incoming); protobuf_c_data_buffer_reset (&client->outgoing); /* Compute the message */ va_start (args, format_str); vsnprintf (buf, sizeof (buf), format_str, args); va_end (args); buf[sizeof(buf)-1] = 0; msg_len = strlen (buf); msg = client->allocator->alloc (client->allocator, msg_len + 1); strcpy (msg, buf); /* go to one of the failed states */ if (client->autoreconnect) { client->state = PROTOBUF_C_CLIENT_STATE_FAILED_WAITING; client->info.failed_waiting.timer = protobuf_c_dispatch_add_timer_millis (client->dispatch, client->autoreconnect_millis, handle_autoreconnect_timeout, client); client->info.failed_waiting.error_message = msg; } else { client->state = PROTOBUF_C_CLIENT_STATE_FAILED; client->info.failed.error_message = msg; } /* we defer calling the closures to avoid any re-entrancy issues (e.g. people further RPC should not see a socket in the "connected" state-- at least, it shouldn't be accessing the array of closures that we are considering */ if (closures != NULL) { unsigned i; for (i = 0; i < n_closures; i++) if (closures[i].response_type != NULL) closures[i].closure (NULL, closures[i].closure_data); client->allocator->free (client->allocator, closures); } } static inline protobuf_c_boolean errno_is_ignorable (int e) { #ifdef EWOULDBLOCK /* for windows */ if (e == EWOULDBLOCK) return 1; #endif return e == EINTR || e == EAGAIN; } static void set_state_connected (ProtobufC_RPC_Client *client) { client->state = PROTOBUF_C_CLIENT_STATE_CONNECTED; client->info.connected.closures_alloced = 1; client->info.connected.first_free_request_id = 1; client->info.connected.closures = client->allocator->alloc (client->allocator, sizeof (Closure)); client->info.connected.closures[0].closure = NULL; client->info.connected.closures[0].response_type = NULL; client->info.connected.closures[0].closure_data = UINT_TO_POINTER (0); } static void handle_client_fd_connect_events (int fd, unsigned events, void *callback_data) { ProtobufC_RPC_Client *client = callback_data; socklen_t size_int = sizeof (int); int fd_errno = EINVAL; if (getsockopt (fd, SOL_SOCKET, SO_ERROR, &fd_errno, &size_int) < 0) { /* Note: this behavior is vaguely hypothetically broken, * in terms of ignoring getsockopt's error; * however, this shouldn't happen, and EINVAL is ok if it does. * Furthermore some broken OS's return an error code when * fetching SO_ERROR! */ } if (fd_errno == 0) { /* goto state CONNECTED */ protobuf_c_dispatch_watch_fd (client->dispatch, client->fd, 0, NULL, NULL); set_state_connected (client); } else if (errno_is_ignorable (fd_errno)) { /* remain in CONNECTING state */ return; } else { /* Call error handler */ protobuf_c_dispatch_close_fd (client->dispatch, client->fd); client_failed (client, "failed connecting to server: %s", strerror (fd_errno)); } } static void begin_connecting (ProtobufC_RPC_Client *client, struct sockaddr *address, size_t addr_len) { protobuf_c_assert (client->state == PROTOBUF_C_CLIENT_STATE_NAME_LOOKUP); client->state = PROTOBUF_C_CLIENT_STATE_CONNECTING; client->fd = socket (address->sa_family, SOCK_STREAM, 0); if (client->fd < 0) { client_failed (client, "error creating socket: %s", strerror (errno)); return; } set_fd_nonblocking (client->fd); if (connect (client->fd, address, addr_len) < 0) { if (errno == EINPROGRESS) { /* register interest in fd */ protobuf_c_dispatch_watch_fd (client->dispatch, client->fd, PROTOBUF_C_EVENT_READABLE|PROTOBUF_C_EVENT_WRITABLE, handle_client_fd_connect_events, client); return; } close (client->fd); client->fd = -1; client_failed (client, "error connecting to remote host: %s", strerror (errno)); return; } set_state_connected (client); } static void handle_name_lookup_success (const uint8_t *address, void *callback_data) { ProtobufC_RPC_Client *client = callback_data; struct sockaddr_in addr; protobuf_c_assert (client->state == PROTOBUF_C_CLIENT_STATE_NAME_LOOKUP); protobuf_c_assert (client->info.name_lookup.pending); client->info.name_lookup.pending = 0; if (client->info.name_lookup.destroyed_while_pending) { destroy_client_rpc (&client->base_service); return; } memset (&addr, 0, sizeof (addr)); addr.sin_family = AF_INET; memcpy (&addr.sin_addr, address, 4); addr.sin_port = htons (client->info.name_lookup.port); begin_connecting (client, (struct sockaddr *) &addr, sizeof (addr)); } static void handle_name_lookup_failure (const char *error_message, void *callback_data) { ProtobufC_RPC_Client *client = callback_data; protobuf_c_assert (client->state == PROTOBUF_C_CLIENT_STATE_NAME_LOOKUP); protobuf_c_assert (client->info.name_lookup.pending); client->info.name_lookup.pending = 0; if (client->info.name_lookup.destroyed_while_pending) { destroy_client_rpc (&client->base_service); return; } client_failed (client, "name lookup failed (for name from %s): %s", client->name, error_message); } static void begin_name_lookup (ProtobufC_RPC_Client *client) { protobuf_c_assert (client->state == PROTOBUF_C_CLIENT_STATE_INIT || client->state == PROTOBUF_C_CLIENT_STATE_FAILED_WAITING || client->state == PROTOBUF_C_CLIENT_STATE_FAILED); client->state = PROTOBUF_C_CLIENT_STATE_NAME_LOOKUP; client->info.name_lookup.pending = 0; switch (client->address_type) { case PROTOBUF_C_RPC_ADDRESS_LOCAL: { struct sockaddr_un addr; addr.sun_family = AF_UNIX; strncpy (addr.sun_path, client->name, sizeof (addr.sun_path)); begin_connecting (client, (struct sockaddr *) &addr, sizeof (addr)); return; } case PROTOBUF_C_RPC_ADDRESS_TCP: { /* parse hostname:port from client->name */ const char *colon = strchr (client->name, ':'); char *host; unsigned port; if (colon == NULL) { client_failed (client, "name '%s' does not have a : in it (supposed to be HOST:PORT)", client->name); return; } host = client->allocator->alloc (client->allocator, colon + 1 - client->name); memcpy (host, client->name, colon - client->name); host[colon - client->name] = 0; port = atoi (colon + 1); client->info.name_lookup.pending = 1; client->info.name_lookup.destroyed_while_pending = 0; client->info.name_lookup.port = port; client->resolver (client->dispatch, host, handle_name_lookup_success, handle_name_lookup_failure, client); /* cleanup */ client->allocator->free (client->allocator, host); return; } default: assert (0); } } static void handle_init_idle (ProtobufCDispatch *dispatch, void *data) { ProtobufC_RPC_Client *client = data; protobuf_c_assert (client->state == PROTOBUF_C_CLIENT_STATE_INIT); begin_name_lookup (client); } static void grow_closure_array (ProtobufC_RPC_Client *client) { /* resize array */ unsigned old_size = client->info.connected.closures_alloced; unsigned new_size = old_size * 2; unsigned i; Closure *new_closures = client->allocator->alloc (client->allocator, sizeof (Closure) * new_size); memcpy (new_closures, client->info.connected.closures, sizeof (Closure) * old_size); /* build new free list */ for (i = old_size; i < new_size - 1; i++) { new_closures[i].response_type = NULL; new_closures[i].closure = NULL; new_closures[i].closure_data = UINT_TO_POINTER (i+2); } new_closures[i].closure_data = UINT_TO_POINTER (client->info.connected.first_free_request_id); new_closures[i].response_type = NULL; new_closures[i].closure = NULL; client->info.connected.first_free_request_id = old_size + 1; client->allocator->free (client->allocator, client->info.connected.closures); client->info.connected.closures = new_closures; client->info.connected.closures_alloced = new_size; } static uint32_t uint32_to_le (uint32_t le) { #if IS_LITTLE_ENDIAN return le; #else return (le << 24) | (le >> 24) | ((le >> 8) & 0xff00) | ((le << 8) & 0xff0000); #endif } #define uint32_from_le uint32_to_le /* make the code more readable, i guess */ static void enqueue_request (ProtobufC_RPC_Client *client, unsigned method_index, const ProtobufCMessage *input, ProtobufCClosure closure, void *closure_data) { uint32_t request_id; struct { uint32_t method_index; uint32_t packed_size; uint32_t request_id; } header; size_t packed_size; uint8_t *packed_data; Closure *cl; const ProtobufCServiceDescriptor *desc = client->base_service.descriptor; const ProtobufCMethodDescriptor *method = desc->methods + method_index; protobuf_c_assert (method_index < desc->n_methods); /* Allocate request_id */ protobuf_c_assert (client->state == PROTOBUF_C_CLIENT_STATE_CONNECTED); if (client->info.connected.first_free_request_id == 0) grow_closure_array (client); request_id = client->info.connected.first_free_request_id; cl = client->info.connected.closures + (request_id - 1); client->info.connected.first_free_request_id = POINTER_TO_UINT (cl->closure_data); /* Pack message */ packed_size = protobuf_c_message_get_packed_size (input); if (packed_size < client->allocator->max_alloca) packed_data = alloca (packed_size); else packed_data = client->allocator->alloc (client->allocator, packed_size); protobuf_c_message_pack (input, packed_data); /* Append to buffer */ protobuf_c_assert (sizeof (header) == 12); header.method_index = uint32_to_le (method_index); header.packed_size = uint32_to_le (packed_size); header.request_id = request_id; protobuf_c_data_buffer_append (&client->outgoing, &header, 12); protobuf_c_data_buffer_append (&client->outgoing, packed_data, packed_size); /* Clean up if not using alloca() */ if (packed_size >= client->allocator->max_alloca) client->allocator->free (client->allocator, packed_data); /* Add closure to request-tree */ cl->response_type = method->output; cl->closure = closure; cl->closure_data = closure_data; } static void handle_client_fd_events (int fd, unsigned events, void *func_data) { ProtobufC_RPC_Client *client = func_data; protobuf_c_assert (client->state == PROTOBUF_C_CLIENT_STATE_CONNECTED); if (events & PROTOBUF_C_EVENT_WRITABLE) { int write_rv = protobuf_c_data_buffer_writev (&client->outgoing, client->fd); if (write_rv < 0 && !errno_is_ignorable (errno)) { client_failed (client, "writing to file-descriptor: %s", strerror (errno)); return; } if (client->outgoing.size == 0) protobuf_c_dispatch_watch_fd (client->dispatch, client->fd, PROTOBUF_C_EVENT_READABLE, handle_client_fd_events, client); } if (events & PROTOBUF_C_EVENT_READABLE) { /* do read */ int read_rv = protobuf_c_data_buffer_read_in_fd (&client->incoming, client->fd); if (read_rv < 0) { if (!errno_is_ignorable (errno)) { client_failed (client, "reading from file-descriptor: %s", strerror (errno)); } } else if (read_rv == 0) { /* handle eof */ client_failed (client, "got end-of-file from server [%u bytes incoming, %u bytes outgoing]", client->incoming.size, client->outgoing.size); } else { /* try processing buffer */ while (client->incoming.size >= 16) { uint32_t header[4]; unsigned status_code, method_index, message_length, request_id; Closure *closure; uint8_t *packed_data; ProtobufCMessage *msg; protobuf_c_data_buffer_peek (&client->incoming, header, sizeof (header)); status_code = uint32_from_le (header[0]); method_index = uint32_from_le (header[1]); message_length = uint32_from_le (header[2]); request_id = header[3]; /* already native-endian */ if (16 + message_length > client->incoming.size) break; /* lookup request by id */ if (request_id > client->info.connected.closures_alloced || request_id == 0 || client->info.connected.closures[request_id-1].response_type == NULL) { client_failed (client, "bad request-id in response from server"); return; } closure = client->info.connected.closures + (request_id - 1); /* read message and unpack */ protobuf_c_data_buffer_discard (&client->incoming, 16); packed_data = client->allocator->alloc (client->allocator, message_length); protobuf_c_data_buffer_read (&client->incoming, packed_data, message_length); /* TODO: use fast temporary allocator */ msg = protobuf_c_message_unpack (closure->response_type, client->allocator, message_length, packed_data); if (msg == NULL) { fprintf(stderr, "unable to unpack msg of length %u", message_length); client_failed (client, "failed to unpack message"); client->allocator->free (client->allocator, packed_data); return; } /* invoke closure */ closure->closure (msg, closure->closure_data); closure->response_type = NULL; closure->closure = NULL; closure->closure_data = UINT_TO_POINTER (client->info.connected.first_free_request_id); client->info.connected.first_free_request_id = request_id; /* clean up */ protobuf_c_message_free_unpacked (msg, client->allocator); client->allocator->free (client->allocator, packed_data); } } } } static void update_connected_client_watch (ProtobufC_RPC_Client *client) { unsigned events = PROTOBUF_C_EVENT_READABLE; protobuf_c_assert (client->state == PROTOBUF_C_CLIENT_STATE_CONNECTED); protobuf_c_assert (client->fd >= 0); if (client->outgoing.size > 0) events |= PROTOBUF_C_EVENT_WRITABLE; protobuf_c_dispatch_watch_fd (client->dispatch, client->fd, events, handle_client_fd_events, client); } static void invoke_client_rpc (ProtobufCService *service, unsigned method_index, const ProtobufCMessage *input, ProtobufCClosure closure, void *closure_data) { ProtobufC_RPC_Client *client = (ProtobufC_RPC_Client *) service; protobuf_c_assert (service->invoke == invoke_client_rpc); switch (client->state) { case PROTOBUF_C_CLIENT_STATE_INIT: case PROTOBUF_C_CLIENT_STATE_NAME_LOOKUP: case PROTOBUF_C_CLIENT_STATE_CONNECTING: enqueue_request (client, method_index, input, closure, closure_data); break; case PROTOBUF_C_CLIENT_STATE_CONNECTED: { int had_outgoing = (client->outgoing.size > 0); enqueue_request (client, method_index, input, closure, closure_data); if (!had_outgoing) update_connected_client_watch (client); } break; case PROTOBUF_C_CLIENT_STATE_FAILED_WAITING: case PROTOBUF_C_CLIENT_STATE_FAILED: case PROTOBUF_C_CLIENT_STATE_DESTROYED: closure (NULL, closure_data); break; } } static void destroy_client_rpc (ProtobufCService *service) { ProtobufC_RPC_Client *client = (ProtobufC_RPC_Client *) service; ProtobufC_RPC_ClientState state = client->state; unsigned i; unsigned n_closures = 0; Closure *closures = NULL; switch (state) { case PROTOBUF_C_CLIENT_STATE_INIT: protobuf_c_dispatch_remove_idle (client->info.init.idle); break; case PROTOBUF_C_CLIENT_STATE_NAME_LOOKUP: if (client->info.name_lookup.pending) { client->info.name_lookup.destroyed_while_pending = 1; return; } break; case PROTOBUF_C_CLIENT_STATE_CONNECTING: break; case PROTOBUF_C_CLIENT_STATE_CONNECTED: n_closures = client->info.connected.closures_alloced; closures = client->info.connected.closures; break; case PROTOBUF_C_CLIENT_STATE_FAILED_WAITING: protobuf_c_dispatch_remove_timer (client->info.failed_waiting.timer); client->allocator->free (client->allocator, client->info.failed_waiting.error_message); break; case PROTOBUF_C_CLIENT_STATE_FAILED: client->allocator->free (client->allocator, client->info.failed.error_message); break; case PROTOBUF_C_CLIENT_STATE_DESTROYED: protobuf_c_assert (0); break; } if (client->fd >= 0) { protobuf_c_dispatch_close_fd (client->dispatch, client->fd); client->fd = -1; } protobuf_c_data_buffer_clear (&client->incoming); protobuf_c_data_buffer_clear (&client->outgoing); client->state = PROTOBUF_C_CLIENT_STATE_DESTROYED; client->allocator->free (client->allocator, client->name); /* free closures only once we are in the destroyed state */ for (i = 0; i < n_closures; i++) if (closures[i].response_type != NULL) closures[i].closure (NULL, closures[i].closure_data); if (closures) client->allocator->free (client->allocator, closures); client->allocator->free (client->allocator, client); } static void trivial_sync_libc_resolver (ProtobufCDispatch *dispatch, const char *name, ProtobufC_NameLookup_Found found_func, ProtobufC_NameLookup_Failed failed_func, void *callback_data) { struct hostent *ent; ent = gethostbyname (name); if (ent == NULL) failed_func (hstrerror (h_errno), callback_data); else found_func ((const uint8_t *) ent->h_addr_list[0], callback_data); } ProtobufCService *protobuf_c_rpc_client_new (ProtobufC_RPC_AddressType type, const char *name, const ProtobufCServiceDescriptor *descriptor, ProtobufCDispatch *orig_dispatch) { ProtobufCDispatch *dispatch = orig_dispatch ? orig_dispatch : protobuf_c_dispatch_default (); ProtobufCAllocator *allocator = protobuf_c_dispatch_peek_allocator (dispatch); ProtobufC_RPC_Client *rv = allocator->alloc (allocator, sizeof (ProtobufC_RPC_Client)); rv->base_service.descriptor = descriptor; rv->base_service.invoke = invoke_client_rpc; rv->base_service.destroy = destroy_client_rpc; protobuf_c_data_buffer_init (&rv->incoming, allocator); protobuf_c_data_buffer_init (&rv->outgoing, allocator); rv->allocator = allocator; rv->dispatch = dispatch; rv->address_type = type; rv->name = strcpy (allocator->alloc (allocator, strlen (name) + 1), name); rv->state = PROTOBUF_C_CLIENT_STATE_INIT; rv->fd = -1; rv->autoreconnect = 1; rv->autoreconnect_millis = 2*1000; rv->resolver = trivial_sync_libc_resolver; rv->error_handler = error_handler; rv->error_handler_data = "protobuf-c rpc client"; rv->info.init.idle = protobuf_c_dispatch_add_idle (dispatch, handle_init_idle, rv); return &rv->base_service; } protobuf_c_boolean protobuf_c_rpc_client_is_connected (ProtobufC_RPC_Client *client) { return client->state == PROTOBUF_C_CLIENT_STATE_CONNECTED; } void protobuf_c_rpc_client_set_autoreconnect_period (ProtobufC_RPC_Client *client, unsigned millis) { client->autoreconnect = 1; client->autoreconnect_millis = millis; } void protobuf_c_rpc_client_set_error_handler (ProtobufC_RPC_Client *client, ProtobufC_RPC_Error_Func func, void *func_data) { client->error_handler = func; client->error_handler_data = func_data; } void protobuf_c_rpc_client_disable_autoreconnect (ProtobufC_RPC_Client *client) { client->autoreconnect = 0; } /* === Server === */ typedef struct _ServerRequest ServerRequest; typedef struct _ServerConnection ServerConnection; struct _ServerRequest { uint32_t request_id; /* in little-endian */ uint32_t method_index; /* in native-endian */ ServerConnection *conn; union { /* if conn != NULL, then the request is alive: */ struct { ServerRequest *prev, *next; } alive; /* if conn == NULL, then the request is defunct: */ struct { ProtobufCAllocator *allocator; } defunct; /* well, if it is in the recycled list, then it's recycled :/ */ struct { ServerRequest *next; } recycled; } info; }; struct _ServerConnection { int fd; ProtobufCDataBuffer incoming, outgoing; ProtobufC_RPC_Server *server; ServerConnection *prev, *next; unsigned n_pending_requests; ServerRequest *first_pending_request, *last_pending_request; }; struct _ProtobufC_RPC_Server { ProtobufCDispatch *dispatch; ProtobufCAllocator *allocator; ProtobufCService *underlying; ProtobufC_RPC_AddressType address_type; char *bind_name; ServerConnection *first_connection, *last_connection; ProtobufC_FD listening_fd; ServerRequest *recycled_requests; ProtobufC_RPC_Error_Func error_handler; void *error_handler_data; /* configuration */ unsigned max_pending_requests_per_connection; }; #define GET_PENDING_REQUEST_LIST(conn) \ ServerRequest *, conn->first_pending_request, conn->last_pending_request, info.alive.prev, info.alive.next #define GET_CONNECTION_LIST(server) \ ServerConnection *, server->first_connection, server->last_connection, prev, next static void server_connection_close (ServerConnection *conn) { ProtobufCAllocator *allocator = conn->server->allocator; /* general cleanup */ protobuf_c_dispatch_close_fd (conn->server->dispatch, conn->fd); conn->fd = -1; protobuf_c_data_buffer_clear (&conn->incoming); protobuf_c_data_buffer_clear (&conn->outgoing); /* remove this connection from the server's list */ GSK_LIST_REMOVE (GET_CONNECTION_LIST (conn->server), conn); /* disassocate all the requests from the connection */ while (conn->first_pending_request != NULL) { ServerRequest *req = conn->first_pending_request; conn->first_pending_request = req->info.alive.next; req->conn = NULL; req->info.defunct.allocator = allocator; } /* free the connection itself */ allocator->free (allocator, conn); } static void server_failed_literal (ProtobufC_RPC_Server *server, ProtobufC_RPC_Error_Code code, const char *msg) { if (server->error_handler != NULL) server->error_handler (code, msg, server->error_handler_data); } #if 0 static void server_failed (ProtobufC_RPC_Server *server, ProtobufC_RPC_Error_Code code, const char *format, ...) { va_list args; char buf[MAX_FAILED_MSG_LENGTH]; va_start (args, format); vsnprintf (buf, sizeof (buf), format, args); buf[sizeof(buf)-1] = 0; va_end (args); server_failed_literal (server, code, buf); } #endif static protobuf_c_boolean address_to_name (const struct sockaddr *addr, unsigned addr_len, char *name_out, unsigned name_out_buf_length) { if (addr->sa_family == PF_INET) { /* convert to dotted address + port */ const struct sockaddr_in *addr_in = (const struct sockaddr_in *) addr; const uint8_t *addr = (const uint8_t *) &(addr_in->sin_addr); uint16_t port = htons (addr_in->sin_port); snprintf (name_out, name_out_buf_length, "%u.%u.%u.%u:%u", addr[0], addr[1], addr[2], addr[3], port); return TRUE; } return FALSE; } static void server_connection_failed (ServerConnection *conn, ProtobufC_RPC_Error_Code code, const char *format, ...) { char remote_addr_name[64]; char msg[MAX_FAILED_MSG_LENGTH]; char *msg_end = msg + sizeof (msg); char *msg_at; struct sockaddr addr; socklen_t addr_len = sizeof (addr); va_list args; /* if we can, find the remote name of this connection */ if (getpeername (conn->fd, &addr, &addr_len) == 0 && address_to_name (&addr, addr_len, remote_addr_name, sizeof (remote_addr_name))) snprintf (msg, sizeof (msg), "connection to %s from %s: ", conn->server->bind_name, remote_addr_name); else snprintf (msg, sizeof (msg), "connection to %s: ", conn->server->bind_name); msg[sizeof(msg)-1] = 0; msg_at = strchr (msg, 0); /* do vsnprintf() */ va_start (args, format); vsnprintf(msg_at, msg_end - msg_at, format, args); va_end (args); msg[sizeof(msg)-1] = 0; /* invoke server error hook */ server_failed_literal (conn->server, code, msg); server_connection_close (conn); } static ServerRequest * create_server_request (ServerConnection *conn, uint32_t request_id, uint32_t method_index) { ServerRequest *rv; if (conn->server->recycled_requests != NULL) { rv = conn->server->recycled_requests; conn->server->recycled_requests = rv->info.recycled.next; } else { ProtobufCAllocator *allocator = conn->server->allocator; rv = allocator->alloc (allocator, sizeof (ServerRequest)); } rv->conn = conn; rv->request_id = request_id; rv->method_index = method_index; conn->n_pending_requests++; GSK_LIST_APPEND (GET_PENDING_REQUEST_LIST (conn), rv); return rv; } static void handle_server_connection_events (int fd, unsigned events, void *data); static void server_connection_response_closure (const ProtobufCMessage *message, void *closure_data) { ServerRequest *request = closure_data; ServerConnection *conn = request->conn; protobuf_c_boolean must_set_output_watch = FALSE; if (conn == NULL) { /* defunct request */ ProtobufCAllocator *allocator = request->info.defunct.allocator; allocator->free (allocator, request); return; } if (message == NULL) { /* send failed status */ uint32_t header[4]; header[0] = uint32_to_le (PROTOBUF_C_STATUS_CODE_SERVICE_FAILED); header[1] = uint32_to_le (request->method_index); header[2] = 0; /* no message */ header[3] = request->request_id; must_set_output_watch = (conn->outgoing.size == 0); protobuf_c_data_buffer_append (&conn->outgoing, header, 16); } else { /* send success response */ uint32_t header[4]; uint8_t buffer_slab[512]; ProtobufCBufferSimple buffer_simple = PROTOBUF_C_BUFFER_SIMPLE_INIT (buffer_slab); protobuf_c_message_pack_to_buffer (message, &buffer_simple.base); header[0] = uint32_to_le (PROTOBUF_C_STATUS_CODE_SUCCESS); header[1] = uint32_to_le (request->method_index); header[2] = uint32_to_le (buffer_simple.len); header[3] = request->request_id; must_set_output_watch = (conn->outgoing.size == 0); protobuf_c_data_buffer_append (&conn->outgoing, header, 16); protobuf_c_data_buffer_append (&conn->outgoing, buffer_simple.data, buffer_simple.len); PROTOBUF_C_BUFFER_SIMPLE_CLEAR (&buffer_simple); } if (must_set_output_watch) protobuf_c_dispatch_watch_fd (conn->server->dispatch, conn->fd, PROTOBUF_C_EVENT_READABLE|PROTOBUF_C_EVENT_WRITABLE, handle_server_connection_events, conn); GSK_LIST_REMOVE (GET_PENDING_REQUEST_LIST (conn), request); conn->n_pending_requests--; #if RECYCLE_REQUESTS /* recycle request */ request->info.recycled.next = conn->server->recycled_requests; conn->server->recycled_requests = request; #else /* free the request immediately */ conn->server->allocator->free (conn->server->allocator, request); #endif } static void handle_server_connection_events (int fd, unsigned events, void *data) { ServerConnection *conn = data; ProtobufCService *service = conn->server->underlying; ProtobufCAllocator *allocator = conn->server->allocator; if (events & PROTOBUF_C_EVENT_READABLE) { int read_rv = protobuf_c_data_buffer_read_in_fd (&conn->incoming, fd); if (read_rv < 0) { if (!errno_is_ignorable (errno)) { server_connection_failed (conn, PROTOBUF_C_ERROR_CODE_CLIENT_TERMINATED, "reading from file-descriptor: %s", strerror (errno)); return; } } else if (read_rv == 0) { if (conn->first_pending_request != NULL) server_connection_failed (conn, PROTOBUF_C_ERROR_CODE_CLIENT_TERMINATED, "closed while calls pending"); else server_connection_close (conn); return; } else while (conn->incoming.size >= 12) { uint32_t header[3]; uint32_t method_index, message_length, request_id; uint8_t *packed_data; ProtobufCMessage *message; ServerRequest *server_request; protobuf_c_data_buffer_peek (&conn->incoming, header, 12); method_index = uint32_from_le (header[0]); message_length = uint32_from_le (header[1]); request_id = header[2]; /* store in whatever endianness it comes in */ if (conn->incoming.size < 12 + message_length) break; if (method_index >= conn->server->underlying->descriptor->n_methods) { server_connection_failed (conn, PROTOBUF_C_ERROR_CODE_BAD_REQUEST, "bad method_index %u", method_index); return; } /* Read message */ protobuf_c_data_buffer_discard (&conn->incoming, 12); packed_data = allocator->alloc (allocator, message_length); protobuf_c_data_buffer_read (&conn->incoming, packed_data, message_length); /* Unpack message */ message = protobuf_c_message_unpack (service->descriptor->methods[method_index].input, allocator, message_length, packed_data); allocator->free (allocator, packed_data); if (message == NULL) { server_connection_failed (conn, PROTOBUF_C_ERROR_CODE_BAD_REQUEST, "error unpacking message"); return; } /* Invoke service (note that it may call back immediately) */ server_request = create_server_request (conn, request_id, method_index); service->invoke (service, method_index, message, server_connection_response_closure, server_request); protobuf_c_message_free_unpacked (message, allocator); } } if ((events & PROTOBUF_C_EVENT_WRITABLE) != 0 && conn->outgoing.size > 0) { int write_rv = protobuf_c_data_buffer_writev (&conn->outgoing, fd); if (write_rv < 0) { if (!errno_is_ignorable (errno)) { server_connection_failed (conn, PROTOBUF_C_ERROR_CODE_CLIENT_TERMINATED, "writing to file-descriptor: %s", strerror (errno)); return; } } if (conn->outgoing.size == 0) protobuf_c_dispatch_watch_fd (conn->server->dispatch, conn->fd, PROTOBUF_C_EVENT_READABLE, handle_server_connection_events, conn); } } static void handle_server_listener_readable (int fd, unsigned events, void *data) { ProtobufC_RPC_Server *server = data; struct sockaddr addr; socklen_t addr_len = sizeof (addr); int new_fd = accept (fd, &addr, &addr_len); ServerConnection *conn; ProtobufCAllocator *allocator = server->allocator; if (new_fd < 0) { if (errno_is_ignorable (errno)) return; fprintf (stderr, "error accept()ing file descriptor: %s\n", strerror (errno)); return; } conn = allocator->alloc (allocator, sizeof (ServerConnection)); conn->fd = new_fd; protobuf_c_data_buffer_init (&conn->incoming, server->allocator); protobuf_c_data_buffer_init (&conn->outgoing, server->allocator); conn->n_pending_requests = 0; conn->first_pending_request = conn->last_pending_request = NULL; conn->server = server; GSK_LIST_APPEND (GET_CONNECTION_LIST (server), conn); protobuf_c_dispatch_watch_fd (server->dispatch, conn->fd, PROTOBUF_C_EVENT_READABLE, handle_server_connection_events, conn); } static ProtobufC_RPC_Server * server_new_from_fd (ProtobufC_FD listening_fd, ProtobufC_RPC_AddressType address_type, const char *bind_name, ProtobufCService *service, ProtobufCDispatch *orig_dispatch) { ProtobufCDispatch *dispatch = orig_dispatch ? orig_dispatch : protobuf_c_dispatch_default (); ProtobufCAllocator *allocator = protobuf_c_dispatch_peek_allocator (dispatch); ProtobufC_RPC_Server *server = allocator->alloc (allocator, sizeof (ProtobufC_RPC_Server)); server->dispatch = dispatch; server->allocator = allocator; server->underlying = service; server->first_connection = server->last_connection = NULL; server->max_pending_requests_per_connection = 32; server->address_type = address_type; server->bind_name = allocator->alloc (allocator, strlen (bind_name) + 1); server->error_handler = error_handler; server->error_handler_data = "protobuf-c rpc server"; server->listening_fd = listening_fd; server->recycled_requests = NULL; strcpy (server->bind_name, bind_name); set_fd_nonblocking (listening_fd); protobuf_c_dispatch_watch_fd (dispatch, listening_fd, PROTOBUF_C_EVENT_READABLE, handle_server_listener_readable, server); return server; } /* this function is for handling the common problem that we bind over-and-over again to the same unix path. ideally, you'd think the OS's SO_REUSEADDR flag would cause this to happen, but it doesn't, at least on my linux 2.6 box. in fact, we really need a way to test without actually connecting to the remote server, which might annoy it. XXX: we should survey what others do here... like x-windows... */ /* NOTE: stolen from gsk, obviously */ static void _gsk_socket_address_local_maybe_delete_stale_socket (const char *path, struct sockaddr *addr, unsigned addr_len) { int fd; struct stat statbuf; if (stat (path, &statbuf) < 0) return; if (!S_ISSOCK (statbuf.st_mode)) { fprintf (stderr, "%s existed but was not a socket\n", path); return; } fd = socket (PF_UNIX, SOCK_STREAM, 0); if (fd < 0) return; set_fd_nonblocking (fd); if (connect (fd, addr, addr_len) < 0) { if (errno == EINPROGRESS) { close (fd); return; } } else { close (fd); return; } /* ok, we should delete the stale socket */ close (fd); if (unlink (path) < 0) fprintf (stderr, "unable to delete %s: %s\n", path, strerror(errno)); } ProtobufC_RPC_Server * protobuf_c_rpc_server_new (ProtobufC_RPC_AddressType type, const char *name, ProtobufCService *service, ProtobufCDispatch *dispatch) { int fd = -1; int protocol_family; struct sockaddr *address; socklen_t address_len; struct sockaddr_un addr_un; struct sockaddr_in addr_in; switch (type) { case PROTOBUF_C_RPC_ADDRESS_LOCAL: protocol_family = PF_UNIX; memset (&addr_un, 0, sizeof (addr_un)); addr_un.sun_family = AF_LOCAL; strncpy (addr_un.sun_path, name, sizeof (addr_un.sun_path)); address_len = sizeof (addr_un); address = (struct sockaddr *) (&addr_un); _gsk_socket_address_local_maybe_delete_stale_socket (name, address, address_len); break; case PROTOBUF_C_RPC_ADDRESS_TCP: protocol_family = PF_INET; memset (&addr_in, 0, sizeof (addr_in)); addr_in.sin_family = AF_INET; { unsigned port = atoi (name); addr_in.sin_port = htons (port); } address_len = sizeof (addr_in); address = (struct sockaddr *) (&addr_in); break; default: protobuf_c_assert (0); } fd = socket (protocol_family, SOCK_STREAM, 0); if (fd < 0) { fprintf (stderr, "protobuf_c_rpc_server_new: socket() failed: %s\n", strerror (errno)); return NULL; } if (bind (fd, address, address_len) < 0) { fprintf (stderr, "protobuf_c_rpc_server_new: error binding to port: %s\n", strerror (errno)); return NULL; } if (listen (fd, 255) < 0) { fprintf (stderr, "protobuf_c_rpc_server_new: listen() failed: %s\n", strerror (errno)); return NULL; } return server_new_from_fd (fd, type, name, service, dispatch); } ProtobufCService * protobuf_c_rpc_server_destroy (ProtobufC_RPC_Server *server, protobuf_c_boolean destroy_underlying) { ProtobufCService *rv = destroy_underlying ? NULL : server->underlying; while (server->first_connection != NULL) server_connection_close (server->first_connection); if (server->address_type == PROTOBUF_C_RPC_ADDRESS_LOCAL) unlink (server->bind_name); server->allocator->free (server->allocator, server->bind_name); while (server->recycled_requests != NULL) { ServerRequest *req = server->recycled_requests; server->recycled_requests = req->info.recycled.next; server->allocator->free (server->allocator, req); } protobuf_c_dispatch_close_fd (server->dispatch, server->listening_fd); if (destroy_underlying) protobuf_c_service_destroy (server->underlying); server->allocator->free (server->allocator, server); return rv; } void protobuf_c_rpc_server_set_error_handler (ProtobufC_RPC_Server *server, ProtobufC_RPC_Error_Func func, void *error_func_data) { server->error_handler = func; server->error_handler_data = error_func_data; } protobuf-c-0.15/src/google/protobuf-c/protobuf-c.c0000644000175000017500000023532511536220130017012 00000000000000/* --- protobuf-c.c: public protobuf c runtime implementation --- */ /* * Copyright 2008, Dave Benson. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with * the License. You may obtain a copy of the License * at http://www.apache.org/licenses/LICENSE-2.0 Unless * required by applicable law or agreed to in writing, * software distributed under the License is distributed on * an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ /* TODO items: * 64-BIT OPTIMIZATION: certain implementations use 32-bit math even on 64-bit platforms (uint64_size, uint64_pack, parse_uint64) * get_packed_size and pack seem to use type-prefixed names, whereas parse uses type-suffixed names. pick one and stick with it. Decision: go with type-suffixed, since the type (or its instance) is typically the object of the verb. NOTE: perhaps the "parse" methods should be reanemd to "unpack" at the same time. (this only affects internal (static) functions) * use TRUE and FALSE instead of 1 and 0 as appropriate * use size_t consistently */ #if HAVE_PROTOBUF_C_CONFIG_H #include "protobuf-c-config.h" #endif #include /* for occasional printf()s */ #include /* for abort(), malloc() etc */ #include /* for strlen(), memcpy(), memmove() */ #if HAVE_ALLOCA_H #include #elif HAVE_MALLOC_H #include #endif #ifndef PRINT_UNPACK_ERRORS #define PRINT_UNPACK_ERRORS 1 #endif #include "protobuf-c.h" #define MAX_UINT64_ENCODED_SIZE 10 /* convenience macros */ #define TMPALLOC(allocator, size) ((allocator)->tmp_alloc ((allocator)->allocator_data, (size))) #define FREE(allocator, ptr) \ do { if ((ptr) != NULL) ((allocator)->free ((allocator)->allocator_data, (ptr))); } while(0) #define UNALIGNED_ALLOC(allocator, size) ALLOC (allocator, size) /* placeholder */ #define STRUCT_MEMBER_P(struct_p, struct_offset) \ ((void *) ((uint8_t*) (struct_p) + (struct_offset))) #define STRUCT_MEMBER(member_type, struct_p, struct_offset) \ (*(member_type*) STRUCT_MEMBER_P ((struct_p), (struct_offset))) #define STRUCT_MEMBER_PTR(member_type, struct_p, struct_offset) \ ((member_type*) STRUCT_MEMBER_P ((struct_p), (struct_offset))) #define TRUE 1 #define FALSE 0 static void alloc_failed_warning (unsigned size, const char *filename, unsigned line) { fprintf (stderr, "WARNING: out-of-memory allocating a block of size %u (%s:%u)\n", size, filename, line); } /* Try to allocate memory, running some special code if it fails. */ #define DO_ALLOC(dst, allocator, size, fail_code) \ { size_t da__allocation_size = (size); \ if (da__allocation_size == 0) \ dst = NULL; \ else if ((dst=((allocator)->alloc ((allocator)->allocator_data, \ da__allocation_size))) == NULL) \ { \ alloc_failed_warning (da__allocation_size, __FILE__, __LINE__); \ fail_code; \ } \ } #define DO_UNALIGNED_ALLOC DO_ALLOC /* placeholder */ #define ASSERT_IS_ENUM_DESCRIPTOR(desc) \ assert((desc)->magic == PROTOBUF_C_ENUM_DESCRIPTOR_MAGIC) #define ASSERT_IS_MESSAGE_DESCRIPTOR(desc) \ assert((desc)->magic == PROTOBUF_C_MESSAGE_DESCRIPTOR_MAGIC) #define ASSERT_IS_MESSAGE(message) \ ASSERT_IS_MESSAGE_DESCRIPTOR((message)->descriptor) #define ASSERT_IS_SERVICE_DESCRIPTOR(desc) \ assert((desc)->magic == PROTOBUF_C_SERVICE_DESCRIPTOR_MAGIC) /* --- allocator --- */ static void protobuf_c_out_of_memory_default (void) { fprintf (stderr, "Out Of Memory!!!\n"); abort (); } void (*protobuf_c_out_of_memory) (void) = protobuf_c_out_of_memory_default; static void *system_alloc(void *allocator_data, size_t size) { void *rv; (void) allocator_data; if (size == 0) return NULL; rv = malloc (size); if (rv == NULL) protobuf_c_out_of_memory (); return rv; } static void system_free (void *allocator_data, void *data) { (void) allocator_data; if (data) free (data); } /* Some users may configure the default allocator; providing your own allocator to unpack() is prefered. this allocator is still used for packing nested messages. */ ProtobufCAllocator protobuf_c_default_allocator = { system_alloc, system_free, NULL, 8192, NULL }; /* Users should NOT modify this structure, but it's difficult to prevent. please modify protobuf_c_default_allocator instead. */ ProtobufCAllocator protobuf_c_system_allocator = { system_alloc, system_free, NULL, 8192, NULL }; /* === buffer-simple === */ void protobuf_c_buffer_simple_append (ProtobufCBuffer *buffer, size_t len, const uint8_t *data) { ProtobufCBufferSimple *simp = (ProtobufCBufferSimple *) buffer; size_t new_len = simp->len + len; if (new_len > simp->alloced) { size_t new_alloced = simp->alloced * 2; uint8_t *new_data; while (new_alloced < new_len) new_alloced += new_alloced; DO_ALLOC (new_data, &protobuf_c_default_allocator, new_alloced, return); memcpy (new_data, simp->data, simp->len); if (simp->must_free_data) FREE (&protobuf_c_default_allocator, simp->data); else simp->must_free_data = 1; simp->data = new_data; simp->alloced = new_alloced; } memcpy (simp->data + simp->len, data, len); simp->len = new_len; } /* === get_packed_size() === */ /* Return the number of bytes required to store the tag for the field (which includes 3 bits for the wire-type, and a single bit that denotes the end-of-tag. */ static inline size_t get_tag_size (unsigned number) { if (number < (1<<4)) return 1; else if (number < (1<<11)) return 2; else if (number < (1<<18)) return 3; else if (number < (1<<25)) return 4; else return 5; } /* Return the number of bytes required to store a variable-length unsigned integer that fits in 32-bit uint in base-128 encoding. */ static inline size_t uint32_size (uint32_t v) { if (v < (1<<7)) return 1; else if (v < (1<<14)) return 2; else if (v < (1<<21)) return 3; else if (v < (1<<28)) return 4; else return 5; } /* Return the number of bytes required to store a variable-length signed integer that fits in 32-bit int in base-128 encoding. */ static inline size_t int32_size (int32_t v) { if (v < 0) return 10; else if (v < (1<<7)) return 1; else if (v < (1<<14)) return 2; else if (v < (1<<21)) return 3; else if (v < (1<<28)) return 4; else return 5; } /* return the zigzag-encoded 32-bit unsigned int from a 32-bit signed int */ static inline uint32_t zigzag32 (int32_t v) { if (v < 0) return ((uint32_t)(-v)) * 2 - 1; else return v * 2; } /* Return the number of bytes required to store a variable-length signed integer that fits in 32-bit int, converted to unsigned via the zig-zag algorithm, then packed using base-128 encoding. */ static inline size_t sint32_size (int32_t v) { return uint32_size(zigzag32(v)); } /* Return the number of bytes required to store a variable-length unsigned integer that fits in 64-bit uint in base-128 encoding. */ static inline size_t uint64_size (uint64_t v) { uint32_t upper_v = (uint32_t )(v>>32); if (upper_v == 0) return uint32_size ((uint32_t)v); else if (upper_v < (1<<3)) return 5; else if (upper_v < (1<<10)) return 6; else if (upper_v < (1<<17)) return 7; else if (upper_v < (1<<24)) return 8; else if (upper_v < (1U<<31)) return 9; else return 10; } /* return the zigzag-encoded 64-bit unsigned int from a 64-bit signed int */ static inline uint64_t zigzag64 (int64_t v) { if (v < 0) return ((uint64_t)(-v)) * 2 - 1; else return v * 2; } /* Return the number of bytes required to store a variable-length signed integer that fits in 64-bit int, converted to unsigned via the zig-zag algorithm, then packed using base-128 encoding. */ static inline size_t sint64_size (int64_t v) { return uint64_size(zigzag64(v)); } /* Get serialized size of a single field in the message, including the space needed by the identifying tag. */ static size_t required_field_get_packed_size (const ProtobufCFieldDescriptor *field, const void *member) { size_t rv = get_tag_size (field->id); switch (field->type) { case PROTOBUF_C_TYPE_SINT32: return rv + sint32_size (*(const int32_t *) member); case PROTOBUF_C_TYPE_INT32: return rv + int32_size (*(const uint32_t *) member); case PROTOBUF_C_TYPE_UINT32: return rv + uint32_size (*(const uint32_t *) member); case PROTOBUF_C_TYPE_SINT64: return rv + sint64_size (*(const int64_t *) member); case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: return rv + uint64_size (*(const uint64_t *) member); case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: return rv + 4; case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: return rv + 8; case PROTOBUF_C_TYPE_BOOL: return rv + 1; case PROTOBUF_C_TYPE_FLOAT: return rv + 4; case PROTOBUF_C_TYPE_DOUBLE: return rv + 8; case PROTOBUF_C_TYPE_ENUM: // TODO: is this correct for negative-valued enums? return rv + uint32_size (*(const uint32_t *) member); case PROTOBUF_C_TYPE_STRING: { const char *str = *(char * const *) member; size_t len = str ? strlen (str) : 0; return rv + uint32_size (len) + len; } case PROTOBUF_C_TYPE_BYTES: { size_t len = ((const ProtobufCBinaryData*) member)->len; return rv + uint32_size (len) + len; } //case PROTOBUF_C_TYPE_GROUP: case PROTOBUF_C_TYPE_MESSAGE: { const ProtobufCMessage *msg = * (ProtobufCMessage * const *) member; size_t subrv = msg ? protobuf_c_message_get_packed_size (msg) : 0; return rv + uint32_size (subrv) + subrv; } } PROTOBUF_C_ASSERT_NOT_REACHED (); return 0; } /* Get serialized size of a single optional field in the message, including the space needed by the identifying tag. Returns 0 if the optional field isn't set. */ static size_t optional_field_get_packed_size (const ProtobufCFieldDescriptor *field, const protobuf_c_boolean *has, const void *member) { if (field->type == PROTOBUF_C_TYPE_MESSAGE || field->type == PROTOBUF_C_TYPE_STRING) { const void *ptr = * (const void * const *) member; if (ptr == NULL || ptr == field->default_value) return 0; } else { if (!*has) return 0; } return required_field_get_packed_size (field, member); } /* Get serialized size of a repeated field in the message, which may consist of any number of values (including 0). Includes the space needed by the identifying tags (as needed). */ static size_t repeated_field_get_packed_size (const ProtobufCFieldDescriptor *field, size_t count, const void *member) { size_t header_size; size_t rv = 0; unsigned i; void *array = * (void * const *) member; if (count == 0) return 0; header_size = get_tag_size (field->id); if (!field->packed) header_size *= count; switch (field->type) { case PROTOBUF_C_TYPE_SINT32: for (i = 0; i < count; i++) rv += sint32_size (((int32_t*)array)[i]); break; case PROTOBUF_C_TYPE_INT32: for (i = 0; i < count; i++) rv += int32_size (((uint32_t*)array)[i]); break; case PROTOBUF_C_TYPE_UINT32: case PROTOBUF_C_TYPE_ENUM: for (i = 0; i < count; i++) rv += uint32_size (((uint32_t*)array)[i]); break; case PROTOBUF_C_TYPE_SINT64: for (i = 0; i < count; i++) rv += sint64_size (((int64_t*)array)[i]); break; case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: for (i = 0; i < count; i++) rv += uint64_size (((uint64_t*)array)[i]); break; case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: rv += 4 * count; break; case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: rv += 8 * count; break; case PROTOBUF_C_TYPE_BOOL: rv += count; break; case PROTOBUF_C_TYPE_STRING: for (i = 0; i < count; i++) { size_t len = strlen (((char**) array)[i]); rv += uint32_size (len) + len; } break; case PROTOBUF_C_TYPE_BYTES: for (i = 0; i < count; i++) { size_t len = ((ProtobufCBinaryData*) array)[i].len; rv += uint32_size (len) + len; } break; case PROTOBUF_C_TYPE_MESSAGE: for (i = 0; i < count; i++) { size_t len = protobuf_c_message_get_packed_size (((ProtobufCMessage **) array)[i]); rv += uint32_size (len) + len; } break; //case PROTOBUF_C_TYPE_GROUP: // NOT SUPPORTED } if (field->packed) header_size += uint32_size (rv); return header_size + rv; } /* Get the packed size of a unknown field (meaning one that is passed through mostly uninterpreted... this is done for forward compatibilty with the addition of new fields). */ static inline size_t unknown_field_get_packed_size (const ProtobufCMessageUnknownField *field) { return get_tag_size (field->tag) + field->len; } /* Get the number of bytes that the message will occupy once serialized. */ size_t protobuf_c_message_get_packed_size(const ProtobufCMessage *message) { unsigned i; size_t rv = 0; ASSERT_IS_MESSAGE (message); for (i = 0; i < message->descriptor->n_fields; i++) { const ProtobufCFieldDescriptor *field = message->descriptor->fields + i; const void *member = ((const char *) message) + field->offset; const void *qmember = ((const char *) message) + field->quantifier_offset; if (field->label == PROTOBUF_C_LABEL_REQUIRED) rv += required_field_get_packed_size (field, member); else if (field->label == PROTOBUF_C_LABEL_OPTIONAL) rv += optional_field_get_packed_size (field, qmember, member); else rv += repeated_field_get_packed_size (field, * (const size_t *) qmember, member); } for (i = 0; i < message->n_unknown_fields; i++) rv += unknown_field_get_packed_size (&message->unknown_fields[i]); return rv; } /* === pack() === */ /* Pack an unsigned 32-bit integer in base-128 encoding, and return the number of bytes needed: this will be 5 or less. */ static inline size_t uint32_pack (uint32_t value, uint8_t *out) { unsigned rv = 0; if (value >= 0x80) { out[rv++] = value | 0x80; value >>= 7; if (value >= 0x80) { out[rv++] = value | 0x80; value >>= 7; if (value >= 0x80) { out[rv++] = value | 0x80; value >>= 7; if (value >= 0x80) { out[rv++] = value | 0x80; value >>= 7; } } } } /* assert: value<128 */ out[rv++] = value; return rv; } /* Pack a 32-bit signed integer, returning the number of bytes needed. Negative numbers are packed as twos-complement 64-bit integers. */ static inline size_t int32_pack (int32_t value, uint8_t *out) { if (value < 0) { out[0] = value | 0x80; out[1] = (value>>7) | 0x80; out[2] = (value>>14) | 0x80; out[3] = (value>>21) | 0x80; out[4] = (value>>28) | 0x80; out[5] = out[6] = out[7] = out[8] = 0xff; out[9] = 0x01; return 10; } else return uint32_pack (value, out); } /* Pack a 32-bit integer in zigwag encoding. */ static inline size_t sint32_pack (int32_t value, uint8_t *out) { return uint32_pack (zigzag32 (value), out); } /* Pack a 64-bit unsigned integer that fits in a 64-bit uint, using base-128 encoding. */ static size_t uint64_pack (uint64_t value, uint8_t *out) { uint32_t hi = (uint32_t )(value>>32); uint32_t lo = (uint32_t )value; unsigned rv; if (hi == 0) return uint32_pack ((uint32_t)lo, out); out[0] = (lo) | 0x80; out[1] = (lo>>7) | 0x80; out[2] = (lo>>14) | 0x80; out[3] = (lo>>21) | 0x80; if (hi < 8) { out[4] = (hi<<4) | (lo>>28); return 5; } else { out[4] = ((hi&7)<<4) | (lo>>28) | 0x80; hi >>= 3; } rv = 5; while (hi >= 128) { out[rv++] = hi | 0x80; hi >>= 7; } out[rv++] = hi; return rv; } /* Pack a 64-bit signed integer in zigzan encoding, return the size of the packed output. (Max returned value is 10) */ static inline size_t sint64_pack (int64_t value, uint8_t *out) { return uint64_pack (zigzag64 (value), out); } /* Pack a 32-bit value, little-endian. Used for fixed32, sfixed32, float) */ static inline size_t fixed32_pack (uint32_t value, void *out) { #if IS_LITTLE_ENDIAN memcpy (out, &value, 4); #else uint8_t *buf = out; buf[0] = value; buf[1] = value>>8; buf[2] = value>>16; buf[3] = value>>24; #endif return 4; } /* Pack a 64-bit fixed-length value. (Used for fixed64, sfixed64, double) */ /* XXX: the big-endian impl is really only good for 32-bit machines, a 64-bit version would be appreciated, plus a way to decide to use 64-bit math where convenient. */ static inline size_t fixed64_pack (uint64_t value, void *out) { #if IS_LITTLE_ENDIAN memcpy (out, &value, 8); #else fixed32_pack (value, out); fixed32_pack (value>>32, out+4); #endif return 8; } /* Pack a boolean as 0 or 1, even though the protobuf_c_boolean can really assume any integer value. */ /* XXX: perhaps on some platforms "*out = !!value" would be a better impl, b/c that is idiotmatic c++ in some stl impls. */ static inline size_t boolean_pack (protobuf_c_boolean value, uint8_t *out) { *out = value ? 1 : 0; return 1; } /* Pack a length-prefixed string. The input string is NUL-terminated. The NULL pointer is treated as an empty string. This isn't really necessary, but it allows people to leave required strings blank. (See Issue 13 in the bug tracker for a little more explanation). */ static inline size_t string_pack (const char * str, uint8_t *out) { if (str == NULL) { out[0] = 0; return 1; } else { size_t len = strlen (str); size_t rv = uint32_pack (len, out); memcpy (out + rv, str, len); return rv + len; } } static inline size_t binary_data_pack (const ProtobufCBinaryData *bd, uint8_t *out) { size_t len = bd->len; size_t rv = uint32_pack (len, out); memcpy (out + rv, bd->data, len); return rv + len; } static inline size_t prefixed_message_pack (const ProtobufCMessage *message, uint8_t *out) { if (message == NULL) { out[0] = 0; return 1; } else { size_t rv = protobuf_c_message_pack (message, out + 1); uint32_t rv_packed_size = uint32_size (rv); if (rv_packed_size != 1) memmove (out + rv_packed_size, out + 1, rv); return uint32_pack (rv, out) + rv; } } /* wire-type will be added in required_field_pack() */ /* XXX: just call uint64_pack on 64-bit platforms. */ static size_t tag_pack (uint32_t id, uint8_t *out) { if (id < (1<<(32-3))) return uint32_pack (id<<3, out); else return uint64_pack (((uint64_t)id) << 3, out); } static size_t required_field_pack (const ProtobufCFieldDescriptor *field, const void *member, uint8_t *out) { size_t rv = tag_pack (field->id, out); switch (field->type) { case PROTOBUF_C_TYPE_SINT32: out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; return rv + sint32_pack (*(const int32_t *) member, out + rv); case PROTOBUF_C_TYPE_INT32: out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; return rv + int32_pack (*(const uint32_t *) member, out + rv); case PROTOBUF_C_TYPE_UINT32: case PROTOBUF_C_TYPE_ENUM: out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; return rv + uint32_pack (*(const uint32_t *) member, out + rv); case PROTOBUF_C_TYPE_SINT64: out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; return rv + sint64_pack (*(const int64_t *) member, out + rv); case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; return rv + uint64_pack (*(const uint64_t *) member, out + rv); case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: out[0] |= PROTOBUF_C_WIRE_TYPE_32BIT; return rv + fixed32_pack (*(const uint32_t *) member, out + rv); case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: out[0] |= PROTOBUF_C_WIRE_TYPE_64BIT; return rv + fixed64_pack (*(const uint64_t *) member, out + rv); case PROTOBUF_C_TYPE_BOOL: out[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; return rv + boolean_pack (*(const protobuf_c_boolean *) member, out + rv); case PROTOBUF_C_TYPE_STRING: { out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED; return rv + string_pack (*(char * const *) member, out + rv); } case PROTOBUF_C_TYPE_BYTES: { const ProtobufCBinaryData * bd = ((const ProtobufCBinaryData*) member); out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED; return rv + binary_data_pack (bd, out + rv); } //case PROTOBUF_C_TYPE_GROUP: // NOT SUPPORTED case PROTOBUF_C_TYPE_MESSAGE: { out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED; return rv + prefixed_message_pack (*(ProtobufCMessage * const *) member, out + rv); } } PROTOBUF_C_ASSERT_NOT_REACHED (); return 0; } static size_t optional_field_pack (const ProtobufCFieldDescriptor *field, const protobuf_c_boolean *has, const void *member, uint8_t *out) { if (field->type == PROTOBUF_C_TYPE_MESSAGE || field->type == PROTOBUF_C_TYPE_STRING) { const void *ptr = * (const void * const *) member; if (ptr == NULL || ptr == field->default_value) return 0; } else { if (!*has) return 0; } return required_field_pack (field, member, out); } /* TODO: implement as a table lookup */ static inline size_t sizeof_elt_in_repeated_array (ProtobufCType type) { switch (type) { case PROTOBUF_C_TYPE_SINT32: case PROTOBUF_C_TYPE_INT32: case PROTOBUF_C_TYPE_UINT32: case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: case PROTOBUF_C_TYPE_ENUM: return 4; case PROTOBUF_C_TYPE_SINT64: case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: return 8; case PROTOBUF_C_TYPE_BOOL: return sizeof (protobuf_c_boolean); case PROTOBUF_C_TYPE_STRING: case PROTOBUF_C_TYPE_MESSAGE: return sizeof (void *); case PROTOBUF_C_TYPE_BYTES: return sizeof (ProtobufCBinaryData); } PROTOBUF_C_ASSERT_NOT_REACHED (); return 0; } static void copy_to_little_endian_32 (void *out, const void *in, unsigned N) { #if IS_LITTLE_ENDIAN memcpy (out, in, N * 4); #else unsigned i; const uint32_t *ini = in; for (i = 0; i < N; i++) fixed32_pack (ini[i], (uint32_t*)out + i); #endif } static void copy_to_little_endian_64 (void *out, const void *in, unsigned N) { #if IS_LITTLE_ENDIAN memcpy (out, in, N * 8); #else unsigned i; const uint64_t *ini = in; for (i = 0; i < N; i++) fixed64_pack (ini[i], (uint64_t*)out + i); #endif } static unsigned get_type_min_size (ProtobufCType type) { if (type == PROTOBUF_C_TYPE_SFIXED32 || type == PROTOBUF_C_TYPE_FIXED32 || type == PROTOBUF_C_TYPE_FLOAT) return 4; if (type == PROTOBUF_C_TYPE_SFIXED64 || type == PROTOBUF_C_TYPE_FIXED64 || type == PROTOBUF_C_TYPE_DOUBLE) return 8; return 1; } static size_t repeated_field_pack (const ProtobufCFieldDescriptor *field, size_t count, const void *member, uint8_t *out) { char *array = * (char * const *) member; unsigned i; if (field->packed) { unsigned header_len; unsigned len_start; unsigned min_length; unsigned payload_len; unsigned length_size_min; unsigned actual_length_size; uint8_t *payload_at; if (count == 0) return 0; header_len = tag_pack (field->id, out); out[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED; len_start = header_len; min_length = get_type_min_size (field->type) * count; length_size_min = uint32_size (min_length); header_len += length_size_min; payload_at = out + header_len; switch (field->type) { case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: copy_to_little_endian_32 (payload_at, array, count); payload_at += count * 4; break; case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: copy_to_little_endian_64 (payload_at, array, count); payload_at += count * 8; break; case PROTOBUF_C_TYPE_INT32: { const int32_t *arr = (const int32_t *) array; for (i = 0; i < count; i++) payload_at += int32_pack (arr[i], payload_at); } break; case PROTOBUF_C_TYPE_SINT32: { const int32_t *arr = (const int32_t *) array; for (i = 0; i < count; i++) payload_at += sint32_pack (arr[i], payload_at); } break; case PROTOBUF_C_TYPE_SINT64: { const int64_t *arr = (const int64_t *) array; for (i = 0; i < count; i++) payload_at += sint64_pack (arr[i], payload_at); } break; case PROTOBUF_C_TYPE_ENUM: case PROTOBUF_C_TYPE_UINT32: { const uint32_t *arr = (const uint32_t *) array; for (i = 0; i < count; i++) payload_at += uint32_pack (arr[i], payload_at); } break; case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: { const uint64_t *arr = (const uint64_t *) array; for (i = 0; i < count; i++) payload_at += uint64_pack (arr[i], payload_at); } break; case PROTOBUF_C_TYPE_BOOL: { const protobuf_c_boolean *arr = (const protobuf_c_boolean *) array; for (i = 0; i < count; i++) payload_at += boolean_pack (arr[i], payload_at); } break; default: assert (0); } payload_len = payload_at - (out + header_len); actual_length_size = uint32_size (payload_len); if (length_size_min != actual_length_size) { assert (actual_length_size == length_size_min + 1); memmove (out + header_len + 1, out + header_len, payload_len); header_len++; } uint32_pack (payload_len, out + len_start); return header_len + payload_len; } else { /* CONSIDER: optimize this case a bit (by putting the loop inside the switch) */ size_t rv = 0; unsigned siz = sizeof_elt_in_repeated_array (field->type); for (i = 0; i < count; i++) { rv += required_field_pack (field, array, out + rv); array += siz; } return rv; } } static size_t unknown_field_pack (const ProtobufCMessageUnknownField *field, uint8_t *out) { size_t rv = tag_pack (field->tag, out); out[0] |= field->wire_type; memcpy (out + rv, field->data, field->len); return rv + field->len; } size_t protobuf_c_message_pack (const ProtobufCMessage *message, uint8_t *out) { unsigned i; size_t rv = 0; ASSERT_IS_MESSAGE (message); for (i = 0; i < message->descriptor->n_fields; i++) { const ProtobufCFieldDescriptor *field = message->descriptor->fields + i; const void *member = ((const char *) message) + field->offset; /* it doesn't hurt to compute qmember (a pointer to the quantifier field of the structure), but the pointer is only valid if the field is one of: - a repeated field - an optional field that isn't a pointer type (meaning: not a message or a string) */ const void *qmember = ((const char *) message) + field->quantifier_offset; if (field->label == PROTOBUF_C_LABEL_REQUIRED) rv += required_field_pack (field, member, out + rv); else if (field->label == PROTOBUF_C_LABEL_OPTIONAL) /* note that qmember is bogus for strings and messages, but it isn't used */ rv += optional_field_pack (field, qmember, member, out + rv); else rv += repeated_field_pack (field, * (const size_t *) qmember, member, out + rv); } for (i = 0; i < message->n_unknown_fields; i++) rv += unknown_field_pack (&message->unknown_fields[i], out + rv); return rv; } /* === pack_to_buffer() === */ static size_t required_field_pack_to_buffer (const ProtobufCFieldDescriptor *field, const void *member, ProtobufCBuffer *buffer) { size_t rv; uint8_t scratch[MAX_UINT64_ENCODED_SIZE * 2]; rv = tag_pack (field->id, scratch); switch (field->type) { case PROTOBUF_C_TYPE_SINT32: scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; rv += sint32_pack (*(const int32_t *) member, scratch + rv); buffer->append (buffer, rv, scratch); break; case PROTOBUF_C_TYPE_INT32: scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; rv += int32_pack (*(const uint32_t *) member, scratch + rv); buffer->append (buffer, rv, scratch); break; case PROTOBUF_C_TYPE_UINT32: case PROTOBUF_C_TYPE_ENUM: scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; rv += uint32_pack (*(const uint32_t *) member, scratch + rv); buffer->append (buffer, rv, scratch); break; case PROTOBUF_C_TYPE_SINT64: scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; rv += sint64_pack (*(const int64_t *) member, scratch + rv); buffer->append (buffer, rv, scratch); break; case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; rv += uint64_pack (*(const uint64_t *) member, scratch + rv); buffer->append (buffer, rv, scratch); break; case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: scratch[0] |= PROTOBUF_C_WIRE_TYPE_32BIT; rv += fixed32_pack (*(const uint32_t *) member, scratch + rv); buffer->append (buffer, rv, scratch); break; case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: scratch[0] |= PROTOBUF_C_WIRE_TYPE_64BIT; rv += fixed64_pack (*(const uint64_t *) member, scratch + rv); buffer->append (buffer, rv, scratch); break; case PROTOBUF_C_TYPE_BOOL: scratch[0] |= PROTOBUF_C_WIRE_TYPE_VARINT; rv += boolean_pack (*(const protobuf_c_boolean *) member, scratch + rv); buffer->append (buffer, rv, scratch); break; case PROTOBUF_C_TYPE_STRING: { const char *str = *(char * const *) member; size_t sublen = str ? strlen (str) : 0; scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED; rv += uint32_pack (sublen, scratch + rv); buffer->append (buffer, rv, scratch); buffer->append (buffer, sublen, (const uint8_t *) str); rv += sublen; break; } case PROTOBUF_C_TYPE_BYTES: { const ProtobufCBinaryData * bd = ((const ProtobufCBinaryData*) member); size_t sublen = bd->len; scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED; rv += uint32_pack (sublen, scratch + rv); buffer->append (buffer, rv, scratch); buffer->append (buffer, sublen, bd->data); rv += sublen; break; } //PROTOBUF_C_TYPE_GROUP, // NOT SUPPORTED case PROTOBUF_C_TYPE_MESSAGE: { uint8_t simple_buffer_scratch[256]; size_t sublen; ProtobufCBufferSimple simple_buffer = PROTOBUF_C_BUFFER_SIMPLE_INIT (simple_buffer_scratch); const ProtobufCMessage *msg = *(ProtobufCMessage * const *) member; scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED; if (msg == NULL) sublen = 0; else sublen = protobuf_c_message_pack_to_buffer (msg, &simple_buffer.base); rv += uint32_pack (sublen, scratch + rv); buffer->append (buffer, rv, scratch); buffer->append (buffer, sublen, simple_buffer.data); rv += sublen; PROTOBUF_C_BUFFER_SIMPLE_CLEAR (&simple_buffer); break; } default: PROTOBUF_C_ASSERT_NOT_REACHED (); } return rv; } static size_t optional_field_pack_to_buffer (const ProtobufCFieldDescriptor *field, const protobuf_c_boolean *has, const void *member, ProtobufCBuffer *buffer) { if (field->type == PROTOBUF_C_TYPE_MESSAGE || field->type == PROTOBUF_C_TYPE_STRING) { const void *ptr = * (const void * const *) member; if (ptr == NULL || ptr == field->default_value) return 0; } else { if (!*has) return 0; } return required_field_pack_to_buffer (field, member, buffer); } static size_t get_packed_payload_length (const ProtobufCFieldDescriptor *field, unsigned count, const void *array) { unsigned rv = 0; unsigned i; switch (field->type) { case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: return count * 4; case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: return count * 8; case PROTOBUF_C_TYPE_INT32: { const int32_t *arr = (const int32_t *) array; for (i = 0; i < count; i++) rv += int32_size (arr[i]); } break; case PROTOBUF_C_TYPE_SINT32: { const int32_t *arr = (const int32_t *) array; for (i = 0; i < count; i++) rv += sint32_size (arr[i]); } break; case PROTOBUF_C_TYPE_ENUM: case PROTOBUF_C_TYPE_UINT32: { const uint32_t *arr = (const uint32_t *) array; for (i = 0; i < count; i++) rv += uint32_size (arr[i]); } break; case PROTOBUF_C_TYPE_SINT64: { const int64_t *arr = (const int64_t *) array; for (i = 0; i < count; i++) rv += sint64_size (arr[i]); } break; case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: { const uint64_t *arr = (const uint64_t *) array; for (i = 0; i < count; i++) rv += uint64_size (arr[i]); } break; case PROTOBUF_C_TYPE_BOOL: return count; default: assert (0); } return rv; } static size_t pack_buffer_packed_payload (const ProtobufCFieldDescriptor *field, unsigned count, const void *array, ProtobufCBuffer *buffer) { uint8_t scratch[16]; size_t rv = 0; unsigned i; switch (field->type) { case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: #if IS_LITTLE_ENDIAN rv = count * 4; goto no_packing_needed; #else for (i = 0; i < count; i++) { unsigned len = fixed32_pack (((uint32_t*)array)[i], scratch); buffer->append (buffer, len, scratch); rv += len; } #endif break; case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: #if IS_LITTLE_ENDIAN rv = count * 8; goto no_packing_needed; #else for (i = 0; i < count; i++) { unsigned len = fixed64_pack (((uint64_t*)array)[i], scratch); buffer->append (buffer, len, scratch); rv += len; } break; #endif case PROTOBUF_C_TYPE_INT32: for (i = 0; i < count; i++) { unsigned len = int32_pack (((int32_t*)array)[i], scratch); buffer->append (buffer, len, scratch); rv += len; } break; case PROTOBUF_C_TYPE_SINT32: for (i = 0; i < count; i++) { unsigned len = sint32_pack (((int32_t*)array)[i], scratch); buffer->append (buffer, len, scratch); rv += len; } break; case PROTOBUF_C_TYPE_ENUM: case PROTOBUF_C_TYPE_UINT32: for (i = 0; i < count; i++) { unsigned len = uint32_pack (((uint32_t*)array)[i], scratch); buffer->append (buffer, len, scratch); rv += len; } break; case PROTOBUF_C_TYPE_SINT64: for (i = 0; i < count; i++) { unsigned len = sint64_pack (((int64_t*)array)[i], scratch); buffer->append (buffer, len, scratch); rv += len; } break; case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: for (i = 0; i < count; i++) { unsigned len = uint64_pack (((uint64_t*)array)[i], scratch); buffer->append (buffer, len, scratch); rv += len; } break; case PROTOBUF_C_TYPE_BOOL: for (i = 0; i < count; i++) { unsigned len = boolean_pack (((protobuf_c_boolean*)array)[i], scratch); buffer->append (buffer, len, scratch); rv += len; } return count; default: assert(0); } return rv; no_packing_needed: buffer->append (buffer, rv, array); return rv; } static size_t repeated_field_pack_to_buffer (const ProtobufCFieldDescriptor *field, unsigned count, const void *member, ProtobufCBuffer *buffer) { char *array = * (char * const *) member; if (count == 0) return 0; if (field->packed) { uint8_t scratch[MAX_UINT64_ENCODED_SIZE * 2]; size_t rv = tag_pack (field->id, scratch); size_t payload_len = get_packed_payload_length (field, count, array); size_t tmp; scratch[0] |= PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED; rv += uint32_pack (payload_len, scratch + rv); buffer->append (buffer, rv, scratch); tmp = pack_buffer_packed_payload (field, count, array, buffer); assert (tmp == payload_len); return rv + payload_len; } else { size_t siz; unsigned i; /* CONSIDER: optimize this case a bit (by putting the loop inside the switch) */ unsigned rv = 0; siz = sizeof_elt_in_repeated_array (field->type); for (i = 0; i < count; i++) { rv += required_field_pack_to_buffer (field, array, buffer); array += siz; } return rv; } } static size_t unknown_field_pack_to_buffer (const ProtobufCMessageUnknownField *field, ProtobufCBuffer *buffer) { uint8_t header[MAX_UINT64_ENCODED_SIZE]; size_t rv = tag_pack (field->tag, header); header[0] |= field->wire_type; buffer->append (buffer, rv, header); buffer->append (buffer, field->len, field->data); return rv + field->len; } size_t protobuf_c_message_pack_to_buffer (const ProtobufCMessage *message, ProtobufCBuffer *buffer) { unsigned i; size_t rv = 0; ASSERT_IS_MESSAGE (message); for (i = 0; i < message->descriptor->n_fields; i++) { const ProtobufCFieldDescriptor *field = message->descriptor->fields + i; const void *member = ((const char *) message) + field->offset; const void *qmember = ((const char *) message) + field->quantifier_offset; if (field->label == PROTOBUF_C_LABEL_REQUIRED) rv += required_field_pack_to_buffer (field, member, buffer); else if (field->label == PROTOBUF_C_LABEL_OPTIONAL) rv += optional_field_pack_to_buffer (field, qmember, member, buffer); else rv += repeated_field_pack_to_buffer (field, * (const size_t *) qmember, member, buffer); } for (i = 0; i < message->n_unknown_fields; i++) rv += unknown_field_pack_to_buffer (&message->unknown_fields[i], buffer); return rv; } /* === unpacking === */ #if PRINT_UNPACK_ERRORS # define UNPACK_ERROR(args) do { printf args;printf("\n"); }while(0) #else # define UNPACK_ERROR(args) do { } while (0) #endif static inline int int_range_lookup (unsigned n_ranges, const ProtobufCIntRange *ranges, int value) { unsigned start, n; if (n_ranges == 0) return -1; start = 0; n = n_ranges; while (n > 1) { unsigned mid = start + n / 2; if (value < ranges[mid].start_value) { n = mid - start; } else if (value >= ranges[mid].start_value + (int)(ranges[mid+1].orig_index-ranges[mid].orig_index)) { unsigned new_start = mid + 1; n = start + n - new_start; start = new_start; } else return (value - ranges[mid].start_value) + ranges[mid].orig_index; } if (n > 0) { unsigned start_orig_index = ranges[start].orig_index; unsigned range_size = ranges[start+1].orig_index - start_orig_index; if (ranges[start].start_value <= value && value < (int)(ranges[start].start_value + range_size)) return (value - ranges[start].start_value) + start_orig_index; } return -1; } static size_t parse_tag_and_wiretype (size_t len, const uint8_t *data, uint32_t *tag_out, ProtobufCWireType *wiretype_out) { unsigned max_rv = len > 5 ? 5 : len; uint32_t tag = (data[0]&0x7f) >> 3; unsigned shift = 4; unsigned rv; *wiretype_out = data[0] & 7; if ((data[0] & 0x80) == 0) { *tag_out = tag; return 1; } for (rv = 1; rv < max_rv; rv++) if (data[rv] & 0x80) { tag |= (data[rv] & 0x7f) << shift; shift += 7; } else { tag |= data[rv] << shift; *tag_out = tag; return rv + 1; } return 0; /* error: bad header */ } /* sizeof(ScannedMember) must be <= (1< len) { UNPACK_ERROR (("data too short after length-prefix of %u", val)); return 0; } return hdr_len + val; } static size_t max_b128_numbers (size_t len, const uint8_t *data) { size_t rv = 0; while (len--) if ((*data++ & 0x80) == 0) ++rv; return rv; } /* Given a raw slab of packed-repeated values, determine the number of elements. This function detects certain kinds of errors but not others; the remaining error checking is done by parse_packed_repeated_member() */ static protobuf_c_boolean count_packed_elements (ProtobufCType type, size_t len, const uint8_t *data, size_t *count_out) { switch (type) { case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: if (len % 4 != 0) { UNPACK_ERROR (("length must be a multiple of 4 for fixed-length 32-bit types")); return FALSE; } *count_out = len / 4; return TRUE; case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: if (len % 8 != 0) { UNPACK_ERROR (("length must be a multiple of 8 for fixed-length 64-bit types")); return FALSE; } *count_out = len / 8; return TRUE; case PROTOBUF_C_TYPE_INT32: case PROTOBUF_C_TYPE_SINT32: case PROTOBUF_C_TYPE_ENUM: case PROTOBUF_C_TYPE_UINT32: case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_SINT64: case PROTOBUF_C_TYPE_UINT64: *count_out = max_b128_numbers (len, data); return TRUE; case PROTOBUF_C_TYPE_BOOL: *count_out = len; return TRUE; case PROTOBUF_C_TYPE_STRING: case PROTOBUF_C_TYPE_BYTES: case PROTOBUF_C_TYPE_MESSAGE: default: UNPACK_ERROR (("bad protobuf-c type %u for packed-repeated", type)); return FALSE; } } static inline uint32_t parse_uint32 (unsigned len, const uint8_t *data) { unsigned rv = data[0] & 0x7f; if (len > 1) { rv |= ((data[1] & 0x7f) << 7); if (len > 2) { rv |= ((data[2] & 0x7f) << 14); if (len > 3) { rv |= ((data[3] & 0x7f) << 21); if (len > 4) rv |= (data[4] << 28); } } } return rv; } static inline uint32_t parse_int32 (unsigned len, const uint8_t *data) { return parse_uint32 (len, data); } static inline int32_t unzigzag32 (uint32_t v) { if (v&1) return -(v>>1) - 1; else return v>>1; } static inline uint32_t parse_fixed_uint32 (const uint8_t *data) { #if IS_LITTLE_ENDIAN uint32_t t; memcpy (&t, data, 4); return t; #else return data[0] | (data[1] << 8) | (data[2] << 16) | (data[3] << 24); #endif } static uint64_t parse_uint64 (unsigned len, const uint8_t *data) { unsigned shift, i; uint64_t rv; if (len < 5) return parse_uint32 (len, data); rv = ((data[0] & 0x7f)) | ((data[1] & 0x7f)<<7) | ((data[2] & 0x7f)<<14) | ((data[3] & 0x7f)<<21); shift = 28; for (i = 4; i < len; i++) { rv |= (((uint64_t)(data[i]&0x7f)) << shift); shift += 7; } return rv; } static inline int64_t unzigzag64 (uint64_t v) { if (v&1) return -(v>>1) - 1; else return v>>1; } static inline uint64_t parse_fixed_uint64 (const uint8_t *data) { #if IS_LITTLE_ENDIAN uint64_t t; memcpy (&t, data, 8); return t; #else return (uint64_t)parse_fixed_uint32 (data) | (((uint64_t)parse_fixed_uint32(data+4)) << 32); #endif } static protobuf_c_boolean parse_boolean (unsigned len, const uint8_t *data) { unsigned i; for (i = 0; i < len; i++) if (data[i] & 0x7f) return 1; return 0; } static protobuf_c_boolean parse_required_member (ScannedMember *scanned_member, void *member, ProtobufCAllocator *allocator, protobuf_c_boolean maybe_clear) { unsigned len = scanned_member->len; const uint8_t *data = scanned_member->data; ProtobufCWireType wire_type = scanned_member->wire_type; switch (scanned_member->field->type) { case PROTOBUF_C_TYPE_INT32: if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT) return 0; *(uint32_t*)member = parse_int32 (len, data); return 1; case PROTOBUF_C_TYPE_UINT32: if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT) return 0; *(uint32_t*)member = parse_uint32 (len, data); return 1; case PROTOBUF_C_TYPE_SINT32: if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT) return 0; *(int32_t*)member = unzigzag32 (parse_uint32 (len, data)); return 1; case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: if (wire_type != PROTOBUF_C_WIRE_TYPE_32BIT) return 0; *(uint32_t*)member = parse_fixed_uint32 (data); return 1; case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT) return 0; *(uint64_t*)member = parse_uint64 (len, data); return 1; case PROTOBUF_C_TYPE_SINT64: if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT) return 0; *(int64_t*)member = unzigzag64 (parse_uint64 (len, data)); return 1; case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: if (wire_type != PROTOBUF_C_WIRE_TYPE_64BIT) return 0; *(uint64_t*)member = parse_fixed_uint64 (data); return 1; case PROTOBUF_C_TYPE_BOOL: *(protobuf_c_boolean*)member = parse_boolean (len, data); return 1; case PROTOBUF_C_TYPE_ENUM: if (wire_type != PROTOBUF_C_WIRE_TYPE_VARINT) return 0; *(uint32_t*)member = parse_uint32 (len, data); return 1; case PROTOBUF_C_TYPE_STRING: if (wire_type != PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED) return 0; { char **pstr = member; unsigned pref_len = scanned_member->length_prefix_len; if (maybe_clear && *pstr != NULL) { const char *def = scanned_member->field->default_value; if (*pstr != NULL && *pstr != def) FREE (allocator, *pstr); } DO_ALLOC (*pstr, allocator, len - pref_len + 1, return 0); memcpy (*pstr, data + pref_len, len - pref_len); (*pstr)[len-pref_len] = 0; return 1; } case PROTOBUF_C_TYPE_BYTES: if (wire_type != PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED) return 0; { ProtobufCBinaryData *bd = member; const ProtobufCBinaryData *def_bd; unsigned pref_len = scanned_member->length_prefix_len; def_bd = scanned_member->field->default_value; if (maybe_clear && bd->data != NULL && (def_bd == NULL || bd->data != def_bd->data)) FREE (allocator, bd->data); DO_ALLOC (bd->data, allocator, len - pref_len, return 0); memcpy (bd->data, data + pref_len, len - pref_len); bd->len = len - pref_len; return 1; } //case PROTOBUF_C_TYPE_GROUP, // NOT SUPPORTED case PROTOBUF_C_TYPE_MESSAGE: if (wire_type != PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED) return 0; { ProtobufCMessage **pmessage = member; ProtobufCMessage *subm; const ProtobufCMessage *def_mess; unsigned pref_len = scanned_member->length_prefix_len; def_mess = scanned_member->field->default_value; if (maybe_clear && *pmessage != NULL && *pmessage != def_mess) protobuf_c_message_free_unpacked (*pmessage, allocator); subm = protobuf_c_message_unpack (scanned_member->field->descriptor, allocator, len - pref_len, data + pref_len); *pmessage = subm; /* since we freed the message we must clear the field, even if NULL */ if (subm == NULL) return 0; return 1; } } return 0; } static protobuf_c_boolean parse_optional_member (ScannedMember *scanned_member, void *member, ProtobufCMessage *message, ProtobufCAllocator *allocator) { if (!parse_required_member (scanned_member, member, allocator, TRUE)) return 0; if (scanned_member->field->quantifier_offset != 0) STRUCT_MEMBER (protobuf_c_boolean, message, scanned_member->field->quantifier_offset) = 1; return 1; } static protobuf_c_boolean parse_repeated_member (ScannedMember *scanned_member, void *member, ProtobufCMessage *message, ProtobufCAllocator *allocator) { const ProtobufCFieldDescriptor *field = scanned_member->field; size_t *p_n = STRUCT_MEMBER_PTR(size_t, message, field->quantifier_offset); size_t siz = sizeof_elt_in_repeated_array (field->type); char *array = *(char**)member; if (!parse_required_member (scanned_member, array + siz * (*p_n), allocator, FALSE)) return 0; *p_n += 1; return 1; } static unsigned scan_varint (unsigned len, const uint8_t *data) { unsigned i; if (len > 10) len = 10; for (i = 0; i < len; i++) if ((data[i] & 0x80) == 0) break; if (i == len) return 0; return i + 1; } static protobuf_c_boolean parse_packed_repeated_member (ScannedMember *scanned_member, void *member, ProtobufCMessage *message) { const ProtobufCFieldDescriptor *field = scanned_member->field; size_t *p_n = STRUCT_MEMBER_PTR(size_t, message, field->quantifier_offset); size_t siz = sizeof_elt_in_repeated_array (field->type); char *array = *(char**)member + siz * (*p_n); const uint8_t *at = scanned_member->data + scanned_member->length_prefix_len; size_t rem = scanned_member->len - scanned_member->length_prefix_len; size_t count = 0; unsigned i; switch (field->type) { case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: count = (scanned_member->len - scanned_member->length_prefix_len) / 4; #if IS_LITTLE_ENDIAN goto no_unpacking_needed; #else for (i = 0; i < count; i++) { ((uint32_t*)array)[i] = parse_fixed_uint32 (at); at += 4; } #endif break; case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: count = (scanned_member->len - scanned_member->length_prefix_len) / 8; #if IS_LITTLE_ENDIAN goto no_unpacking_needed; #else for (i = 0; i < count; i++) { ((uint64_t*)array)[i] = parse_fixed_uint64 (at); at += 8; } break; #endif case PROTOBUF_C_TYPE_INT32: while (rem > 0) { unsigned s = scan_varint (rem, at); if (s == 0) { UNPACK_ERROR (("bad packed-repeated int32 value")); return FALSE; } ((int32_t*)array)[count++] = parse_int32 (s, at); at += s; rem -= s; } break; case PROTOBUF_C_TYPE_SINT32: while (rem > 0) { unsigned s = scan_varint (rem, at); if (s == 0) { UNPACK_ERROR (("bad packed-repeated sint32 value")); return FALSE; } ((int32_t*)array)[count++] = unzigzag32 (parse_uint32 (s, at)); at += s; rem -= s; } break; case PROTOBUF_C_TYPE_ENUM: case PROTOBUF_C_TYPE_UINT32: while (rem > 0) { unsigned s = scan_varint (rem, at); if (s == 0) { UNPACK_ERROR (("bad packed-repeated enum or uint32 value")); return FALSE; } ((uint32_t*)array)[count++] = parse_uint32 (s, at); at += s; rem -= s; } break; case PROTOBUF_C_TYPE_SINT64: while (rem > 0) { unsigned s = scan_varint (rem, at); if (s == 0) { UNPACK_ERROR (("bad packed-repeated sint64 value")); return FALSE; } ((int64_t*)array)[count++] = unzigzag64 (parse_uint64 (s, at)); at += s; rem -= s; } break; case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_UINT64: while (rem > 0) { unsigned s = scan_varint (rem, at); if (s == 0) { UNPACK_ERROR (("bad packed-repeated int64/uint64 value")); return FALSE; } ((int64_t*)array)[count++] = parse_uint64 (s, at); at += s; rem -= s; } break; case PROTOBUF_C_TYPE_BOOL: count = rem; for (i = 0; i < count; i++) { if (at[i] > 1) { UNPACK_ERROR (("bad packed-repeated boolean value")); return FALSE; } ((protobuf_c_boolean*)array)[i] = at[i]; } break; default: assert(0); } *p_n += count; return TRUE; no_unpacking_needed: memcpy (array, at, count * siz); *p_n += count; return TRUE; } static protobuf_c_boolean parse_member (ScannedMember *scanned_member, ProtobufCMessage *message, ProtobufCAllocator *allocator) { const ProtobufCFieldDescriptor *field = scanned_member->field; void *member; if (field == NULL) { ProtobufCMessageUnknownField *ufield = message->unknown_fields + (message->n_unknown_fields++); ufield->tag = scanned_member->tag; ufield->wire_type = scanned_member->wire_type; ufield->len = scanned_member->len; DO_UNALIGNED_ALLOC (ufield->data, allocator, scanned_member->len, return 0); memcpy (ufield->data, scanned_member->data, ufield->len); return 1; } member = (char*)message + field->offset; switch (field->label) { case PROTOBUF_C_LABEL_REQUIRED: return parse_required_member (scanned_member, member, allocator, TRUE); case PROTOBUF_C_LABEL_OPTIONAL: return parse_optional_member (scanned_member, member, message, allocator); case PROTOBUF_C_LABEL_REPEATED: if (field->packed && scanned_member->wire_type == PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED) return parse_packed_repeated_member (scanned_member, member, message); else return parse_repeated_member (scanned_member, member, message, allocator); } PROTOBUF_C_ASSERT_NOT_REACHED (); return 0; } /* TODO: expose/use this function if desc->message_init==NULL (which occurs for old code, and may be useful for certain programatic techniques for generating descriptors). */ void protobuf_c_message_init_generic (const ProtobufCMessageDescriptor *desc, ProtobufCMessage *message) { unsigned i; memset (message, 0, desc->sizeof_message); message->descriptor = desc; for (i = 0; i < desc->n_fields; i++) if (desc->fields[i].default_value != NULL && desc->fields[i].label != PROTOBUF_C_LABEL_REPEATED) { void *field = STRUCT_MEMBER_P (message, desc->fields[i].offset); const void *dv = desc->fields[i].default_value; switch (desc->fields[i].type) { case PROTOBUF_C_TYPE_INT32: case PROTOBUF_C_TYPE_SINT32: case PROTOBUF_C_TYPE_SFIXED32: case PROTOBUF_C_TYPE_UINT32: case PROTOBUF_C_TYPE_FIXED32: case PROTOBUF_C_TYPE_FLOAT: case PROTOBUF_C_TYPE_ENUM: memcpy (field, dv, 4); break; case PROTOBUF_C_TYPE_INT64: case PROTOBUF_C_TYPE_SINT64: case PROTOBUF_C_TYPE_SFIXED64: case PROTOBUF_C_TYPE_UINT64: case PROTOBUF_C_TYPE_FIXED64: case PROTOBUF_C_TYPE_DOUBLE: memcpy (field, dv, 8); break; case PROTOBUF_C_TYPE_BOOL: memcpy (field, dv, sizeof (protobuf_c_boolean)); break; case PROTOBUF_C_TYPE_BYTES: memcpy (field, dv, sizeof (ProtobufCBinaryData)); break; case PROTOBUF_C_TYPE_STRING: case PROTOBUF_C_TYPE_MESSAGE: /* the next line essentially implements a cast from const, which is totally unavoidable. */ *(const void**)field = dv; break; } } } /* ScannedMember slabs (an unpacking implementation detail). Before doing real unpacking, we first scan through the elements to see how many there are (for repeated fields), and which field to use (for non-repeated fields given twice). * In order to avoid allocations for small messages, we keep a stack-allocated slab of ScannedMembers of size FIRST_SCANNED_MEMBER_SLAB_SIZE (16). After we fill that up, we allocate each slab twice as large as the previous one. */ #define FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2 4 /* The number of slabs, including the stack-allocated ones; choose the number so that we would overflow if we needed a slab larger than provided. */ #define MAX_SCANNED_MEMBER_SLAB \ (sizeof(void*)*8 - 1 \ - BOUND_SIZEOF_SCANNED_MEMBER_LOG2 \ - FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2) ProtobufCMessage * protobuf_c_message_unpack (const ProtobufCMessageDescriptor *desc, ProtobufCAllocator *allocator, size_t len, const uint8_t *data) { ProtobufCMessage *rv; size_t rem = len; const uint8_t *at = data; const ProtobufCFieldDescriptor *last_field = desc->fields + 0; ScannedMember first_member_slab[1<n_fields + word_bits - 1) / word_bits; required_fields_bitmap = alloca(required_fields_bitmap_len * sizeof(long)); memset(required_fields_bitmap, 0, required_fields_bitmap_len * sizeof(long)); DO_ALLOC (rv, allocator, desc->sizeof_message, return NULL); scanned_member_slabs[0] = first_member_slab; /* Generated code always defines "message_init". However, we provide a fallback for (1) users of old protobuf-c generated-code that do not provide the function, and (2) descriptors constructed from some other source (most likely, direct construction from the .proto file) */ if (desc->message_init != NULL) protobuf_c_message_init (desc, rv); else protobuf_c_message_init_generic (desc, rv); while (rem > 0) { uint32_t tag; ProtobufCWireType wire_type; size_t used = parse_tag_and_wiretype (rem, at, &tag, &wire_type); const ProtobufCFieldDescriptor *field; ScannedMember tmp; if (used == 0) { UNPACK_ERROR (("error parsing tag/wiretype at offset %u", (unsigned)(at-data))); goto error_cleanup_during_scan; } /* XXX: consider optimizing for field[1].id == tag, if field[1] exists! */ if (last_field == NULL || last_field->id != tag) { /* lookup field */ int field_index = int_range_lookup (desc->n_field_ranges, desc->field_ranges, tag); if (field_index < 0) { field = NULL; n_unknown++; } else { field = desc->fields + field_index; last_field = field; last_field_index = field_index; } } else field = last_field; if (field != NULL && field->label == PROTOBUF_C_LABEL_REQUIRED) required_fields_bitmap[last_field_index / word_bits] |= (1UL << (last_field_index % word_bits)); at += used; rem -= used; tmp.tag = tag; tmp.wire_type = wire_type; tmp.field = field; tmp.data = at; switch (wire_type) { case PROTOBUF_C_WIRE_TYPE_VARINT: { unsigned max_len = rem < 10 ? rem : 10; unsigned i; for (i = 0; i < max_len; i++) if ((at[i] & 0x80) == 0) break; if (i == max_len) { UNPACK_ERROR (("unterminated varint at offset %u", (unsigned)(at-data))); goto error_cleanup_during_scan; } tmp.len = i + 1; } break; case PROTOBUF_C_WIRE_TYPE_64BIT: if (rem < 8) { UNPACK_ERROR (("too short after 64bit wiretype at offset %u", (unsigned)(at-data))); goto error_cleanup_during_scan; } tmp.len = 8; break; case PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED: { size_t pref_len; tmp.len = scan_length_prefixed_data (rem, at, &pref_len); if (tmp.len == 0) { /* NOTE: scan_length_prefixed_data calls UNPACK_ERROR */ goto error_cleanup_during_scan; } tmp.length_prefix_len = pref_len; break; } case PROTOBUF_C_WIRE_TYPE_32BIT: if (rem < 4) { UNPACK_ERROR (("too short after 32bit wiretype at offset %u", (unsigned)(at-data))); goto error_cleanup_during_scan; } tmp.len = 4; break; default: UNPACK_ERROR (("unsupported tag %u at offset %u", wire_type, (unsigned)(at-data))); goto error_cleanup_during_scan; } if (in_slab_index == (1U<<(which_slab+FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2))) { size_t size; in_slab_index = 0; if (which_slab == MAX_SCANNED_MEMBER_SLAB) { UNPACK_ERROR (("too many fields")); goto error_cleanup_during_scan; } which_slab++; size = sizeof(ScannedMember) << (which_slab+FIRST_SCANNED_MEMBER_SLAB_SIZE_LOG2); /* TODO: consider using alloca() ! */ if (allocator->tmp_alloc != NULL) scanned_member_slabs[which_slab] = TMPALLOC(allocator, size); else DO_ALLOC (scanned_member_slabs[which_slab], allocator, size, goto error_cleanup_during_scan); } scanned_member_slabs[which_slab][in_slab_index++] = tmp; if (field != NULL && field->label == PROTOBUF_C_LABEL_REPEATED) { size_t *n = STRUCT_MEMBER_PTR (size_t, rv, field->quantifier_offset); if (field->packed && wire_type == PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED) { size_t count; if (!count_packed_elements (field->type, tmp.len - tmp.length_prefix_len, tmp.data + tmp.length_prefix_len, &count)) { UNPACK_ERROR (("counting packed elements")); goto error_cleanup_during_scan; } *n += count; } else *n += 1; } at += tmp.len; rem -= tmp.len; } /* allocate space for repeated fields, also check that all required fields have been set */ for (f = 0; f < desc->n_fields; f++) { const ProtobufCFieldDescriptor *field = desc->fields + f; if (field->label == PROTOBUF_C_LABEL_REPEATED) { size_t siz = sizeof_elt_in_repeated_array (field->type); size_t *n_ptr = STRUCT_MEMBER_PTR (size_t, rv, field->quantifier_offset); if (*n_ptr != 0) { unsigned n = *n_ptr; *n_ptr = 0; assert(rv->descriptor != NULL); #define CLEAR_REMAINING_N_PTRS() \ for(f++;f < desc->n_fields; f++) \ { \ field = desc->fields + f; \ if (field->label == PROTOBUF_C_LABEL_REPEATED) \ STRUCT_MEMBER (size_t, rv, field->quantifier_offset) = 0; \ } DO_ALLOC (STRUCT_MEMBER (void *, rv, field->offset), allocator, siz * n, CLEAR_REMAINING_N_PTRS (); goto error_cleanup); #undef CLEAR_REMAINING_N_PTRS } } else if (field->label == PROTOBUF_C_LABEL_REQUIRED) { if (field->default_value == NULL && 0 == (required_fields_bitmap[f / word_bits] & (1UL << (f % word_bits)))) { UNPACK_ERROR (("message '%s': missing required field '%s'", desc->name, field->name)); goto error_cleanup; } } } /* allocate space for unknown fields */ if (n_unknown) { DO_ALLOC (rv->unknown_fields, allocator, n_unknown * sizeof (ProtobufCMessageUnknownField), goto error_cleanup); } /* do real parsing */ for (i_slab = 0; i_slab <= which_slab; i_slab++) { unsigned max = (i_slab == which_slab) ? in_slab_index : (1U<<(i_slab+4)); ScannedMember *slab = scanned_member_slabs[i_slab]; unsigned j; for (j = 0; j < max; j++) { if (!parse_member (slab + j, rv, allocator)) { UNPACK_ERROR (("error parsing member %s of %s", slab->field ? slab->field->name : "*unknown-field*", desc->name)); goto error_cleanup; } } } /* cleanup */ if (allocator->tmp_alloc == NULL) { unsigned j; for (j = 1; j <= which_slab; j++) FREE (allocator, scanned_member_slabs[j]); } return rv; error_cleanup: protobuf_c_message_free_unpacked (rv, allocator); if (allocator->tmp_alloc == NULL) { unsigned j; for (j = 1; j <= which_slab; j++) FREE (allocator, scanned_member_slabs[j]); } return NULL; error_cleanup_during_scan: FREE (allocator, rv); if (allocator->tmp_alloc == NULL) { unsigned j; for (j = 1; j <= which_slab; j++) FREE (allocator, scanned_member_slabs[j]); } return NULL; } /* === free_unpacked === */ void protobuf_c_message_free_unpacked (ProtobufCMessage *message, ProtobufCAllocator *allocator) { const ProtobufCMessageDescriptor *desc = message->descriptor; unsigned f; ASSERT_IS_MESSAGE (message); if (allocator == NULL) allocator = &protobuf_c_default_allocator; message->descriptor = NULL; for (f = 0; f < desc->n_fields; f++) { if (desc->fields[f].label == PROTOBUF_C_LABEL_REPEATED) { size_t n = STRUCT_MEMBER (size_t, message, desc->fields[f].quantifier_offset); void * arr = STRUCT_MEMBER (void *, message, desc->fields[f].offset); if (desc->fields[f].type == PROTOBUF_C_TYPE_STRING) { unsigned i; for (i = 0; i < n; i++) FREE (allocator, ((char**)arr)[i]); } else if (desc->fields[f].type == PROTOBUF_C_TYPE_BYTES) { unsigned i; for (i = 0; i < n; i++) FREE (allocator, ((ProtobufCBinaryData*)arr)[i].data); } else if (desc->fields[f].type == PROTOBUF_C_TYPE_MESSAGE) { unsigned i; for (i = 0; i < n; i++) protobuf_c_message_free_unpacked (((ProtobufCMessage**)arr)[i], allocator); } if (arr != NULL) FREE (allocator, arr); } else if (desc->fields[f].type == PROTOBUF_C_TYPE_STRING) { char *str = STRUCT_MEMBER (char *, message, desc->fields[f].offset); if (str && str != desc->fields[f].default_value) FREE (allocator, str); } else if (desc->fields[f].type == PROTOBUF_C_TYPE_BYTES) { void *data = STRUCT_MEMBER (ProtobufCBinaryData, message, desc->fields[f].offset).data; const ProtobufCBinaryData *default_bd; default_bd = desc->fields[f].default_value; if (data != NULL && (default_bd == NULL || default_bd->data != data)) FREE (allocator, data); } else if (desc->fields[f].type == PROTOBUF_C_TYPE_MESSAGE) { ProtobufCMessage *sm; sm = STRUCT_MEMBER (ProtobufCMessage *, message,desc->fields[f].offset); if (sm && sm != desc->fields[f].default_value) protobuf_c_message_free_unpacked (sm, allocator); } } for (f = 0; f < message->n_unknown_fields; f++) FREE (allocator, message->unknown_fields[f].data); if (message->unknown_fields != NULL) FREE (allocator, message->unknown_fields); FREE (allocator, message); } void protobuf_c_message_init (const ProtobufCMessageDescriptor *descriptor, void *message) { descriptor->message_init((ProtobufCMessage*) (message)); } /* === services === */ typedef void (*GenericHandler)(void *service, const ProtobufCMessage *input, ProtobufCClosure closure, void *closure_data); void protobuf_c_service_invoke_internal(ProtobufCService *service, unsigned method_index, const ProtobufCMessage *input, ProtobufCClosure closure, void *closure_data) { GenericHandler *handlers; GenericHandler handler; /* Verify that method_index is within range. If this fails, you are likely invoking a newly added method on an old service. (Although other memory corruption bugs can cause this assertion too) */ PROTOBUF_C_ASSERT (method_index < service->descriptor->n_methods); /* Get the array of virtual methods (which are enumerated by the generated code) */ handlers = (GenericHandler *) (service + 1); /* get our method and invoke it */ /* TODO: seems like handler==NULL is a situation that needs handling */ handler = handlers[method_index]; (*handler) (service, input, closure, closure_data); } void protobuf_c_service_generated_init (ProtobufCService *service, const ProtobufCServiceDescriptor *descriptor, ProtobufCServiceDestroy destroy) { ASSERT_IS_SERVICE_DESCRIPTOR(descriptor); service->descriptor = descriptor; service->destroy = destroy; service->invoke = protobuf_c_service_invoke_internal; memset (service + 1, 0, descriptor->n_methods * sizeof (GenericHandler)); } void protobuf_c_service_destroy (ProtobufCService *service) { service->destroy (service); } /* --- querying the descriptors --- */ const ProtobufCEnumValue * protobuf_c_enum_descriptor_get_value_by_name (const ProtobufCEnumDescriptor *desc, const char *name) { unsigned start = 0, count = desc->n_value_names; while (count > 1) { unsigned mid = start + count / 2; int rv = strcmp (desc->values_by_name[mid].name, name); if (rv == 0) return desc->values + desc->values_by_name[mid].index; else if (rv < 0) { count = start + count - (mid + 1); start = mid + 1; } else count = mid - start; } if (count == 0) return NULL; if (strcmp (desc->values_by_name[start].name, name) == 0) return desc->values + desc->values_by_name[start].index; return NULL; } const ProtobufCEnumValue * protobuf_c_enum_descriptor_get_value (const ProtobufCEnumDescriptor *desc, int value) { int rv = int_range_lookup (desc->n_value_ranges, desc->value_ranges, value); if (rv < 0) return NULL; return desc->values + rv; } const ProtobufCFieldDescriptor * protobuf_c_message_descriptor_get_field_by_name (const ProtobufCMessageDescriptor *desc, const char *name) { unsigned start = 0, count = desc->n_fields; const ProtobufCFieldDescriptor *field; while (count > 1) { unsigned mid = start + count / 2; int rv; field = desc->fields + desc->fields_sorted_by_name[mid]; rv = strcmp (field->name, name); if (rv == 0) return field; else if (rv < 0) { count = start + count - (mid + 1); start = mid + 1; } else count = mid - start; } if (count == 0) return NULL; field = desc->fields + desc->fields_sorted_by_name[start]; if (strcmp (field->name, name) == 0) return field; return NULL; } const ProtobufCFieldDescriptor * protobuf_c_message_descriptor_get_field (const ProtobufCMessageDescriptor *desc, unsigned value) { int rv = int_range_lookup (desc->n_field_ranges, desc->field_ranges, value); if (rv < 0) return NULL; return desc->fields + rv; } const ProtobufCMethodDescriptor * protobuf_c_service_descriptor_get_method_by_name (const ProtobufCServiceDescriptor *desc, const char *name) { unsigned start = 0, count = desc->n_methods; while (count > 1) { unsigned mid = start + count / 2; unsigned mid_index = desc->method_indices_by_name[mid]; const char *mid_name = desc->methods[mid_index].name; int rv = strcmp (mid_name, name); if (rv == 0) return desc->methods + desc->method_indices_by_name[mid]; if (rv < 0) { count = start + count - (mid + 1); start = mid + 1; } else { count = mid - start; } } if (count == 0) return NULL; if (strcmp (desc->methods[desc->method_indices_by_name[start]].name, name) == 0) return desc->methods + desc->method_indices_by_name[start]; return NULL; } protobuf-c-0.15/src/google/protobuf-c/gskrbtreemacros.h0000644000175000017500000020714211332660134020136 00000000000000#ifndef __GSK_RBTREE_MACROS_H_ #define __GSK_RBTREE_MACROS_H_ /* Macros for construction of a red-black tree. * Like our other macro-based data-structures, * this doesn't allocate memory, and it doesn't * use any helper functions. * * It supports "invasive" tree structures, * for example, you can have nodes that are members * of two different trees. * * A rbtree is a tuple: * top * type* * is_red * set_is_red * parent * left * right * comparator * that should be defined by a macro like "GET_TREE()". * See tests/test-rbtree-macros. * * The methods are: * INSERT(tree, node, collision_node) * Try to insert 'node' into tree. * If an equivalent node exists, * return it in collision_node, and do nothing else. * Otherwise, node is added to the tree * (and collision_node is set to NULL). * REMOVE(tree, node) * Remove a node from the tree. * LOOKUP(tree, node, out) * Find a node in the tree. * Finds the node equivalent with * 'node', and returns it in 'out', * or sets out to NULL if no node exists. * LOOKUP_COMPARATOR(tree, key, key_comparator, out) * Find a node in the tree, based on a key * which may not be in the same format as the node. * FIRST(tree, out) * Set 'out' to the first node in the tree. * LAST(tree, out) * Set 'out' to the last node in the tree. * PREV(tree, cur, out) * Set 'out' to the previous node in the tree before cur. * NEXT(tree, cur, out) * Set 'out' to the next node in the tree after cur. * INFIMUM_COMPARATOR(tree, key, key_comparator, out) * Find the last node in the tree which is before or equal to 'key'. * SUPREMUM_COMPARATOR(tree, key, key_comparator, out) * Find the first node in the tree which is after or equal to 'key'. * INFIMUM(tree, key, out) * Find the last node in the tree which is before or equal to 'key'. * SUPREMUM(tree, key, out) * Find the first node in the tree which is after or equal to 'key'. * * XXX: how about rename INFIMUM, SUPREMUM as LOOKUP_LE, LOOKUP_GE * respectively? * That is, LOOKUP_LE returns the largest elt less-than-or-equal-to the key * and LOOKUP_GE returns the smallest elt greater-than-or-equal-to the key. * You can think of it as a lookup that allows "slip" in the direction indicated. * LOOKUP_LT and LOOKUP_GT would be natural methods too-- for lookups * that don't permit equality. * * * Occasionally, you may need the "RBCTREE", which has the is_red flag, * but also keeps a "count" field at every node telling the size of that subtree. * This then has all the methods of RBTREE, plus: * GET_BY_INDEX(tree, n, out) * Return the n-th element in the tree. * GET_BY_INDEX_UNCHECKED(tree, n, out) * Return the n-th element in the tree; * n MUST be less than or equal to the number of * nodes in the tree. * GET_NODE_INDEX(tree, node, n_out) * Sets n_out to the index of node in the tree. * * An rbctree is a tuple: * top * type* * is_red * set_is_red * get_count * set_count * parent * left * right * comparator */ /* * By and large, the red-black tree algorithms used here are from * the classic text: * _Introduction to Algorithms_. Thomas Cormen, Charles Leiserson, * and Donald Rivest. MIT Press. 1990. * Citations appears as Algorithms:300 indicating page 300 (for example). * The "rbctree" is my name for this idea (daveb), * which i suspect has been thought of and implemented before. */ #define GSK_RBTREE_INSERT(tree, node, collision_node) \ GSK_RBTREE_INSERT_(tree, node, collision_node) #define GSK_RBTREE_REMOVE(tree, node) \ GSK_RBTREE_REMOVE_(tree, node) #define GSK_RBTREE_LOOKUP(tree, key, out) \ GSK_RBTREE_LOOKUP_(tree, key, out) #define GSK_RBTREE_LOOKUP_COMPARATOR(tree, key, key_comparator, out) \ GSK_RBTREE_LOOKUP_COMPARATOR_(tree, key, key_comparator, out) #define GSK_RBTREE_FIRST(tree, out) \ GSK_RBTREE_FIRST_(tree, out) #define GSK_RBTREE_LAST(tree, out) \ GSK_RBTREE_LAST_(tree, out) #define GSK_RBTREE_NEXT(tree, in, out) \ GSK_RBTREE_NEXT_(tree, in, out) #define GSK_RBTREE_PREV(tree, in, out) \ GSK_RBTREE_PREV_(tree, in, out) #define GSK_RBTREE_SUPREMUM(tree, key, out) \ GSK_RBTREE_SUPREMUM_(tree, key, out) #define GSK_RBTREE_SUPREMUM_COMPARATOR(tree, key, key_comparator, out) \ GSK_RBTREE_SUPREMUM_COMPARATOR_(tree, key, key_comparator, out) #define GSK_RBTREE_INFIMUM(tree, key, out) \ GSK_RBTREE_INFIMUM_(tree, key, out) #define GSK_RBTREE_INFIMUM_COMPARATOR(tree, key, key_comparator, out) \ GSK_RBTREE_INFIMUM_COMPARATOR_(tree, key, key_comparator, out) #if 1 #undef G_STMT_START #define G_STMT_START do #undef G_STMT_END #define G_STMT_END while(0) #endif #define GSK_RBTREE_INSERT_(top,type,is_red,set_is_red,parent,left,right,comparator, node,collision_node) \ G_STMT_START{ \ type _gsk_last = NULL; \ type _gsk_at = (top); \ protobuf_c_boolean _gsk_last_was_left = 0; \ collision_node = NULL; \ while (_gsk_at != NULL) \ { \ int _gsk_compare_rv; \ _gsk_last = _gsk_at; \ comparator(_gsk_at, (node), _gsk_compare_rv); \ if (_gsk_compare_rv > 0) \ { \ _gsk_last_was_left = 1; \ _gsk_at = _gsk_at->left; \ } \ else if (_gsk_compare_rv < 0) \ { \ _gsk_last_was_left = 0; \ _gsk_at = _gsk_at->right; \ } \ else \ break; \ } \ if (_gsk_at != NULL) \ { \ /* collision */ \ collision_node = _gsk_at; \ } \ else if (_gsk_last == NULL) \ { \ /* only node in tree */ \ top = (node); \ set_is_red ((node), 0); \ (node)->left = (node)->right = (node)->parent = NULL; \ } \ else \ { \ (node)->parent = _gsk_last; \ (node)->left = (node)->right = NULL; \ if (_gsk_last_was_left) \ _gsk_last->left = (node); \ else \ _gsk_last->right = (node); \ \ /* fixup */ \ _gsk_at = (node); \ set_is_red (_gsk_at, 1); \ while (top != _gsk_at && is_red(_gsk_at->parent)) \ { \ if (_gsk_at->parent == _gsk_at->parent->parent->left) \ { \ type _gsk_y = _gsk_at->parent->parent->right; \ if (_gsk_y != NULL && is_red (_gsk_y)) \ { \ set_is_red (_gsk_at->parent, 0); \ set_is_red (_gsk_y, 0); \ set_is_red (_gsk_at->parent->parent, 1); \ _gsk_at = _gsk_at->parent->parent; \ } \ else \ { \ if (_gsk_at == _gsk_at->parent->right) \ { \ _gsk_at = _gsk_at->parent; \ GSK_RBTREE_ROTATE_LEFT (top,type,parent,left,right, _gsk_at);\ } \ set_is_red(_gsk_at->parent, 0); \ set_is_red(_gsk_at->parent->parent, 1); \ GSK_RBTREE_ROTATE_RIGHT (top,type,parent,left,right, \ _gsk_at->parent->parent); \ } \ } \ else \ { \ type _gsk_y = _gsk_at->parent->parent->left; \ if (_gsk_y != NULL && is_red (_gsk_y)) \ { \ set_is_red (_gsk_at->parent, 0); \ set_is_red (_gsk_y, 0); \ set_is_red (_gsk_at->parent->parent, 1); \ _gsk_at = _gsk_at->parent->parent; \ } \ else \ { \ if (_gsk_at == _gsk_at->parent->left) \ { \ _gsk_at = _gsk_at->parent; \ GSK_RBTREE_ROTATE_RIGHT (top,type,parent,left,right, \ _gsk_at); \ } \ set_is_red(_gsk_at->parent, 0); \ set_is_red(_gsk_at->parent->parent, 1); \ GSK_RBTREE_ROTATE_LEFT (top,type,parent,left,right, \ _gsk_at->parent->parent); \ } \ } \ } \ set_is_red((top), 0); \ } \ }G_STMT_END #define GSK_RBTREE_REMOVE_(top,type,is_red,set_is_red,parent,left,right,comparator, node) \ /* Algorithms:273. */ \ G_STMT_START{ \ type _gsk_rb_del_z = (node); \ type _gsk_rb_del_x; \ type _gsk_rb_del_y; \ type _gsk_rb_del_nullpar = NULL; /* Used to emulate sentinel nodes */ \ protobuf_c_boolean _gsk_rb_del_fixup; \ if (_gsk_rb_del_z->left == NULL || _gsk_rb_del_z->right == NULL) \ _gsk_rb_del_y = _gsk_rb_del_z; \ else \ { \ GSK_RBTREE_NEXT_ (top,type,is_red,set_is_red,parent,left,right,comparator,\ _gsk_rb_del_z, _gsk_rb_del_y); \ } \ _gsk_rb_del_x = _gsk_rb_del_y->left ? _gsk_rb_del_y->left \ : _gsk_rb_del_y->right; \ if (_gsk_rb_del_x) \ _gsk_rb_del_x->parent = _gsk_rb_del_y->parent; \ else \ _gsk_rb_del_nullpar = _gsk_rb_del_y->parent; \ if (!_gsk_rb_del_y->parent) \ top = _gsk_rb_del_x; \ else \ { \ if (_gsk_rb_del_y == _gsk_rb_del_y->parent->left) \ _gsk_rb_del_y->parent->left = _gsk_rb_del_x; \ else \ _gsk_rb_del_y->parent->right = _gsk_rb_del_x; \ } \ _gsk_rb_del_fixup = !is_red(_gsk_rb_del_y); \ if (_gsk_rb_del_y != _gsk_rb_del_z) \ { \ set_is_red(_gsk_rb_del_y, is_red(_gsk_rb_del_z)); \ _gsk_rb_del_y->left = _gsk_rb_del_z->left; \ _gsk_rb_del_y->right = _gsk_rb_del_z->right; \ _gsk_rb_del_y->parent = _gsk_rb_del_z->parent; \ if (_gsk_rb_del_y->parent) \ { \ if (_gsk_rb_del_y->parent->left == _gsk_rb_del_z) \ _gsk_rb_del_y->parent->left = _gsk_rb_del_y; \ else \ _gsk_rb_del_y->parent->right = _gsk_rb_del_y; \ } \ else \ top = _gsk_rb_del_y; \ \ if (_gsk_rb_del_y->left) \ _gsk_rb_del_y->left->parent = _gsk_rb_del_y; \ if (_gsk_rb_del_y->right) \ _gsk_rb_del_y->right->parent = _gsk_rb_del_y; \ if (_gsk_rb_del_nullpar == _gsk_rb_del_z) \ _gsk_rb_del_nullpar = _gsk_rb_del_y; \ } \ if (_gsk_rb_del_fixup) \ { \ /* delete fixup (Algorithms, p 274) */ \ while (_gsk_rb_del_x != top \ && !(_gsk_rb_del_x != NULL && is_red (_gsk_rb_del_x))) \ { \ type _gsk_rb_del_xparent = _gsk_rb_del_x ? _gsk_rb_del_x->parent \ : _gsk_rb_del_nullpar; \ if (_gsk_rb_del_x == _gsk_rb_del_xparent->left) \ { \ type _gsk_rb_del_w = _gsk_rb_del_xparent->right; \ if (_gsk_rb_del_w != NULL && is_red (_gsk_rb_del_w)) \ { \ set_is_red (_gsk_rb_del_w, 0); \ set_is_red (_gsk_rb_del_xparent, 1); \ GSK_RBTREE_ROTATE_LEFT (top,type,parent,left,right, \ _gsk_rb_del_xparent); \ _gsk_rb_del_w = _gsk_rb_del_xparent->right; \ } \ if (!(_gsk_rb_del_w->left && is_red (_gsk_rb_del_w->left)) \ && !(_gsk_rb_del_w->right && is_red (_gsk_rb_del_w->right))) \ { \ set_is_red (_gsk_rb_del_w, 1); \ _gsk_rb_del_x = _gsk_rb_del_xparent; \ } \ else \ { \ if (!(_gsk_rb_del_w->right && is_red (_gsk_rb_del_w->right)))\ { \ if (_gsk_rb_del_w->left) \ set_is_red (_gsk_rb_del_w->left, 0); \ set_is_red (_gsk_rb_del_w, 1); \ GSK_RBTREE_ROTATE_RIGHT (top,type,parent,left,right, \ _gsk_rb_del_w); \ _gsk_rb_del_w = _gsk_rb_del_xparent->right; \ } \ set_is_red (_gsk_rb_del_w, is_red (_gsk_rb_del_xparent)); \ set_is_red (_gsk_rb_del_xparent, 0); \ set_is_red (_gsk_rb_del_w->right, 0); \ GSK_RBTREE_ROTATE_LEFT (top,type,parent,left,right, \ _gsk_rb_del_xparent); \ _gsk_rb_del_x = top; \ } \ } \ else \ { \ type _gsk_rb_del_w = _gsk_rb_del_xparent->left; \ if (_gsk_rb_del_w && is_red (_gsk_rb_del_w)) \ { \ set_is_red (_gsk_rb_del_w, 0); \ set_is_red (_gsk_rb_del_xparent, 1); \ GSK_RBTREE_ROTATE_RIGHT (top,type,parent,left,right, \ _gsk_rb_del_xparent); \ _gsk_rb_del_w = _gsk_rb_del_xparent->left; \ } \ if (!(_gsk_rb_del_w->right && is_red (_gsk_rb_del_w->right)) \ && !(_gsk_rb_del_w->left && is_red (_gsk_rb_del_w->left))) \ { \ set_is_red (_gsk_rb_del_w, 1); \ _gsk_rb_del_x = _gsk_rb_del_xparent; \ } \ else \ { \ if (!(_gsk_rb_del_w->left && is_red (_gsk_rb_del_w->left))) \ { \ set_is_red (_gsk_rb_del_w->right, 0); \ set_is_red (_gsk_rb_del_w, 1); \ GSK_RBTREE_ROTATE_LEFT (top,type,parent,left,right, \ _gsk_rb_del_w); \ _gsk_rb_del_w = _gsk_rb_del_xparent->left; \ } \ set_is_red (_gsk_rb_del_w, is_red (_gsk_rb_del_xparent)); \ set_is_red (_gsk_rb_del_xparent, 0); \ if (_gsk_rb_del_w->left) \ set_is_red (_gsk_rb_del_w->left, 0); \ GSK_RBTREE_ROTATE_RIGHT (top,type,parent,left,right, \ _gsk_rb_del_xparent); \ _gsk_rb_del_x = top; \ } \ } \ } \ if (_gsk_rb_del_x != NULL) \ set_is_red(_gsk_rb_del_x, 0); \ } \ _gsk_rb_del_z->left = NULL; \ _gsk_rb_del_z->right = NULL; \ _gsk_rb_del_z->parent = NULL; \ }G_STMT_END #define GSK_RBTREE_LOOKUP_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, \ key,key_comparator,out) \ G_STMT_START{ \ type _gsk_lookup_at = (top); \ while (_gsk_lookup_at) \ { \ int _gsk_compare_rv; \ key_comparator(key,_gsk_lookup_at,_gsk_compare_rv); \ if (_gsk_compare_rv < 0) \ _gsk_lookup_at = _gsk_lookup_at->left; \ else if (_gsk_compare_rv > 0) \ _gsk_lookup_at = _gsk_lookup_at->right; \ else \ break; \ } \ out = _gsk_lookup_at; \ }G_STMT_END /* see comments for 'SUPREMUM'; it is the same with the sense of the comparators * and left,right reversed. */ #define GSK_RBTREE_INFIMUM_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, \ key,key_comparator,out) \ G_STMT_START{ \ type _gsk_lookup_at = (top); \ type _gsk_lookup_rv = NULL; \ while (_gsk_lookup_at) \ { \ int _gsk_compare_rv; \ key_comparator(key,_gsk_lookup_at,_gsk_compare_rv); \ if (_gsk_compare_rv >= 0) \ { \ _gsk_lookup_rv = _gsk_lookup_at; \ _gsk_lookup_at = _gsk_lookup_at->right; \ } \ else \ _gsk_lookup_at = _gsk_lookup_at->left; \ } \ out = _gsk_lookup_rv; \ }G_STMT_END /* see introductory comments for a less mathematical * definition. but what 'supremum' computes is: * sup(tree, key) = min S(tree,key) or NULL if S(tree, key) * is empty, where S(tree,key) = { t | t \in tree && t >= key }. * The 'min' is determined by the 'comparator', * and the 't >= key' is determined by the 'key_comparator'. * But they must be consistent. * * so, here's a recursive description. suppose we wish to compute * the supremum sup(a, key), where 'a' is the node in the tree shown: * a * / \ * b c * Is 'a >= key'? Then 'a' is in S(a, key), * and hence sup(a,key) exists. But a "better" supremum, * in terms of being the 'min' in the tree, * may lie in 'b'. Nothing better may lie in 'c', since it * is larger, and we are computing a minimum of S. * * But if 'a < key', then 'a' is not in S. hence 'b' and its children * are not in S. Hence sup(a) = sup(c), including the possibility that * sup(C) = NULL. * * Therefore, * * sup(b) if 'a >= key', and sub(b) exists, [case0] * sup(a) = a if 'a >= key', and sub(b) does not exist, [case1] * sup(c) if 'a < key' and sub(c) exists, [case2] * NULL if 'a < key' and sub(c) does not exist. [case3] * * the non-recursive algo follows once you realize that it's just * a tree descent, keeping track of the best candidate you've found. * TODO: there's got to be a better way to describe it. */ #define GSK_RBTREE_SUPREMUM_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, \ key,key_comparator,out) \ G_STMT_START{ \ type _gsk_lookup_at = (top); \ type _gsk_lookup_rv = NULL; \ while (_gsk_lookup_at) \ { \ int _gsk_compare_rv; \ key_comparator(key,_gsk_lookup_at,_gsk_compare_rv); \ if (_gsk_compare_rv <= 0) \ { \ _gsk_lookup_rv = _gsk_lookup_at; \ _gsk_lookup_at = _gsk_lookup_at->left; \ } \ else \ _gsk_lookup_at = _gsk_lookup_at->right; \ } \ out = _gsk_lookup_rv; \ }G_STMT_END #define GSK_RBTREE_LOOKUP_(top,type,is_red,set_is_red,parent,left,right,comparator, key,out) \ GSK_RBTREE_LOOKUP_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, key,comparator,out) #define GSK_RBTREE_SUPREMUM_(top,type,is_red,set_is_red,parent,left,right,comparator, key,out) \ GSK_RBTREE_SUPREMUM_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, key,comparator,out) #define GSK_RBTREE_INFIMUM_(top,type,is_red,set_is_red,parent,left,right,comparator, key,out) \ GSK_RBTREE_INFIMUM_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, key,comparator,out) /* these macros don't need the is_red/set_is_red macros, nor the comparator, so omit them, to keep the lines a bit shorter. */ #define GSK_RBTREE_ROTATE_RIGHT(top,type,parent,left,right, node) \ GSK_RBTREE_ROTATE_LEFT(top,type,parent,right,left, node) #define GSK_RBTREE_ROTATE_LEFT(top,type,parent,left,right, node) \ G_STMT_START{ \ type _gsk_rot_x = (node); \ type _gsk_rot_y = _gsk_rot_x->right; \ \ _gsk_rot_x->right = _gsk_rot_y->left; \ if (_gsk_rot_y->left) \ _gsk_rot_y->left->parent = _gsk_rot_x; \ _gsk_rot_y->parent = _gsk_rot_x->parent; \ if (_gsk_rot_x->parent == NULL) \ top = _gsk_rot_y; \ else if (_gsk_rot_x == _gsk_rot_x->parent->left) \ _gsk_rot_x->parent->left = _gsk_rot_y; \ else \ _gsk_rot_x->parent->right = _gsk_rot_y; \ _gsk_rot_y->left = _gsk_rot_x; \ _gsk_rot_x->parent = _gsk_rot_y; \ }G_STMT_END /* iteration */ #define GSK_RBTREE_NEXT_(top,type,is_red,set_is_red,parent,left,right,comparator, in, out) \ G_STMT_START{ \ type _gsk_next_at = (in); \ protobuf_c_assert (_gsk_next_at != NULL); \ if (_gsk_next_at->right != NULL) \ { \ _gsk_next_at = _gsk_next_at->right; \ while (_gsk_next_at->left != NULL) \ _gsk_next_at = _gsk_next_at->left; \ out = _gsk_next_at; \ } \ else \ { \ type _gsk_next_parent = (in)->parent; \ while (_gsk_next_parent != NULL \ && _gsk_next_at == _gsk_next_parent->right) \ { \ _gsk_next_at = _gsk_next_parent; \ _gsk_next_parent = _gsk_next_parent->parent; \ } \ out = _gsk_next_parent; \ } \ }G_STMT_END /* prev is just next with left/right child reversed. */ #define GSK_RBTREE_PREV_(top,type,is_red,set_is_red,parent,left,right,comparator, in, out) \ GSK_RBTREE_NEXT_(top,type,is_red,set_is_red,parent,right,left,comparator, in, out) #define GSK_RBTREE_FIRST_(top,type,is_red,set_is_red,parent,left,right,comparator, out) \ G_STMT_START{ \ type _gsk_first_at = (top); \ if (_gsk_first_at != NULL) \ while (_gsk_first_at->left != NULL) \ _gsk_first_at = _gsk_first_at->left; \ out = _gsk_first_at; \ }G_STMT_END #define GSK_RBTREE_LAST_(top,type,is_red,set_is_red,parent,left,right,comparator, out) \ GSK_RBTREE_FIRST_(top,type,is_red,set_is_red,parent,right,left,comparator, out) /* --- RBC-Tree --- */ #define GSK_RBCTREE_INSERT(tree, node, collision_node) \ GSK_RBCTREE_INSERT_(tree, node, collision_node) #define GSK_RBCTREE_REMOVE(tree, node) \ GSK_RBCTREE_REMOVE_(tree, node) #define GSK_RBCTREE_LOOKUP(tree, key, out) \ GSK_RBCTREE_LOOKUP_(tree, key, out) #define GSK_RBCTREE_LOOKUP_COMPARATOR(tree, key, key_comparator, out) \ GSK_RBCTREE_LOOKUP_COMPARATOR_(tree, key, key_comparator, out) #define GSK_RBCTREE_FIRST(tree, out) \ GSK_RBCTREE_FIRST_(tree, out) #define GSK_RBCTREE_LAST(tree, out) \ GSK_RBCTREE_LAST_(tree, out) #define GSK_RBCTREE_NEXT(tree, in, out) \ GSK_RBCTREE_NEXT_(tree, in, out) #define GSK_RBCTREE_PREV(tree, in, out) \ GSK_RBCTREE_PREV_(tree, in, out) #define GSK_RBCTREE_SUPREMUM(tree, key, out) \ GSK_RBCTREE_SUPREMUM_(tree, key, out) #define GSK_RBCTREE_SUPREMUM_COMPARATOR(tree, key, key_comparator, out) \ GSK_RBCTREE_SUPREMUM_COMPARATOR_(tree, key, key_comparator, out) #define GSK_RBCTREE_INFIMUM(tree, key, out) \ GSK_RBCTREE_INFIMUM_(tree, key, out) #define GSK_RBCTREE_INFIMUM_COMPARATOR(tree, key, key_comparator, out) \ GSK_RBCTREE_INFIMUM_COMPARATOR_(tree, key, key_comparator, out) #define GSK_RBCTREE_GET_BY_INDEX(tree, index, out) \ GSK_RBCTREE_GET_BY_INDEX_(tree, index, out) #define GSK_RBCTREE_GET_BY_INDEX_UNCHECKED(tree, index, out) \ GSK_RBCTREE_GET_BY_INDEX_UNCHECKED_(tree, index, out) #define GSK_RBCTREE_GET_NODE_INDEX(tree, node, index_out) \ GSK_RBCTREE_GET_NODE_INDEX_(tree, node, index_out) #if 1 #undef G_STMT_START #define G_STMT_START do #undef G_STMT_END #define G_STMT_END while(0) #endif #define GSK_RBCTREE_INSERT_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, node,collision_node) \ G_STMT_START{ \ type _gsk_last = NULL; \ type _gsk_at = (top); \ protobuf_c_boolean _gsk_last_was_left = 0; \ collision_node = NULL; \ while (_gsk_at != NULL) \ { \ int _gsk_compare_rv; \ _gsk_last = _gsk_at; \ comparator(_gsk_at, (node), _gsk_compare_rv); \ if (_gsk_compare_rv > 0) \ { \ _gsk_last_was_left = 1; \ _gsk_at = _gsk_at->left; \ } \ else if (_gsk_compare_rv < 0) \ { \ _gsk_last_was_left = 0; \ _gsk_at = _gsk_at->right; \ } \ else \ break; \ } \ if (_gsk_at != NULL) \ { \ /* collision */ \ collision_node = _gsk_at; \ } \ else if (_gsk_last == NULL) \ { \ /* only node in tree */ \ top = (node); \ set_is_red ((node), 0); \ (node)->left = (node)->right = (node)->parent = NULL; \ set_count ((node), 1); \ } \ else \ { \ (node)->parent = _gsk_last; \ (node)->left = (node)->right = NULL; \ if (_gsk_last_was_left) \ _gsk_last->left = (node); \ else \ _gsk_last->right = (node); \ \ /* fixup counts */ \ set_count ((node), 1); \ for (_gsk_at = _gsk_last; _gsk_at; _gsk_at = _gsk_at->parent) \ { \ guint _gsk_new_count = get_count(_gsk_at) + 1; \ set_count(_gsk_at, _gsk_new_count); \ } \ \ /* fixup */ \ _gsk_at = (node); \ set_is_red (_gsk_at, 1); \ while (_gsk_at->parent != NULL && is_red(_gsk_at->parent)) \ { \ if (_gsk_at->parent == _gsk_at->parent->parent->left) \ { \ type _gsk_y = _gsk_at->parent->parent->right; \ if (_gsk_y != NULL && is_red (_gsk_y)) \ { \ set_is_red (_gsk_at->parent, 0); \ set_is_red (_gsk_y, 0); \ set_is_red (_gsk_at->parent->parent, 1); \ _gsk_at = _gsk_at->parent->parent; \ } \ else \ { \ if (_gsk_at == _gsk_at->parent->right) \ { \ _gsk_at = _gsk_at->parent; \ GSK_RBCTREE_ROTATE_LEFT (top,type,parent,left,right,get_count,set_count, _gsk_at);\ } \ set_is_red(_gsk_at->parent, 0); \ set_is_red(_gsk_at->parent->parent, 1); \ GSK_RBCTREE_ROTATE_RIGHT (top,type,parent,left,right,get_count,set_count,\ _gsk_at->parent->parent); \ } \ } \ else \ { \ type _gsk_y = _gsk_at->parent->parent->left; \ if (_gsk_y != NULL && is_red (_gsk_y)) \ { \ set_is_red (_gsk_at->parent, 0); \ set_is_red (_gsk_y, 0); \ set_is_red (_gsk_at->parent->parent, 1); \ _gsk_at = _gsk_at->parent->parent; \ } \ else \ { \ if (_gsk_at == _gsk_at->parent->left) \ { \ _gsk_at = _gsk_at->parent; \ GSK_RBCTREE_ROTATE_RIGHT (top,type,parent,left,right,get_count,set_count,\ _gsk_at); \ } \ set_is_red(_gsk_at->parent, 0); \ set_is_red(_gsk_at->parent->parent, 1); \ GSK_RBCTREE_ROTATE_LEFT (top,type,parent,left,right,get_count,set_count,\ _gsk_at->parent->parent); \ } \ } \ } \ set_is_red((top), 0); \ } \ }G_STMT_END #define GSK_RBCTREE_REMOVE_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, node) \ /* Algorithms:273. */ \ G_STMT_START{ \ type _gsk_rb_del_z = (node); \ type _gsk_rb_del_x; \ type _gsk_rb_del_y; \ type _gsk_rb_del_nullpar = NULL; /* Used to emulate sentinel nodes */ \ protobuf_c_boolean _gsk_rb_del_fixup; \ if (_gsk_rb_del_z->left == NULL || _gsk_rb_del_z->right == NULL) \ _gsk_rb_del_y = _gsk_rb_del_z; \ else \ { \ GSK_RBTREE_NEXT_ (top,type,is_red,set_is_red,parent,left,right,comparator,\ _gsk_rb_del_z, _gsk_rb_del_y); \ } \ _gsk_rb_del_x = _gsk_rb_del_y->left ? _gsk_rb_del_y->left \ : _gsk_rb_del_y->right; \ if (_gsk_rb_del_x) \ _gsk_rb_del_x->parent = _gsk_rb_del_y->parent; \ else \ _gsk_rb_del_nullpar = _gsk_rb_del_y->parent; \ if (!_gsk_rb_del_y->parent) \ top = _gsk_rb_del_x; \ else \ { \ if (_gsk_rb_del_y == _gsk_rb_del_y->parent->left) \ _gsk_rb_del_y->parent->left = _gsk_rb_del_x; \ else \ _gsk_rb_del_y->parent->right = _gsk_rb_del_x; \ _GSK_RBCTREE_FIX_COUNT_AND_UP(type,parent,left,right,get_count,set_count, _gsk_rb_del_y->parent);\ } \ _gsk_rb_del_fixup = !is_red(_gsk_rb_del_y); \ if (_gsk_rb_del_y != _gsk_rb_del_z) \ { \ set_is_red(_gsk_rb_del_y, is_red(_gsk_rb_del_z)); \ _gsk_rb_del_y->left = _gsk_rb_del_z->left; \ _gsk_rb_del_y->right = _gsk_rb_del_z->right; \ _gsk_rb_del_y->parent = _gsk_rb_del_z->parent; \ if (_gsk_rb_del_y->parent) \ { \ if (_gsk_rb_del_y->parent->left == _gsk_rb_del_z) \ _gsk_rb_del_y->parent->left = _gsk_rb_del_y; \ else \ _gsk_rb_del_y->parent->right = _gsk_rb_del_y; \ } \ else \ { \ top = _gsk_rb_del_y; \ } \ /* TODO: look at pictures to see if "_AND_UP" is necessary */ \ _GSK_RBCTREE_FIX_COUNT_AND_UP(type,parent,left,right,get_count,set_count, _gsk_rb_del_y);\ \ if (_gsk_rb_del_y->left) \ _gsk_rb_del_y->left->parent = _gsk_rb_del_y; \ if (_gsk_rb_del_y->right) \ _gsk_rb_del_y->right->parent = _gsk_rb_del_y; \ if (_gsk_rb_del_nullpar == _gsk_rb_del_z) \ _gsk_rb_del_nullpar = _gsk_rb_del_y; \ } \ if (_gsk_rb_del_fixup) \ { \ /* delete fixup (Algorithms, p 274) */ \ while (_gsk_rb_del_x != top \ && !(_gsk_rb_del_x != NULL && is_red (_gsk_rb_del_x))) \ { \ type _gsk_rb_del_xparent = _gsk_rb_del_x ? _gsk_rb_del_x->parent \ : _gsk_rb_del_nullpar; \ if (_gsk_rb_del_x == _gsk_rb_del_xparent->left) \ { \ type _gsk_rb_del_w = _gsk_rb_del_xparent->right; \ if (_gsk_rb_del_w != NULL && is_red (_gsk_rb_del_w)) \ { \ set_is_red (_gsk_rb_del_w, 0); \ set_is_red (_gsk_rb_del_xparent, 1); \ GSK_RBCTREE_ROTATE_LEFT (top,type,parent,left,right,get_count,set_count, \ _gsk_rb_del_xparent); \ _gsk_rb_del_w = _gsk_rb_del_xparent->right; \ } \ if (!(_gsk_rb_del_w->left && is_red (_gsk_rb_del_w->left)) \ && !(_gsk_rb_del_w->right && is_red (_gsk_rb_del_w->right))) \ { \ set_is_red (_gsk_rb_del_w, 1); \ _gsk_rb_del_x = _gsk_rb_del_xparent; \ } \ else \ { \ if (!(_gsk_rb_del_w->right && is_red (_gsk_rb_del_w->right)))\ { \ if (_gsk_rb_del_w->left) \ set_is_red (_gsk_rb_del_w->left, 0); \ set_is_red (_gsk_rb_del_w, 1); \ GSK_RBCTREE_ROTATE_RIGHT (top,type,parent,left,right,get_count,set_count, \ _gsk_rb_del_w); \ _gsk_rb_del_w = _gsk_rb_del_xparent->right; \ } \ set_is_red (_gsk_rb_del_w, is_red (_gsk_rb_del_xparent)); \ set_is_red (_gsk_rb_del_xparent, 0); \ set_is_red (_gsk_rb_del_w->right, 0); \ GSK_RBCTREE_ROTATE_LEFT (top,type,parent,left,right,get_count,set_count, \ _gsk_rb_del_xparent); \ _gsk_rb_del_x = top; \ } \ } \ else \ { \ type _gsk_rb_del_w = _gsk_rb_del_xparent->left; \ if (_gsk_rb_del_w && is_red (_gsk_rb_del_w)) \ { \ set_is_red (_gsk_rb_del_w, 0); \ set_is_red (_gsk_rb_del_xparent, 1); \ GSK_RBCTREE_ROTATE_RIGHT (top,type,parent,left,right,get_count,set_count, \ _gsk_rb_del_xparent); \ _gsk_rb_del_w = _gsk_rb_del_xparent->left; \ } \ if (!(_gsk_rb_del_w->right && is_red (_gsk_rb_del_w->right)) \ && !(_gsk_rb_del_w->left && is_red (_gsk_rb_del_w->left))) \ { \ set_is_red (_gsk_rb_del_w, 1); \ _gsk_rb_del_x = _gsk_rb_del_xparent; \ } \ else \ { \ if (!(_gsk_rb_del_w->left && is_red (_gsk_rb_del_w->left))) \ { \ set_is_red (_gsk_rb_del_w->right, 0); \ set_is_red (_gsk_rb_del_w, 1); \ GSK_RBCTREE_ROTATE_LEFT (top,type,parent,left,right,get_count,set_count, \ _gsk_rb_del_w); \ _gsk_rb_del_w = _gsk_rb_del_xparent->left; \ } \ set_is_red (_gsk_rb_del_w, is_red (_gsk_rb_del_xparent)); \ set_is_red (_gsk_rb_del_xparent, 0); \ if (_gsk_rb_del_w->left) \ set_is_red (_gsk_rb_del_w->left, 0); \ GSK_RBCTREE_ROTATE_RIGHT (top,type,parent,left,right,get_count,set_count, \ _gsk_rb_del_xparent); \ _gsk_rb_del_x = top; \ } \ } \ } \ if (_gsk_rb_del_x != NULL) \ set_is_red(_gsk_rb_del_x, 0); \ } \ _gsk_rb_del_z->left = NULL; \ _gsk_rb_del_z->right = NULL; \ _gsk_rb_del_z->parent = NULL; \ }G_STMT_END #define GSK_RBCTREE_LOOKUP_COMPARATOR_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, \ key,key_comparator,out) \ GSK_RBTREE_LOOKUP_COMPARATOR_(top,type,is_red,set_count,parent,left,right,comparator, key,key_comparator,out) #define GSK_RBCTREE_INFIMUM_COMPARATOR_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, \ key,key_comparator,out) \ GSK_RBTREE_INFIMUM_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, key,key_comparator,out) #define GSK_RBCTREE_SUPREMUM_COMPARATOR_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, \ key,key_comparator,out) \ GSK_RBTREE_SUPREMUM_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, key,key_comparator,out) #define GSK_RBCTREE_LOOKUP_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, key,out) \ GSK_RBTREE_LOOKUP_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, key,comparator,out) #define GSK_RBCTREE_SUPREMUM_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, key,out) \ GSK_RBTREE_SUPREMUM_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, key,comparator,out) #define GSK_RBCTREE_INFIMUM_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, key,out) \ GSK_RBTREE_INFIMUM_COMPARATOR_(top,type,is_red,set_is_red,parent,left,right,comparator, key,comparator,out) #define GSK_RBCTREE_NEXT_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, in, out) \ GSK_RBTREE_NEXT_(top,type,is_red,set_is_red,parent,left,right,comparator, in, out) #define GSK_RBCTREE_PREV_(top,type,is_red,set_is_red,parent,left,right,comparator, in, out) \ GSK_RBTREE_PREV_(top,type,is_red,set_is_red,parent,left,right,comparator, in, out) #define GSK_RBCTREE_FIRST_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, out) \ GSK_RBTREE_FIRST_(top,type,is_red,set_is_red,parent,left,right,comparator, out) #define GSK_RBCTREE_LAST_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, out) \ GSK_RBTREE_LAST_(top,type,is_red,set_is_red,parent,left,right,comparator, out) #define GSK_RBCTREE_GET_BY_INDEX_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, index,out) \ G_STMT_START{ \ if (top == NULL || (index) >= get_count(top)) \ out = NULL; \ else \ GSK_RBCTREE_GET_BY_INDEX_UNCHECKED_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, index,out);\ }G_STMT_END #define GSK_RBCTREE_GET_BY_INDEX_UNCHECKED_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, index,out) \ G_STMT_START{ \ type _gsk_at = (top); \ guint _gsk_index = (index); \ for (;;) \ { \ guint _gsk_left_size = _gsk_at->left ? get_count(_gsk_at->left) : 0; \ if (_gsk_index < _gsk_left_size) \ _gsk_at = _gsk_at->left; \ else if (_gsk_index == _gsk_left_size) \ break; \ else \ { \ _gsk_index -= (_gsk_left_size + 1); \ _gsk_at = _gsk_at->right; \ } \ } \ out = _gsk_at; \ }G_STMT_END #define GSK_RBCTREE_GET_NODE_INDEX_(top,type,is_red,set_is_red,get_count,set_count,parent,left,right,comparator, node,index_out) \ G_STMT_START{ \ type _gsk_at = (node); \ guint _gsk_rv = _gsk_at->left ? get_count (_gsk_at->left) : 0; \ while (_gsk_at->parent != NULL) \ { \ if (_gsk_at->parent->left == _gsk_at) \ ; \ else \ { \ if (_gsk_at->parent->left) \ _gsk_rv += get_count((_gsk_at->parent->left)); \ _gsk_rv += 1; \ } \ _gsk_at = _gsk_at->parent; \ } \ index_out = _gsk_rv; \ }G_STMT_END #define GSK_RBCTREE_ROTATE_RIGHT(top,type,parent,left,right,get_count,set_count, node) \ GSK_RBCTREE_ROTATE_LEFT(top,type,parent,right,left,get_count,set_count, node) #define GSK_RBCTREE_ROTATE_LEFT(top,type,parent,left,right,get_count,set_count, node) \ G_STMT_START{ \ type _gsk_rot_x = (node); \ type _gsk_rot_y = _gsk_rot_x->right; \ \ _gsk_rot_x->right = _gsk_rot_y->left; \ if (_gsk_rot_y->left) \ _gsk_rot_y->left->parent = _gsk_rot_x; \ _gsk_rot_y->parent = _gsk_rot_x->parent; \ if (_gsk_rot_x->parent == NULL) \ top = _gsk_rot_y; \ else if (_gsk_rot_x == _gsk_rot_x->parent->left) \ _gsk_rot_x->parent->left = _gsk_rot_y; \ else \ _gsk_rot_x->parent->right = _gsk_rot_y; \ _gsk_rot_y->left = _gsk_rot_x; \ _gsk_rot_x->parent = _gsk_rot_y; \ \ /* fixup counts. */ \ /* to re-derive this here's what rotate_left(x) does pictorially: */ \ /* x y */ \ /* / \ / \ */ \ /* a y == rotate_left(x) ==> x c */ \ /* / \ / \ */ \ /* b c a b */ \ /* */ \ /* so: n0 = get_count(x) (==a+b+c+2) */ \ /* n1 = get_count(c) (c may be null) */ \ /* n2 = n0 - n1 - 1; */ \ /* set_count(x, n2) */ \ /* set_count(y, n0) */ \ /* c is _gsk_rot_y->right at this point */ \ /* */ \ /* equivalently: */ \ /* y->count = x->count; */ \ /* x->count -= c->count + 1 */ \ { \ guint _gsk_rot_n0 = get_count(_gsk_rot_x); \ guint _gsk_rot_n1 = _gsk_rot_y->right ? get_count(_gsk_rot_y->right) : 0; \ guint _gsk_rot_n2 = _gsk_rot_n0 - _gsk_rot_n1 - 1; \ set_count (_gsk_rot_x, _gsk_rot_n2); \ set_count (_gsk_rot_y, _gsk_rot_n0); \ } \ }G_STMT_END /* utility: recompute node's count, based on count of its children */ #define _GSK_RBCTREE_FIX_COUNT(type,parent,left,right,get_count,set_count, node) \ G_STMT_START{ \ guint _gsk_fixcount_count = 1; \ if ((node)->left != NULL) \ _gsk_fixcount_count += get_count((node)->left); \ if ((node)->right != NULL) \ _gsk_fixcount_count += get_count((node)->right); \ set_count((node), _gsk_fixcount_count); \ }G_STMT_END /* utility: recompute node's count, based on count of its children */ #define _GSK_RBCTREE_FIX_COUNT_AND_UP(type,parent,left,right,get_count,set_count, node) \ G_STMT_START{ \ type _tmp_fix_count_up; \ for (_tmp_fix_count_up = (node); \ _tmp_fix_count_up != NULL; \ _tmp_fix_count_up = _tmp_fix_count_up->parent) \ _GSK_RBCTREE_FIX_COUNT (type,parent,left,right,get_count,set_count, _tmp_fix_count_up);\ }G_STMT_END #endif protobuf-c-0.15/src/google/protobuf-c/protobuf-c-data-buffer.c0000644000175000017500000007406511536220130021172 00000000000000/* Free blocks to hold around to avoid repeated mallocs... */ #define MAX_RECYCLED 16 /* Size of allocations to make. */ #define BUF_CHUNK_SIZE 8192 /* Max fragments in the iovector to writev. */ #define MAX_FRAGMENTS_TO_WRITE 16 /* This causes fragments not to be transferred from buffer to buffer, * and not to be allocated in pools. The result is that stack-trace * based debug-allocators work much better with this on. * * On the other hand, this can mask over some abuses (eg stack-based * foreign buffer fragment bugs) so we disable it by default. */ #define GSK_DEBUG_BUFFER_ALLOCATIONS 0 #define BUFFER_RECYCLING 0 #if HAVE_PROTOBUF_C_CONFIG_H #include "protobuf-c-config.h" #endif #include #if HAVE_SYS_UIO_H /* writev function isn't available on Windows */ #include #endif #if HAVE_UNISTD_H #include #elif HAVE_IO_H #include #define read _read #endif #include #include #if HAVE_ALLOCA_H # include #elif HAVE_MALLOC_H # include #endif #include #include "protobuf-c-data-buffer.h" #undef TRUE #define TRUE 1 #undef FALSE #define FALSE 0 #define PROTOBUF_C_FRAGMENT_DATA_SIZE 4096 #define PROTOBUF_C_FRAGMENT_DATA(frag) ((uint8_t*)(((ProtobufCDataBufferFragment*)(frag))+1)) /* --- ProtobufCDataBufferFragment implementation --- */ static inline int protobuf_c_data_buffer_fragment_avail (ProtobufCDataBufferFragment *frag) { return PROTOBUF_C_FRAGMENT_DATA_SIZE - frag->buf_start - frag->buf_length; } static inline uint8_t * protobuf_c_data_buffer_fragment_start (ProtobufCDataBufferFragment *frag) { return PROTOBUF_C_FRAGMENT_DATA(frag) + frag->buf_start; } static inline uint8_t * protobuf_c_data_buffer_fragment_end (ProtobufCDataBufferFragment *frag) { return PROTOBUF_C_FRAGMENT_DATA(frag) + frag->buf_start + frag->buf_length; } /* --- ProtobufCDataBufferFragment recycling --- */ #if BUFFER_RECYCLING static int num_recycled = 0; static ProtobufCDataBufferFragment* recycling_stack = 0; #endif static ProtobufCDataBufferFragment * new_native_fragment(ProtobufCAllocator *allocator) { ProtobufCDataBufferFragment *frag; #if !BUFFER_RECYCLING frag = (ProtobufCDataBufferFragment *) allocator->alloc (allocator, BUF_CHUNK_SIZE); #else /* optimized (?) */ if (recycling_stack) { frag = recycling_stack; recycling_stack = recycling_stack->next; num_recycled--; } else { frag = (ProtobufCDataBufferFragment *) g_malloc (BUF_CHUNK_SIZE); } #endif /* !GSK_DEBUG_BUFFER_ALLOCATIONS */ frag->buf_start = frag->buf_length = 0; frag->next = 0; return frag; } #if GSK_DEBUG_BUFFER_ALLOCATIONS || !BUFFER_RECYCLING #define recycle(allocator, frag) allocator->free (allocator, frag) #else /* optimized (?) */ static void recycle(ProtobufCDataBufferFragment* frag, ProtobufCAllocator *allocator) { frag->next = recycling_stack; recycling_stack = frag; num_recycled++; } #endif /* !GSK_DEBUG_BUFFER_ALLOCATIONS */ /* --- Global public methods --- */ /** * protobuf_c_data_buffer_cleanup_recycling_bin: * * Free unused buffer fragments. (Normally some are * kept around to reduce strain on the global allocator.) */ void protobuf_c_data_buffer_cleanup_recycling_bin () { #if !GSK_DEBUG_BUFFER_ALLOCATIONS && BUFFER_RECYCLING G_LOCK (recycling_stack); while (recycling_stack != NULL) { ProtobufCDataBufferFragment *next; next = recycling_stack->next; g_free (recycling_stack); recycling_stack = next; } num_recycled = 0; G_UNLOCK (recycling_stack); #endif } /* --- Public methods --- */ /** * protobuf_c_data_buffer_init: * @buffer: buffer to initialize (as empty). * * Construct an empty buffer out of raw memory. * (This is equivalent to filling the buffer with 0s) */ void protobuf_c_data_buffer_init(ProtobufCDataBuffer *buffer, ProtobufCAllocator *allocator) { buffer->first_frag = buffer->last_frag = NULL; buffer->size = 0; buffer->allocator = allocator; } #if defined(GSK_DEBUG) || GSK_DEBUG_BUFFER_ALLOCATIONS static inline gboolean verify_buffer (const ProtobufCDataBuffer *buffer) { const ProtobufCDataBufferFragment *frag; size_t total = 0; for (frag = buffer->first_frag; frag != NULL; frag = frag->next) total += frag->buf_length; return total == buffer->size; } #define CHECK_INTEGRITY(buffer) g_assert (verify_buffer (buffer)) #else #define CHECK_INTEGRITY(buffer) #endif /** * protobuf_c_data_buffer_append: * @buffer: the buffer to add data to. Data is put at the end of the buffer. * @data: binary data to add to the buffer. * @length: length of @data to add to the buffer. * * Append data into the buffer. */ void protobuf_c_data_buffer_append(ProtobufCDataBuffer *buffer, const void *data, size_t length) { CHECK_INTEGRITY (buffer); buffer->size += length; while (length > 0) { size_t avail; if (!buffer->last_frag) { buffer->last_frag = buffer->first_frag = new_native_fragment (buffer->allocator); avail = protobuf_c_data_buffer_fragment_avail (buffer->last_frag); } else { avail = protobuf_c_data_buffer_fragment_avail (buffer->last_frag); if (avail <= 0) { buffer->last_frag->next = new_native_fragment (buffer->allocator); avail = protobuf_c_data_buffer_fragment_avail (buffer->last_frag); buffer->last_frag = buffer->last_frag->next; } } if (avail > length) avail = length; memcpy (protobuf_c_data_buffer_fragment_end (buffer->last_frag), data, avail); data = (const char *) data + avail; length -= avail; buffer->last_frag->buf_length += avail; } CHECK_INTEGRITY (buffer); } void protobuf_c_data_buffer_append_repeated_char (ProtobufCDataBuffer *buffer, char character, size_t count) { CHECK_INTEGRITY (buffer); buffer->size += count; while (count > 0) { size_t avail; if (!buffer->last_frag) { buffer->last_frag = buffer->first_frag = new_native_fragment (buffer->allocator); avail = protobuf_c_data_buffer_fragment_avail (buffer->last_frag); } else { avail = protobuf_c_data_buffer_fragment_avail (buffer->last_frag); if (avail <= 0) { buffer->last_frag->next = new_native_fragment (buffer->allocator); avail = protobuf_c_data_buffer_fragment_avail (buffer->last_frag); buffer->last_frag = buffer->last_frag->next; } } if (avail > count) avail = count; memset (protobuf_c_data_buffer_fragment_end (buffer->last_frag), character, avail); count -= avail; buffer->last_frag->buf_length += avail; } CHECK_INTEGRITY (buffer); } #if 0 void protobuf_c_data_buffer_append_repeated_data (ProtobufCDataBuffer *buffer, gconstpointer data_to_repeat, gsize data_length, gsize count) { ... } #endif /** * protobuf_c_data_buffer_append_string: * @buffer: the buffer to add data to. Data is put at the end of the buffer. * @string: NUL-terminated string to append to the buffer. * The NUL is not appended. * * Append a string to the buffer. */ void protobuf_c_data_buffer_append_string(ProtobufCDataBuffer *buffer, const char *string) { assert (string != NULL); protobuf_c_data_buffer_append (buffer, string, strlen (string)); } /** * protobuf_c_data_buffer_append_char: * @buffer: the buffer to add the byte to. * @character: the byte to add to the buffer. * * Append a byte to a buffer. */ void protobuf_c_data_buffer_append_char(ProtobufCDataBuffer *buffer, char character) { protobuf_c_data_buffer_append (buffer, &character, 1); } /** * protobuf_c_data_buffer_append_string0: * @buffer: the buffer to add data to. Data is put at the end of the buffer. * @string: NUL-terminated string to append to the buffer; * NUL is appended. * * Append a NUL-terminated string to the buffer. The NUL is appended. */ void protobuf_c_data_buffer_append_string0 (ProtobufCDataBuffer *buffer, const char *string) { protobuf_c_data_buffer_append (buffer, string, strlen (string) + 1); } /** * protobuf_c_data_buffer_read: * @buffer: the buffer to read data from. * @data: buffer to fill with up to @max_length bytes of data. * @max_length: maximum number of bytes to read. * * Removes up to @max_length data from the beginning of the buffer, * and writes it to @data. The number of bytes actually read * is returned. * * returns: number of bytes transferred. */ size_t protobuf_c_data_buffer_read(ProtobufCDataBuffer *buffer, void *data, size_t max_length) { size_t rv = 0; size_t orig_max_length = max_length; CHECK_INTEGRITY (buffer); while (max_length > 0 && buffer->first_frag) { ProtobufCDataBufferFragment *first = buffer->first_frag; if (first->buf_length <= max_length) { memcpy (data, protobuf_c_data_buffer_fragment_start (first), first->buf_length); rv += first->buf_length; data = (char *) data + first->buf_length; max_length -= first->buf_length; buffer->first_frag = first->next; if (!buffer->first_frag) buffer->last_frag = NULL; recycle (buffer->allocator, first); } else { memcpy (data, protobuf_c_data_buffer_fragment_start (first), max_length); rv += max_length; first->buf_length -= max_length; first->buf_start += max_length; data = (char *) data + max_length; max_length = 0; } } buffer->size -= rv; assert (rv == orig_max_length || buffer->size == 0); CHECK_INTEGRITY (buffer); return rv; } /** * protobuf_c_data_buffer_peek: * @buffer: the buffer to peek data from the front of. * This buffer is unchanged by the operation. * @data: buffer to fill with up to @max_length bytes of data. * @max_length: maximum number of bytes to peek. * * Copies up to @max_length data from the beginning of the buffer, * and writes it to @data. The number of bytes actually copied * is returned. * * This function is just like protobuf_c_data_buffer_read() except that the * data is not removed from the buffer. * * returns: number of bytes copied into data. */ size_t protobuf_c_data_buffer_peek (const ProtobufCDataBuffer *buffer, void *data, size_t max_length) { int rv = 0; ProtobufCDataBufferFragment *frag = (ProtobufCDataBufferFragment *) buffer->first_frag; CHECK_INTEGRITY (buffer); while (max_length > 0 && frag) { if (frag->buf_length <= max_length) { memcpy (data, protobuf_c_data_buffer_fragment_start (frag), frag->buf_length); rv += frag->buf_length; data = (char *) data + frag->buf_length; max_length -= frag->buf_length; frag = frag->next; } else { memcpy (data, protobuf_c_data_buffer_fragment_start (frag), max_length); rv += max_length; data = (char *) data + max_length; max_length = 0; } } return rv; } /** * protobuf_c_data_buffer_read_line: * @buffer: buffer to read a line from. * * Parse a newline (\n) terminated line from * buffer and return it as a newly allocated string. * The newline is changed to a NUL character. * * If the buffer does not contain a newline, then NULL is returned. * * returns: a newly allocated NUL-terminated string, or NULL. */ char * protobuf_c_data_buffer_read_line(ProtobufCDataBuffer *buffer) { int len = 0; char *rv; ProtobufCDataBufferFragment *at; int newline_length; CHECK_INTEGRITY (buffer); for (at = buffer->first_frag; at; at = at->next) { uint8_t *start = protobuf_c_data_buffer_fragment_start (at); uint8_t *got; got = memchr (start, '\n', at->buf_length); if (got) { len += got - start; break; } len += at->buf_length; } if (at == NULL) return NULL; rv = buffer->allocator->alloc (buffer->allocator, len + 1); /* If we found a newline, read it out, truncating * it with NUL before we return from the function... */ if (at) newline_length = 1; else newline_length = 0; protobuf_c_data_buffer_read (buffer, rv, len + newline_length); rv[len] = 0; CHECK_INTEGRITY (buffer); return rv; } /** * protobuf_c_data_buffer_parse_string0: * @buffer: buffer to read a line from. * * Parse a NUL-terminated line from * buffer and return it as a newly allocated string. * * If the buffer does not contain a newline, then NULL is returned. * * returns: a newly allocated NUL-terminated string, or NULL. */ char * protobuf_c_data_buffer_parse_string0(ProtobufCDataBuffer *buffer) { int index0 = protobuf_c_data_buffer_index_of (buffer, '\0'); char *rv; if (index0 < 0) return NULL; rv = buffer->allocator->alloc (buffer->allocator, index0 + 1); protobuf_c_data_buffer_read (buffer, rv, index0 + 1); return rv; } /** * protobuf_c_data_buffer_peek_char: * @buffer: buffer to peek a single byte from. * * Get the first byte in the buffer as a positive or 0 number. * If the buffer is empty, -1 is returned. * The buffer is unchanged. * * returns: an unsigned character or -1. */ int protobuf_c_data_buffer_peek_char(const ProtobufCDataBuffer *buffer) { const ProtobufCDataBufferFragment *frag; if (buffer->size == 0) return -1; for (frag = buffer->first_frag; frag; frag = frag->next) if (frag->buf_length > 0) break; return * protobuf_c_data_buffer_fragment_start ((ProtobufCDataBufferFragment*)frag); } /** * protobuf_c_data_buffer_read_char: * @buffer: buffer to read a single byte from. * * Get the first byte in the buffer as a positive or 0 number, * and remove the character from the buffer. * If the buffer is empty, -1 is returned. * * returns: an unsigned character or -1. */ int protobuf_c_data_buffer_read_char (ProtobufCDataBuffer *buffer) { char c; if (protobuf_c_data_buffer_read (buffer, &c, 1) == 0) return -1; return (int) (uint8_t) c; } /** * protobuf_c_data_buffer_discard: * @buffer: the buffer to discard data from. * @max_discard: maximum number of bytes to discard. * * Removes up to @max_discard data from the beginning of the buffer, * and returns the number of bytes actually discarded. * * returns: number of bytes discarded. */ size_t protobuf_c_data_buffer_discard(ProtobufCDataBuffer *buffer, size_t max_discard) { int rv = 0; CHECK_INTEGRITY (buffer); while (max_discard > 0 && buffer->first_frag) { ProtobufCDataBufferFragment *first = buffer->first_frag; if (first->buf_length <= max_discard) { rv += first->buf_length; max_discard -= first->buf_length; buffer->first_frag = first->next; if (!buffer->first_frag) buffer->last_frag = NULL; recycle (buffer->allocator, first); } else { rv += max_discard; first->buf_length -= max_discard; first->buf_start += max_discard; max_discard = 0; } } buffer->size -= rv; CHECK_INTEGRITY (buffer); return rv; } static inline protobuf_c_boolean errno_is_ignorable (int e) { #ifdef EWOULDBLOCK /* for windows */ if (e == EWOULDBLOCK) return 1; #endif return e == EINTR || e == EAGAIN; } #if HAVE_SYS_UIO_H /** * protobuf_c_data_buffer_writev: * @read_from: buffer to take data from. * @fd: file-descriptor to write data to. * * Writes as much data as possible to the * given file-descriptor using the writev(2) * function to deal with multiple fragments * efficiently, where available. * * returns: the number of bytes transferred, * or -1 on a write error (consult errno). */ int protobuf_c_data_buffer_writev (ProtobufCDataBuffer *read_from, int fd) { int rv; struct iovec *iov; int nfrag, i; ProtobufCDataBufferFragment *frag_at = read_from->first_frag; CHECK_INTEGRITY (read_from); for (nfrag = 0; frag_at != NULL #ifdef MAX_FRAGMENTS_TO_WRITE && nfrag < MAX_FRAGMENTS_TO_WRITE #endif ; nfrag++) frag_at = frag_at->next; iov = (struct iovec *) alloca (sizeof (struct iovec) * nfrag); frag_at = read_from->first_frag; for (i = 0; i < nfrag; i++) { iov[i].iov_len = frag_at->buf_length; iov[i].iov_base = protobuf_c_data_buffer_fragment_start (frag_at); frag_at = frag_at->next; } rv = writev (fd, iov, nfrag); if (rv < 0 && errno_is_ignorable (errno)) return 0; if (rv <= 0) return rv; protobuf_c_data_buffer_discard (read_from, rv); return rv; } #endif #if HAVE_SYS_UIO_H /** * protobuf_c_data_buffer_writev_len: * @read_from: buffer to take data from. * @fd: file-descriptor to write data to. * @max_bytes: maximum number of bytes to write. * * Writes up to max_bytes bytes to the * given file-descriptor using the writev(2) * function to deal with multiple fragments * efficiently, where available. * * returns: the number of bytes transferred, * or -1 on a write error (consult errno). */ #undef MIN #define MIN(a,b) ((a) < (b) ? (a) : (b)) int protobuf_c_data_buffer_writev_len (ProtobufCDataBuffer *read_from, int fd, size_t max_bytes) { int rv; struct iovec *iov; int nfrag, i; size_t bytes; ProtobufCDataBufferFragment *frag_at = read_from->first_frag; CHECK_INTEGRITY (read_from); for (nfrag = 0, bytes = 0; frag_at != NULL && bytes < max_bytes #ifdef MAX_FRAGMENTS_TO_WRITE && nfrag < MAX_FRAGMENTS_TO_WRITE #endif ; nfrag++) { bytes += frag_at->buf_length; frag_at = frag_at->next; } iov = (struct iovec *) alloca (sizeof (struct iovec) * nfrag); frag_at = read_from->first_frag; for (bytes = max_bytes, i = 0; i < nfrag && bytes > 0; i++) { size_t frag_bytes = MIN (frag_at->buf_length, bytes); iov[i].iov_len = frag_bytes; iov[i].iov_base = protobuf_c_data_buffer_fragment_start (frag_at); frag_at = frag_at->next; bytes -= frag_bytes; } rv = writev (fd, iov, i); if (rv < 0 && errno_is_ignorable (errno)) return 0; if (rv <= 0) return rv; protobuf_c_data_buffer_discard (read_from, rv); return rv; } #endif /** * protobuf_c_data_buffer_read_in_fd: * @write_to: buffer to append data to. * @read_from: file-descriptor to read data from. * * Append data into the buffer directly from the * given file-descriptor. * * returns: the number of bytes transferred, * or -1 on a read error (consult errno). */ /* TODO: zero-copy! */ int protobuf_c_data_buffer_read_in_fd(ProtobufCDataBuffer *write_to, int read_from) { char buf[8192]; int rv = read (read_from, buf, sizeof (buf)); if (rv < 0) return rv; protobuf_c_data_buffer_append (write_to, buf, rv); return rv; } /** * protobuf_c_data_buffer_destruct: * @to_destroy: the buffer to empty. * * Remove all fragments from a buffer, leaving it empty. * The buffer is guaranteed to not to be consuming any resources, * but it also is allowed to start using it again. */ void protobuf_c_data_buffer_reset(ProtobufCDataBuffer *to_destroy) { ProtobufCDataBufferFragment *at = to_destroy->first_frag; CHECK_INTEGRITY (to_destroy); while (at) { ProtobufCDataBufferFragment *next = at->next; recycle (to_destroy->allocator, at); at = next; } to_destroy->first_frag = to_destroy->last_frag = NULL; to_destroy->size = 0; } void protobuf_c_data_buffer_clear(ProtobufCDataBuffer *to_destroy) { ProtobufCDataBufferFragment *at = to_destroy->first_frag; CHECK_INTEGRITY (to_destroy); while (at) { ProtobufCDataBufferFragment *next = at->next; recycle (to_destroy->allocator, at); at = next; } } /** * protobuf_c_data_buffer_index_of: * @buffer: buffer to scan. * @char_to_find: a byte to look for. * * Scans for the first instance of the given character. * returns: its index in the buffer, or -1 if the character * is not in the buffer. */ int protobuf_c_data_buffer_index_of(ProtobufCDataBuffer *buffer, char char_to_find) { ProtobufCDataBufferFragment *at = buffer->first_frag; int rv = 0; while (at) { uint8_t *start = protobuf_c_data_buffer_fragment_start (at); uint8_t *saught = memchr (start, char_to_find, at->buf_length); if (saught) return (saught - start) + rv; else rv += at->buf_length; at = at->next; } return -1; } /** * protobuf_c_data_buffer_str_index_of: * @buffer: buffer to scan. * @str_to_find: a string to look for. * * Scans for the first instance of the given string. * returns: its index in the buffer, or -1 if the string * is not in the buffer. */ int protobuf_c_data_buffer_str_index_of (ProtobufCDataBuffer *buffer, const char *str_to_find) { ProtobufCDataBufferFragment *frag = buffer->first_frag; size_t rv = 0; for (frag = buffer->first_frag; frag; frag = frag->next) { const uint8_t *frag_at = PROTOBUF_C_FRAGMENT_DATA (frag); size_t frag_rem = frag->buf_length; while (frag_rem > 0) { ProtobufCDataBufferFragment *subfrag; const uint8_t *subfrag_at; size_t subfrag_rem; const char *str_at; if (*frag_at != str_to_find[0]) { frag_at++; frag_rem--; rv++; continue; } subfrag = frag; subfrag_at = frag_at + 1; subfrag_rem = frag_rem - 1; str_at = str_to_find + 1; if (*str_at == '\0') return rv; while (subfrag != NULL) { while (subfrag_rem == 0) { subfrag = subfrag->next; if (subfrag == NULL) goto bad_guess; subfrag_at = protobuf_c_data_buffer_fragment_start (subfrag); subfrag_rem = subfrag->buf_length; } while (*str_at != '\0' && subfrag_rem != 0) { if (*str_at++ != *subfrag_at++) goto bad_guess; subfrag_rem--; } if (*str_at == '\0') return rv; } bad_guess: frag_at++; frag_rem--; rv++; } } return -1; } /** * protobuf_c_data_buffer_drain: * @dst: buffer to add to. * @src: buffer to remove from. * * Transfer all data from @src to @dst, * leaving @src empty. * * returns: the number of bytes transferred. */ #if GSK_DEBUG_BUFFER_ALLOCATIONS size_t protobuf_c_data_buffer_drain (ProtobufCDataBuffer *dst, ProtobufCDataBuffer *src) { size_t rv = src->size; ProtobufCDataBufferFragment *frag; CHECK_INTEGRITY (dst); CHECK_INTEGRITY (src); for (frag = src->first_frag; frag; frag = frag->next) protobuf_c_data_buffer_append (dst, protobuf_c_data_buffer_fragment_start (frag), frag->buf_length); protobuf_c_data_buffer_discard (src, src->size); CHECK_INTEGRITY (dst); CHECK_INTEGRITY (src); return rv; } #else /* optimized */ size_t protobuf_c_data_buffer_drain (ProtobufCDataBuffer *dst, ProtobufCDataBuffer *src) { size_t rv = src->size; CHECK_INTEGRITY (dst); CHECK_INTEGRITY (src); if (src->first_frag == NULL) return rv; dst->size += src->size; if (dst->last_frag != NULL) { dst->last_frag->next = src->first_frag; dst->last_frag = src->last_frag; } else { dst->first_frag = src->first_frag; dst->last_frag = src->last_frag; } src->size = 0; src->first_frag = src->last_frag = NULL; CHECK_INTEGRITY (dst); return rv; } #endif /** * protobuf_c_data_buffer_transfer: * @dst: place to copy data into. * @src: place to read data from. * @max_transfer: maximum number of bytes to transfer. * * Transfer data out of @src and into @dst. * Data is removed from @src. The number of bytes * transferred is returned. * * returns: the number of bytes transferred. */ #if GSK_DEBUG_BUFFER_ALLOCATIONS size_t protobuf_c_data_buffer_transfer(ProtobufCDataBuffer *dst, ProtobufCDataBuffer *src, size_t max_transfer) { size_t rv = 0; ProtobufCDataBufferFragment *frag; CHECK_INTEGRITY (dst); CHECK_INTEGRITY (src); for (frag = src->first_frag; frag && max_transfer > 0; frag = frag->next) { size_t len = frag->buf_length; if (len >= max_transfer) { protobuf_c_data_buffer_append (dst, protobuf_c_data_buffer_fragment_start (frag), max_transfer); rv += max_transfer; break; } else { protobuf_c_data_buffer_append (dst, protobuf_c_data_buffer_fragment_start (frag), len); rv += len; max_transfer -= len; } } protobuf_c_data_buffer_discard (src, rv); CHECK_INTEGRITY (dst); CHECK_INTEGRITY (src); return rv; } #else /* optimized */ size_t protobuf_c_data_buffer_transfer(ProtobufCDataBuffer *dst, ProtobufCDataBuffer *src, size_t max_transfer) { size_t rv = 0; CHECK_INTEGRITY (dst); CHECK_INTEGRITY (src); while (src->first_frag && max_transfer >= src->first_frag->buf_length) { ProtobufCDataBufferFragment *frag = src->first_frag; src->first_frag = frag->next; frag->next = NULL; if (src->first_frag == NULL) src->last_frag = NULL; if (dst->last_frag) dst->last_frag->next = frag; else dst->first_frag = frag; dst->last_frag = frag; rv += frag->buf_length; max_transfer -= frag->buf_length; } dst->size += rv; if (src->first_frag && max_transfer) { ProtobufCDataBufferFragment *frag = src->first_frag; protobuf_c_data_buffer_append (dst, protobuf_c_data_buffer_fragment_start (frag), max_transfer); frag->buf_start += max_transfer; frag->buf_length -= max_transfer; rv += max_transfer; } src->size -= rv; CHECK_INTEGRITY (dst); CHECK_INTEGRITY (src); return rv; } #endif /* !GSK_DEBUG_BUFFER_ALLOCATIONS */ #if 0 /** * protobuf_c_data_buffer_printf: * @buffer: the buffer to append to. * @format: printf-style format string describing what to append to buffer. * @Varargs: values referenced by @format string. * * Append printf-style content to a buffer. */ void protobuf_c_data_buffer_printf (ProtobufCDataBuffer *buffer, const char *format, ...) { va_list args; va_start (args, format); protobuf_c_data_buffer_vprintf (buffer, format, args); va_end (args); } /** * protobuf_c_data_buffer_vprintf: * @buffer: the buffer to append to. * @format: printf-style format string describing what to append to buffer. * @args: values referenced by @format string. * * Append printf-style content to a buffer, given a va_list. */ void protobuf_c_data_buffer_vprintf (ProtobufCDataBuffer *buffer, const char *format, va_list args) { gsize size = g_printf_string_upper_bound (format, args); if (size < 1024) { char buf[1024]; g_vsnprintf (buf, sizeof (buf), format, args); protobuf_c_data_buffer_append_string (buffer, buf); } else { char *buf = g_strdup_vprintf (format, args); protobuf_c_data_buffer_append_foreign (buffer, buf, strlen (buf), g_free, buf); } } /* --- protobuf_c_data_buffer_polystr_index_of implementation --- */ /* Test to see if a sequence of buffer fragments * starts with a particular NUL-terminated string. */ static gboolean fragment_n_str(ProtobufCDataBufferFragment *frag, size_t frag_index, const char *string) { size_t len = strlen (string); for (;;) { size_t test_len = frag->buf_length - frag_index; if (test_len > len) test_len = len; if (memcmp (string, protobuf_c_data_buffer_fragment_start (frag) + frag_index, test_len) != 0) return FALSE; len -= test_len; string += test_len; if (len <= 0) return TRUE; frag_index += test_len; if (frag_index >= frag->buf_length) { frag = frag->next; if (frag == NULL) return FALSE; } } } /** * protobuf_c_data_buffer_polystr_index_of: * @buffer: buffer to scan. * @strings: NULL-terminated set of string. * * Scans for the first instance of any of the strings * in the buffer. * * returns: the index of that instance, or -1 if not found. */ int protobuf_c_data_buffer_polystr_index_of (ProtobufCDataBuffer *buffer, char **strings) { uint8_t init_char_map[16]; int num_strings; int num_bits = 0; int total_index = 0; ProtobufCDataBufferFragment *frag; memset (init_char_map, 0, sizeof (init_char_map)); for (num_strings = 0; strings[num_strings] != NULL; num_strings++) { uint8_t c = strings[num_strings][0]; uint8_t mask = (1 << (c % 8)); uint8_t *rack = init_char_map + (c / 8); if ((*rack & mask) == 0) { *rack |= mask; num_bits++; } } if (num_bits == 0) return 0; for (frag = buffer->first_frag; frag != NULL; frag = frag->next) { const char *frag_start; const char *at; int remaining = frag->buf_length; frag_start = protobuf_c_data_buffer_fragment_start (frag); at = frag_start; while (at != NULL) { const char *start = at; if (num_bits == 1) { at = memchr (start, strings[0][0], remaining); if (at == NULL) remaining = 0; else remaining -= (at - start); } else { while (remaining > 0) { uint8_t i = (uint8_t) (*at); if (init_char_map[i / 8] & (1 << (i % 8))) break; remaining--; at++; } if (remaining == 0) at = NULL; } if (at == NULL) break; /* Now test each of the strings manually. */ { char **test; for (test = strings; *test != NULL; test++) { if (fragment_n_str(frag, at - frag_start, *test)) return total_index + (at - frag_start); } at++; } } total_index += frag->buf_length; } return -1; } #endif protobuf-c-0.15/src/google/protobuf-c/protobuf-c-dispatch.h0000644000175000017500000001123211332660134020607 00000000000000#ifndef __PROTOBUF_C_DISPATCH_H_ #define __PROTOBUF_C_DISPATCH_H_ typedef struct _ProtobufCDispatch ProtobufCDispatch; typedef struct _ProtobufCDispatchTimer ProtobufCDispatchTimer; typedef struct _ProtobufCDispatchIdle ProtobufCDispatchIdle; #include "protobuf-c.h" typedef enum { PROTOBUF_C_EVENT_READABLE = (1<<0), PROTOBUF_C_EVENT_WRITABLE = (1<<1) } ProtobufC_Events; #ifdef WIN32 typedef SOCKET ProtobufC_FD; #else typedef int ProtobufC_FD; #endif /* Create or destroy a Dispatch */ ProtobufCDispatch *protobuf_c_dispatch_new (ProtobufCAllocator *allocator); void protobuf_c_dispatch_free(ProtobufCDispatch *dispatch); ProtobufCDispatch *protobuf_c_dispatch_default (void); ProtobufCAllocator *protobuf_c_dispatch_peek_allocator (ProtobufCDispatch *); typedef void (*ProtobufCDispatchCallback) (ProtobufC_FD fd, unsigned events, void *callback_data); /* Registering file-descriptors to watch. */ void protobuf_c_dispatch_watch_fd (ProtobufCDispatch *dispatch, ProtobufC_FD fd, unsigned events, ProtobufCDispatchCallback callback, void *callback_data); void protobuf_c_dispatch_close_fd (ProtobufCDispatch *dispatch, ProtobufC_FD fd); void protobuf_c_dispatch_fd_closed(ProtobufCDispatch *dispatch, ProtobufC_FD fd); /* Timers */ typedef void (*ProtobufCDispatchTimerFunc) (ProtobufCDispatch *dispatch, void *func_data); ProtobufCDispatchTimer * protobuf_c_dispatch_add_timer(ProtobufCDispatch *dispatch, unsigned timeout_secs, unsigned timeout_usecs, ProtobufCDispatchTimerFunc func, void *func_data); ProtobufCDispatchTimer * protobuf_c_dispatch_add_timer_millis (ProtobufCDispatch *dispatch, unsigned milliseconds, ProtobufCDispatchTimerFunc func, void *func_data); void protobuf_c_dispatch_remove_timer (ProtobufCDispatchTimer *); /* Idle functions */ typedef void (*ProtobufCDispatchIdleFunc) (ProtobufCDispatch *dispatch, void *func_data); ProtobufCDispatchIdle * protobuf_c_dispatch_add_idle (ProtobufCDispatch *dispatch, ProtobufCDispatchIdleFunc func, void *func_data); void protobuf_c_dispatch_remove_idle (ProtobufCDispatchIdle *); /* --- API for use in standalone application --- */ /* Where you are happy just to run poll(2). */ /* protobuf_c_dispatch_run() * Run one main-loop iteration, using poll(2) (or some system-level event system); * 'timeout' is in milliseconds, -1 for no timeout. */ void protobuf_c_dispatch_run (ProtobufCDispatch *dispatch); /* --- API for those who want to embed a dispatch into their own main-loop --- */ typedef struct { ProtobufC_FD fd; ProtobufC_Events events; } ProtobufC_FDNotify; typedef struct { ProtobufC_FD fd; ProtobufC_Events old_events; ProtobufC_Events events; } ProtobufC_FDNotifyChange; void protobuf_c_dispatch_dispatch (ProtobufCDispatch *dispatch, size_t n_notifies, ProtobufC_FDNotify *notifies); void protobuf_c_dispatch_clear_changes (ProtobufCDispatch *); struct _ProtobufCDispatch { /* changes to the events you are interested in. */ /* (this handles closed file-descriptors in a manner agreeable to epoll(2) and kqueue(2)) */ size_t n_changes; ProtobufC_FDNotifyChange *changes; /* the complete set of events you are interested in. */ size_t n_notifies_desired; ProtobufC_FDNotify *notifies_desired; /* number of milliseconds to wait if no events occur */ protobuf_c_boolean has_timeout; unsigned long timeout_secs; unsigned timeout_usecs; /* true if there is an idle function, in which case polling with timeout 0 is appropriate */ protobuf_c_boolean has_idle; unsigned long last_dispatch_secs; unsigned last_dispatch_usecs; /* private data follows (see RealDispatch structure in .c file) */ }; void protobuf_c_dispatch_destroy_default (void); #endif protobuf-c-0.15/src/google/protobuf-c/protobuf-c-rpc.h0000644000175000017500000001316411363113234017600 00000000000000#ifndef __PROTOBUF_C_RPC_H_ #define __PROTOBUF_C_RPC_H_ /* Protocol is: * client issues request with header: * method_index 32-bit little-endian * message_length 32-bit little-endian * request_id 32-bit any-endian * server responds with header: * status_code 32-bit little-endian * method_index 32-bit little-endian * message_length 32-bit little-endian * request_id 32-bit any-endian */ #include "protobuf-c-dispatch.h" typedef enum { PROTOBUF_C_RPC_ADDRESS_LOCAL, /* unix-domain socket */ PROTOBUF_C_RPC_ADDRESS_TCP /* host/port tcp socket */ } ProtobufC_RPC_AddressType; typedef enum { PROTOBUF_C_ERROR_CODE_HOST_NOT_FOUND, PROTOBUF_C_ERROR_CODE_CONNECTION_REFUSED, PROTOBUF_C_ERROR_CODE_CLIENT_TERMINATED, PROTOBUF_C_ERROR_CODE_BAD_REQUEST, } ProtobufC_RPC_Error_Code; typedef enum { PROTOBUF_C_STATUS_CODE_SUCCESS, PROTOBUF_C_STATUS_CODE_SERVICE_FAILED, PROTOBUF_C_STATUS_CODE_TOO_MANY_PENDING } ProtobufC_RPC_Status_Code; typedef void (*ProtobufC_RPC_Error_Func) (ProtobufC_RPC_Error_Code code, const char *message, void *error_func_data); /* --- Client API --- */ typedef struct _ProtobufC_RPC_Client ProtobufC_RPC_Client; /* The return value (the service) may be cast to ProtobufC_RPC_Client* */ ProtobufCService *protobuf_c_rpc_client_new (ProtobufC_RPC_AddressType type, const char *name, const ProtobufCServiceDescriptor *descriptor, ProtobufCDispatch *dispatch /* or NULL */ ); /* forcing the client to connect */ typedef enum { PROTOBUF_C_RPC_CLIENT_CONNECT_SUCCESS,/* also returned if already connected */ PROTOBUF_C_RPC_CLIENT_CONNECT_ERROR_NAME_LOOKUP, PROTOBUF_C_RPC_CLIENT_CONNECT_ERROR_CONNECT } ProtobufC_RPC_Client_ConnectStatus; ProtobufC_RPC_Client_ConnectStatus protobuf_c_rpc_client_connect (ProtobufC_RPC_Client *client); /* --- configuring the client */ /* Pluginable async dns hooks */ /* TODO: use adns library or port evdns? ugh */ typedef void (*ProtobufC_NameLookup_Found) (const uint8_t *address, void *callback_data); typedef void (*ProtobufC_NameLookup_Failed)(const char *error_message, void *callback_data); typedef void (*ProtobufC_NameLookup_Func) (ProtobufCDispatch *dispatch, const char *name, ProtobufC_NameLookup_Found found_func, ProtobufC_NameLookup_Failed failed_func, void *callback_data); void protobuf_c_rpc_client_set_name_resolver (ProtobufC_RPC_Client *client, ProtobufC_NameLookup_Func resolver); /* Error handling */ void protobuf_c_rpc_client_set_error_handler (ProtobufC_RPC_Client *client, ProtobufC_RPC_Error_Func func, void *error_func_data); /* Configuring the autoreconnect behavior. If the client is disconnected, all pending requests get an error. If autoreconnect is set, and it is by default, try connecting again after a certain amount of time has elapsed. */ void protobuf_c_rpc_client_disable_autoreconnect (ProtobufC_RPC_Client *client); void protobuf_c_rpc_client_set_autoreconnect_period (ProtobufC_RPC_Client *client, unsigned millis); /* checking the state of the client */ protobuf_c_boolean protobuf_c_rpc_client_is_connected (ProtobufC_RPC_Client *client); /* NOTE: we don't actually start connecting til the main-loop runs, so you may configure the client immediately after creation */ /* --- Server API --- */ typedef struct _ProtobufC_RPC_Server ProtobufC_RPC_Server; ProtobufC_RPC_Server * protobuf_c_rpc_server_new (ProtobufC_RPC_AddressType type, const char *name, ProtobufCService *service, ProtobufCDispatch *dispatch /* or NULL */ ); ProtobufCService * protobuf_c_rpc_server_destroy (ProtobufC_RPC_Server *server, protobuf_c_boolean free_underlying_service); /* NOTE: these do not have guaranteed semantics if called after there are actually clients connected to the server! NOTE 2: The purist in me has left the default of no-autotimeout. The pragmatist in me knows thats going to be a pain for someone. Please set autotimeout, and if you really don't want it, disable it explicitly, because i might just go and make it the default! */ void protobuf_c_rpc_server_disable_autotimeout(ProtobufC_RPC_Server *server); void protobuf_c_rpc_server_set_autotimeout (ProtobufC_RPC_Server *server, unsigned timeout_millis); /* Error handling */ void protobuf_c_rpc_server_set_error_handler (ProtobufC_RPC_Server *server, ProtobufC_RPC_Error_Func func, void *error_func_data); #endif protobuf-c-0.15/src/google/protobuf-c/protobuf-c-dispatch.c0000644000175000017500000006033211536220130020601 00000000000000/* NOTE: this may not work very well on windows, where i'm not sure that "SOCKETs" are allocated nicely like file-descriptors are */ /* TODO: * * epoll() implementation * * kqueue() implementation * * windows port (yeah, right, volunteers are DEFINITELY needed for this one...) */ #if HAVE_PROTOBUF_C_CONFIG_H #include "protobuf-c-config.h" #endif #include #if HAVE_ALLOCA_H # include #elif HAVE_MALLOC_H # include #endif #include #include #include #include #if HAVE_SYS_POLL_H # include # define USE_POLL 1 #elif HAVE_SYS_SELECT_H # include # define USE_POLL 0 #endif /* windows annoyances: use select, use a full-fledges map for fds */ #ifdef WIN32 # include # define USE_POLL 0 # define HAVE_SMALL_FDS 0 #endif #include #include #include #include "protobuf-c-dispatch.h" #include "gskrbtreemacros.h" #include "gsklistmacros.h" #define DEBUG_DISPATCH_INTERNALS 0 #define DEBUG_DISPATCH 0 #ifndef HAVE_SMALL_FDS # define HAVE_SMALL_FDS 1 #endif #define protobuf_c_assert(condition) assert(condition) #define ALLOC_WITH_ALLOCATOR(allocator, size) ((allocator)->alloc ((allocator)->allocator_data, (size))) #define FREE_WITH_ALLOCATOR(allocator, ptr) ((allocator)->free ((allocator)->allocator_data, (ptr))) /* macros that assume you have a ProtobufCAllocator* named allocator in scope */ #define ALLOC(size) ALLOC_WITH_ALLOCATOR((allocator), size) #define FREE(ptr) FREE_WITH_ALLOCATOR((allocator), ptr) typedef struct _Callback Callback; struct _Callback { ProtobufCDispatchCallback func; void *data; }; typedef struct _FDMap FDMap; struct _FDMap { int notify_desired_index; /* -1 if not an known fd */ int change_index; /* -1 if no prior change */ int closed_since_notify_started; }; #if !HAVE_SMALL_FDS typedef struct _FDMapNode FDMapNode; struct _FDMapNode { ProtobufC_FD fd; FDMapNode *left, *right, *parent; protobuf_c_boolean is_red; FDMap map; }; #endif typedef struct _RealDispatch RealDispatch; struct _RealDispatch { ProtobufCDispatch base; Callback *callbacks; /* parallels notifies_desired */ size_t notifies_desired_alloced; size_t changes_alloced; #if HAVE_SMALL_FDS FDMap *fd_map; /* map indexed by fd */ size_t fd_map_size; /* number of elements of fd_map */ #else FDMapNode *fd_map_tree; /* map indexed by fd */ #endif ProtobufCDispatchTimer *timer_tree; ProtobufCAllocator *allocator; ProtobufCDispatchTimer *recycled_timeouts; ProtobufCDispatchIdle *first_idle, *last_idle; ProtobufCDispatchIdle *recycled_idles; }; struct _ProtobufCDispatchTimer { RealDispatch *dispatch; /* the actual timeout time */ unsigned long timeout_secs; unsigned timeout_usecs; /* red-black tree stuff */ ProtobufCDispatchTimer *left, *right, *parent; protobuf_c_boolean is_red; /* user callback */ ProtobufCDispatchTimerFunc func; void *func_data; }; struct _ProtobufCDispatchIdle { RealDispatch *dispatch; ProtobufCDispatchIdle *prev, *next; /* user callback */ ProtobufCDispatchIdleFunc func; void *func_data; }; /* Define the tree of timers, as per gskrbtreemacros.h */ #define TIMER_GET_IS_RED(n) ((n)->is_red) #define TIMER_SET_IS_RED(n,v) ((n)->is_red = (v)) #define TIMERS_COMPARE(a,b, rv) \ if (a->timeout_secs < b->timeout_secs) rv = -1; \ else if (a->timeout_secs > b->timeout_secs) rv = 1; \ else if (a->timeout_usecs < b->timeout_usecs) rv = -1; \ else if (a->timeout_usecs > b->timeout_usecs) rv = 1; \ else if (a < b) rv = -1; \ else if (a > b) rv = 1; \ else rv = 0; #define GET_TIMER_TREE(d) \ (d)->timer_tree, ProtobufCDispatchTimer *, \ TIMER_GET_IS_RED, TIMER_SET_IS_RED, \ parent, left, right, \ TIMERS_COMPARE #if !HAVE_SMALL_FDS #define FD_MAP_NODES_COMPARE(a,b, rv) \ if (a->fd < b->fd) rv = -1; \ else if (a->fd > b->fd) rv = 1; \ else rv = 0; #define GET_FD_MAP_TREE(d) \ (d)->fd_map_tree, FDMapNode *, \ TIMER_GET_IS_RED, TIMER_SET_IS_RED, \ parent, left, right, \ FD_MAP_NODES_COMPARE #define COMPARE_FD_TO_FD_MAP_NODE(a,b, rv) \ if (a < b->fd) rv = -1; \ else if (a > b->fd) rv = 1; \ else rv = 0; #endif /* declare the idle-handler list */ #define GET_IDLE_LIST(d) \ ProtobufCDispatchIdle *, d->first_idle, d->last_idle, prev, next /* Create or destroy a Dispatch */ ProtobufCDispatch *protobuf_c_dispatch_new (ProtobufCAllocator *allocator) { RealDispatch *rv = ALLOC (sizeof (RealDispatch)); struct timeval tv; rv->base.n_changes = 0; rv->notifies_desired_alloced = 8; rv->base.notifies_desired = ALLOC (sizeof (ProtobufC_FDNotify) * rv->notifies_desired_alloced); rv->base.n_notifies_desired = 0; rv->callbacks = ALLOC (sizeof (Callback) * rv->notifies_desired_alloced); rv->changes_alloced = 8; rv->base.changes = ALLOC (sizeof (ProtobufC_FDNotify) * rv->changes_alloced); #if HAVE_SMALL_FDS rv->fd_map_size = 16; rv->fd_map = ALLOC (sizeof (FDMap) * rv->fd_map_size); memset (rv->fd_map, 255, sizeof (FDMap) * rv->fd_map_size); #else rv->fd_map_tree = NULL; #endif rv->allocator = allocator; rv->timer_tree = NULL; rv->first_idle = rv->last_idle = NULL; rv->recycled_idles = NULL; rv->recycled_timeouts = NULL; /* need to handle SIGPIPE more gracefully than default */ signal (SIGPIPE, SIG_IGN); gettimeofday (&tv, NULL); rv->base.last_dispatch_secs = tv.tv_sec; rv->base.last_dispatch_usecs = tv.tv_usec; return &rv->base; } #if !HAVE_SMALL_FDS void free_fd_tree_recursive (ProtobufCAllocator *allocator, FDMapNode *node) { if (node) { free_fd_tree_recursive (allocator, node->left); free_fd_tree_recursive (allocator, node->right); FREE (node); } } #endif /* XXX: leaking timer_tree seemingly? */ void protobuf_c_dispatch_free(ProtobufCDispatch *dispatch) { RealDispatch *d = (RealDispatch *) dispatch; ProtobufCAllocator *allocator = d->allocator; while (d->recycled_timeouts != NULL) { ProtobufCDispatchTimer *t = d->recycled_timeouts; d->recycled_timeouts = t->right; FREE (t); } while (d->recycled_idles != NULL) { ProtobufCDispatchIdle *i = d->recycled_idles; d->recycled_idles = i->next; FREE (i); } FREE (d->base.notifies_desired); FREE (d->base.changes); FREE (d->callbacks); #if HAVE_SMALL_FDS FREE (d->fd_map); #else free_fd_tree_recursive (allocator, d->fd_map_tree); #endif FREE (d); } ProtobufCAllocator * protobuf_c_dispatch_peek_allocator (ProtobufCDispatch *dispatch) { RealDispatch *d = (RealDispatch *) dispatch; return d->allocator; } /* TODO: perhaps thread-private dispatches make more sense? */ static ProtobufCDispatch *def = NULL; ProtobufCDispatch *protobuf_c_dispatch_default (void) { if (def == NULL) def = protobuf_c_dispatch_new (&protobuf_c_default_allocator); return def; } #if HAVE_SMALL_FDS static void enlarge_fd_map (RealDispatch *d, unsigned fd) { size_t new_size = d->fd_map_size * 2; FDMap *new_map; ProtobufCAllocator *allocator = d->allocator; while (fd >= new_size) new_size *= 2; new_map = ALLOC (sizeof (FDMap) * new_size); memcpy (new_map, d->fd_map, d->fd_map_size * sizeof (FDMap)); memset (new_map + d->fd_map_size, 255, sizeof (FDMap) * (new_size - d->fd_map_size)); FREE (d->fd_map); d->fd_map = new_map; d->fd_map_size = new_size; } static inline void ensure_fd_map_big_enough (RealDispatch *d, unsigned fd) { if (fd >= d->fd_map_size) enlarge_fd_map (d, fd); } #endif static unsigned allocate_notifies_desired_index (RealDispatch *d) { unsigned rv = d->base.n_notifies_desired++; ProtobufCAllocator *allocator = d->allocator; if (rv == d->notifies_desired_alloced) { unsigned new_size = d->notifies_desired_alloced * 2; ProtobufC_FDNotify *n = ALLOC (new_size * sizeof (ProtobufC_FDNotify)); Callback *c = ALLOC (new_size * sizeof (Callback)); memcpy (n, d->base.notifies_desired, d->notifies_desired_alloced * sizeof (ProtobufC_FDNotify)); FREE (d->base.notifies_desired); memcpy (c, d->callbacks, d->notifies_desired_alloced * sizeof (Callback)); FREE (d->callbacks); d->base.notifies_desired = n; d->callbacks = c; d->notifies_desired_alloced = new_size; } #if DEBUG_DISPATCH_INTERNALS fprintf (stderr, "allocate_notifies_desired_index: returning %u\n", rv); #endif return rv; } static unsigned allocate_change_index (RealDispatch *d) { unsigned rv = d->base.n_changes++; if (rv == d->changes_alloced) { ProtobufCAllocator *allocator = d->allocator; unsigned new_size = d->changes_alloced * 2; ProtobufC_FDNotifyChange *n = ALLOC (new_size * sizeof (ProtobufC_FDNotifyChange)); memcpy (n, d->base.changes, d->changes_alloced * sizeof (ProtobufC_FDNotifyChange)); FREE (d->base.changes); d->base.changes = n; d->changes_alloced = new_size; } return rv; } static inline FDMap * get_fd_map (RealDispatch *d, ProtobufC_FD fd) { #if HAVE_SMALL_FDS if ((unsigned)fd >= d->fd_map_size) return NULL; else return d->fd_map + fd; #else FDMapNode *node; GSK_RBTREE_LOOKUP_COMPARATOR (GET_FD_MAP_TREE (d), fd, COMPARE_FD_TO_FD_MAP_NODE, node); return node ? &node->map : NULL; #endif } static inline FDMap * force_fd_map (RealDispatch *d, ProtobufC_FD fd) { #if HAVE_SMALL_FDS ensure_fd_map_big_enough (d, fd); return d->fd_map + fd; #else { FDMap *fm = get_fd_map (d, fd); ProtobufCAllocator *allocator = d->allocator; if (fm == NULL) { FDMapNode *node = ALLOC (sizeof (FDMapNode)); FDMapNode *conflict; node->fd = fd; memset (&node->map, 255, sizeof (FDMap)); GSK_RBTREE_INSERT (GET_FD_MAP_TREE (d), node, conflict); assert (conflict == NULL); fm = &node->map; } return fm; } #endif } static void deallocate_change_index (RealDispatch *d, FDMap *fm) { unsigned ch_ind = fm->change_index; unsigned from = d->base.n_changes - 1; ProtobufC_FD from_fd; fm->change_index = -1; if (ch_ind == from) { d->base.n_changes--; return; } from_fd = d->base.changes[ch_ind].fd; get_fd_map (d, from_fd)->change_index = ch_ind; d->base.changes[ch_ind] = d->base.changes[from]; d->base.n_changes--; } static void deallocate_notify_desired_index (RealDispatch *d, ProtobufC_FD fd, FDMap *fm) { unsigned nd_ind = fm->notify_desired_index; unsigned from = d->base.n_notifies_desired - 1; ProtobufC_FD from_fd; (void) fd; #if DEBUG_DISPATCH_INTERNALS fprintf (stderr, "deallocate_notify_desired_index: fd=%d, nd_ind=%u\n",fd,nd_ind); #endif fm->notify_desired_index = -1; if (nd_ind == from) { d->base.n_notifies_desired--; return; } from_fd = d->base.notifies_desired[from].fd; get_fd_map (d, from_fd)->notify_desired_index = nd_ind; d->base.notifies_desired[nd_ind] = d->base.notifies_desired[from]; d->callbacks[nd_ind] = d->callbacks[from]; d->base.n_notifies_desired--; } /* Registering file-descriptors to watch. */ void protobuf_c_dispatch_watch_fd (ProtobufCDispatch *dispatch, ProtobufC_FD fd, unsigned events, ProtobufCDispatchCallback callback, void *callback_data) { RealDispatch *d = (RealDispatch *) dispatch; unsigned f = fd; /* avoid tiring compiler warnings: "comparison of signed versus unsigned" */ unsigned nd_ind, change_ind; unsigned old_events; FDMap *fm; #if DEBUG_DISPATCH fprintf (stderr, "dispatch: watch_fd: %d, %s%s\n", fd, (events&PROTOBUF_C_EVENT_READABLE)?"r":"", (events&PROTOBUF_C_EVENT_WRITABLE)?"w":""); #endif if (callback == NULL) assert (events == 0); else assert (events != 0); fm = force_fd_map (d, f); /* XXX: should we set fm->map.closed_since_notify_started=0 ??? */ if (fm->notify_desired_index == -1) { if (callback != NULL) nd_ind = fm->notify_desired_index = allocate_notifies_desired_index (d); old_events = 0; } else { old_events = dispatch->notifies_desired[fm->notify_desired_index].events; if (callback == NULL) deallocate_notify_desired_index (d, fd, fm); else nd_ind = fm->notify_desired_index; } if (callback == NULL) { if (fm->change_index == -1) { change_ind = fm->change_index = allocate_change_index (d); dispatch->changes[change_ind].old_events = old_events; } else change_ind = fm->change_index; d->base.changes[change_ind].fd = f; d->base.changes[change_ind].events = 0; return; } assert (callback != NULL && events != 0); if (fm->change_index == -1) { change_ind = fm->change_index = allocate_change_index (d); dispatch->changes[change_ind].old_events = old_events; } else change_ind = fm->change_index; d->base.changes[change_ind].fd = fd; d->base.changes[change_ind].events = events; d->base.notifies_desired[nd_ind].fd = fd; d->base.notifies_desired[nd_ind].events = events; d->callbacks[nd_ind].func = callback; d->callbacks[nd_ind].data = callback_data; } void protobuf_c_dispatch_close_fd (ProtobufCDispatch *dispatch, ProtobufC_FD fd) { protobuf_c_dispatch_fd_closed (dispatch, fd); close (fd); } void protobuf_c_dispatch_fd_closed(ProtobufCDispatch *dispatch, ProtobufC_FD fd) { RealDispatch *d = (RealDispatch *) dispatch; FDMap *fm; #if DEBUG_DISPATCH fprintf (stderr, "dispatch: fd %d closed\n", fd); #endif fm = force_fd_map (d, fd); fm->closed_since_notify_started = 1; if (fm->change_index != -1) deallocate_change_index (d, fm); if (fm->notify_desired_index != -1) deallocate_notify_desired_index (d, fd, fm); } static void free_timer (ProtobufCDispatchTimer *timer) { RealDispatch *d = timer->dispatch; timer->right = d->recycled_timeouts; d->recycled_timeouts = timer; } void protobuf_c_dispatch_dispatch (ProtobufCDispatch *dispatch, size_t n_notifies, ProtobufC_FDNotify *notifies) { RealDispatch *d = (RealDispatch *) dispatch; unsigned fd_max; unsigned i; FDMap *fd_map = d->fd_map; struct timeval tv; fd_max = 0; for (i = 0; i < n_notifies; i++) if (fd_max < (unsigned) notifies[i].fd) fd_max = notifies[i].fd; ensure_fd_map_big_enough (d, fd_max); for (i = 0; i < n_notifies; i++) fd_map[notifies[i].fd].closed_since_notify_started = 0; for (i = 0; i < n_notifies; i++) { unsigned fd = notifies[i].fd; if (!fd_map[fd].closed_since_notify_started && fd_map[fd].notify_desired_index != -1) { unsigned nd_ind = fd_map[fd].notify_desired_index; unsigned events = d->base.notifies_desired[nd_ind].events & notifies[i].events; if (events != 0) d->callbacks[nd_ind].func (fd, events, d->callbacks[nd_ind].data); } } /* clear changes */ for (i = 0; i < dispatch->n_changes; i++) d->fd_map[dispatch->changes[i].fd].change_index = -1; dispatch->n_changes = 0; /* handle idle functions */ while (d->first_idle != NULL) { ProtobufCDispatchIdle *idle = d->first_idle; ProtobufCDispatchIdleFunc func = idle->func; void *data = idle->func_data; GSK_LIST_REMOVE_FIRST (GET_IDLE_LIST (d)); idle->func = NULL; /* set to NULL to render remove_idle a no-op */ func (dispatch, data); idle->next = d->recycled_idles; d->recycled_idles = idle; } dispatch->has_idle = 0; /* handle timers */ gettimeofday (&tv, NULL); dispatch->last_dispatch_secs = tv.tv_sec; dispatch->last_dispatch_usecs = tv.tv_usec; while (d->timer_tree != NULL) { ProtobufCDispatchTimer *min_timer; GSK_RBTREE_FIRST (GET_TIMER_TREE (d), min_timer); if (min_timer->timeout_secs < (unsigned long) tv.tv_sec || (min_timer->timeout_secs == (unsigned long) tv.tv_sec && min_timer->timeout_usecs <= (unsigned) tv.tv_usec)) { ProtobufCDispatchTimerFunc func = min_timer->func; void *func_data = min_timer->func_data; GSK_RBTREE_REMOVE (GET_TIMER_TREE (d), min_timer); /* Set to NULL as a way to tell protobuf_c_dispatch_remove_timer() that we are in the middle of notifying */ min_timer->func = NULL; min_timer->func_data = NULL; func (&d->base, func_data); free_timer (min_timer); } else { d->base.has_timeout = 1; d->base.timeout_secs = min_timer->timeout_secs; d->base.timeout_usecs = min_timer->timeout_usecs; break; } } if (d->timer_tree == NULL) d->base.has_timeout = 0; } void protobuf_c_dispatch_clear_changes (ProtobufCDispatch *dispatch) { RealDispatch *d = (RealDispatch *) dispatch; unsigned i; for (i = 0; i < dispatch->n_changes; i++) { FDMap *fm = get_fd_map (d, dispatch->changes[i].fd); assert (fm->change_index == (int) i); fm->change_index = -1; } dispatch->n_changes = 0; } static inline unsigned events_to_pollfd_events (unsigned ev) { return ((ev & PROTOBUF_C_EVENT_READABLE) ? POLLIN : 0) | ((ev & PROTOBUF_C_EVENT_WRITABLE) ? POLLOUT : 0) ; } static inline unsigned pollfd_events_to_events (unsigned ev) { return ((ev & POLLIN) ? PROTOBUF_C_EVENT_READABLE : 0) | ((ev & POLLOUT) ? PROTOBUF_C_EVENT_WRITABLE : 0) ; } void protobuf_c_dispatch_run (ProtobufCDispatch *dispatch) { struct pollfd *fds; void *to_free = NULL, *to_free2 = NULL; size_t n_events; RealDispatch *d = (RealDispatch *) dispatch; ProtobufCAllocator *allocator = d->allocator; unsigned i; int timeout; ProtobufC_FDNotify *events; if (dispatch->n_notifies_desired < 128) fds = alloca (sizeof (struct pollfd) * dispatch->n_notifies_desired); else to_free = fds = ALLOC (sizeof (struct pollfd) * dispatch->n_notifies_desired); for (i = 0; i < dispatch->n_notifies_desired; i++) { fds[i].fd = dispatch->notifies_desired[i].fd; fds[i].events = events_to_pollfd_events (dispatch->notifies_desired[i].events); fds[i].revents = 0; } /* compute timeout */ if (dispatch->has_idle) timeout = 0; else if (!dispatch->has_timeout) timeout = -1; else { struct timeval tv; gettimeofday (&tv, NULL); if (dispatch->timeout_secs < (unsigned long) tv.tv_sec || (dispatch->timeout_secs == (unsigned long) tv.tv_sec && dispatch->timeout_usecs <= (unsigned) tv.tv_usec)) timeout = 0; else { int du = dispatch->timeout_usecs - tv.tv_usec; int ds = dispatch->timeout_secs - tv.tv_sec; if (du < 0) { du += 1000000; ds -= 1; } if (ds > INT_MAX / 1000) timeout = INT_MAX / 1000 * 1000; else /* Round up, so that we ensure that something can run if they just wait the full duration */ timeout = ds * 1000 + (du + 999) / 1000; } } if (poll (fds, dispatch->n_notifies_desired, timeout) < 0) { if (errno == EINTR) return; /* probably a signal interrupted the poll-- let the user have control */ /* i don't really know what would plausibly cause this */ fprintf (stderr, "error polling: %s\n", strerror (errno)); return; } n_events = 0; for (i = 0; i < dispatch->n_notifies_desired; i++) if (fds[i].revents) n_events++; if (n_events < 128) events = alloca (sizeof (ProtobufC_FDNotify) * n_events); else to_free2 = events = ALLOC (sizeof (ProtobufC_FDNotify) * n_events); n_events = 0; for (i = 0; i < dispatch->n_notifies_desired; i++) if (fds[i].revents) { events[n_events].fd = fds[i].fd; events[n_events].events = pollfd_events_to_events (fds[i].revents); /* note that we may actually wind up with fewer events now that we actually call pollfd_events_to_events() */ if (events[n_events].events != 0) n_events++; } protobuf_c_dispatch_clear_changes (dispatch); protobuf_c_dispatch_dispatch (dispatch, n_events, events); if (to_free) FREE (to_free); if (to_free2) FREE (to_free2); } ProtobufCDispatchTimer * protobuf_c_dispatch_add_timer(ProtobufCDispatch *dispatch, unsigned timeout_secs, unsigned timeout_usecs, ProtobufCDispatchTimerFunc func, void *func_data) { RealDispatch *d = (RealDispatch *) dispatch; ProtobufCDispatchTimer *rv; ProtobufCDispatchTimer *at; ProtobufCDispatchTimer *conflict; protobuf_c_assert (func != NULL); if (d->recycled_timeouts != NULL) { rv = d->recycled_timeouts; d->recycled_timeouts = rv->right; } else { rv = d->allocator->alloc (d->allocator, sizeof (ProtobufCDispatchTimer)); } rv->timeout_secs = timeout_secs; rv->timeout_usecs = timeout_usecs; rv->func = func; rv->func_data = func_data; rv->dispatch = d; GSK_RBTREE_INSERT (GET_TIMER_TREE (d), rv, conflict); /* is this the first element in the tree */ for (at = rv; at != NULL; at = at->parent) if (at->parent && at->parent->right == at) break; if (at == NULL) /* yes, so set the public members */ { dispatch->has_timeout = 1; dispatch->timeout_secs = rv->timeout_secs; dispatch->timeout_usecs = rv->timeout_usecs; } return rv; } ProtobufCDispatchTimer * protobuf_c_dispatch_add_timer_millis (ProtobufCDispatch *dispatch, unsigned millis, ProtobufCDispatchTimerFunc func, void *func_data) { unsigned tsec = dispatch->last_dispatch_secs; unsigned tusec = dispatch->last_dispatch_usecs; tusec += 1000 * (millis % 1000); tsec += millis / 1000; if (tusec >= 1000*1000) { tusec -= 1000*1000; tsec += 1; } return protobuf_c_dispatch_add_timer (dispatch, tsec, tusec, func, func_data); } void protobuf_c_dispatch_remove_timer (ProtobufCDispatchTimer *timer) { protobuf_c_boolean may_be_first; RealDispatch *d = timer->dispatch; /* ignore mid-notify removal */ if (timer->func == NULL) return; may_be_first = d->base.timeout_usecs == timer->timeout_usecs && d->base.timeout_secs == timer->timeout_secs; GSK_RBTREE_REMOVE (GET_TIMER_TREE (d), timer); if (may_be_first) { if (d->timer_tree == NULL) d->base.has_timeout = 0; else { ProtobufCDispatchTimer *min; GSK_RBTREE_FIRST (GET_TIMER_TREE (d), min); d->base.timeout_secs = min->timeout_secs; d->base.timeout_usecs = min->timeout_usecs; } } } ProtobufCDispatchIdle * protobuf_c_dispatch_add_idle (ProtobufCDispatch *dispatch, ProtobufCDispatchIdleFunc func, void *func_data) { RealDispatch *d = (RealDispatch *) dispatch; ProtobufCDispatchIdle *rv; if (d->recycled_idles != NULL) { rv = d->recycled_idles; d->recycled_idles = rv->next; } else { ProtobufCAllocator *allocator = d->allocator; rv = ALLOC (sizeof (ProtobufCDispatchIdle)); } GSK_LIST_APPEND (GET_IDLE_LIST (d), rv); rv->func = func; rv->func_data = func_data; rv->dispatch = d; dispatch->has_idle = 1; return rv; } void protobuf_c_dispatch_remove_idle (ProtobufCDispatchIdle *idle) { if (idle->func != NULL) { RealDispatch *d = idle->dispatch; GSK_LIST_REMOVE (GET_IDLE_LIST (d), idle); idle->next = d->recycled_idles; d->recycled_idles = idle; } } void protobuf_c_dispatch_destroy_default (void) { if (def) { ProtobufCDispatch *to_kill = def; def = NULL; protobuf_c_dispatch_free (to_kill); } } protobuf-c-0.15/src/google/protobuf-c/protobuf-c.h0000644000175000017500000003734711536220130017023 00000000000000/* --- protobuf-c.h: public protobuf c runtime api --- */ /* * Copyright 2008, Dave Benson. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with * the License. You may obtain a copy of the License * at http://www.apache.org/licenses/LICENSE-2.0 Unless * required by applicable law or agreed to in writing, * software distributed under the License is distributed on * an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ #ifndef __PROTOBUF_C_RUNTIME_H_ #define __PROTOBUF_C_RUNTIME_H_ #include #include #ifdef __cplusplus # define PROTOBUF_C_BEGIN_DECLS extern "C" { # define PROTOBUF_C_END_DECLS } #else # define PROTOBUF_C_BEGIN_DECLS # define PROTOBUF_C_END_DECLS #endif #if !defined(PROTOBUF_C_NO_DEPRECATED) && (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 1)) #define PROTOBUF_C_DEPRECATED __attribute__((__deprecated__)) #else #define PROTOBUF_C_DEPRECATED #endif /* Define int32_t, int64_t, uint32_t, uint64_t, uint8_t. Usually, just include to do the work. XXX: should we use stdint.h? */ #ifndef PROTOBUF_C_SKIP_INTTYPES_H # if defined(_MSC_VER) /* On windows, in ms visual studio, define the types ourselves */ # define int32_t signed __int32 # define INT32_MIN _I32_MIN # define INT32_MAX _I32_MAX # define uint32_t unsigned __int32 # define UINT32_MIN _UI32_MIN # define UINT32_MAX _UI32_MAX # define int64_t signed __int64 # define INT64_MIN _I64_MIN # define INT64_MAX _I64_MAX # define uint64_t unsigned __int64 # define UINT64_MIN _UI64_MIN # define UINT64_MAX _UI64_MAX # define uint8_t unsigned char # else /* Use the system inttypes.h */ # include # endif #endif #if defined(_WIN32) && defined(PROTOBUF_C_USE_SHARED_LIB) # ifdef PROTOBUF_C_EXPORT # define PROTOBUF_C_API __declspec(dllexport) # else # define PROTOBUF_C_API __declspec(dllimport) #endif #else # define PROTOBUF_C_API #endif PROTOBUF_C_BEGIN_DECLS typedef enum { PROTOBUF_C_LABEL_REQUIRED, PROTOBUF_C_LABEL_OPTIONAL, PROTOBUF_C_LABEL_REPEATED } ProtobufCLabel; typedef enum { PROTOBUF_C_TYPE_INT32, PROTOBUF_C_TYPE_SINT32, PROTOBUF_C_TYPE_SFIXED32, PROTOBUF_C_TYPE_INT64, PROTOBUF_C_TYPE_SINT64, PROTOBUF_C_TYPE_SFIXED64, PROTOBUF_C_TYPE_UINT32, PROTOBUF_C_TYPE_FIXED32, PROTOBUF_C_TYPE_UINT64, PROTOBUF_C_TYPE_FIXED64, PROTOBUF_C_TYPE_FLOAT, PROTOBUF_C_TYPE_DOUBLE, PROTOBUF_C_TYPE_BOOL, PROTOBUF_C_TYPE_ENUM, PROTOBUF_C_TYPE_STRING, PROTOBUF_C_TYPE_BYTES, //PROTOBUF_C_TYPE_GROUP, // NOT SUPPORTED PROTOBUF_C_TYPE_MESSAGE, } ProtobufCType; typedef int protobuf_c_boolean; #define PROTOBUF_C_OFFSETOF(struct, member) offsetof(struct, member) #define PROTOBUF_C_ASSERT(condition) assert(condition) #define PROTOBUF_C_ASSERT_NOT_REACHED() assert(0) typedef struct _ProtobufCBinaryData ProtobufCBinaryData; struct _ProtobufCBinaryData { size_t len; uint8_t *data; }; typedef struct _ProtobufCIntRange ProtobufCIntRange; /* private */ /* --- memory management --- */ typedef struct _ProtobufCAllocator ProtobufCAllocator; struct _ProtobufCAllocator { void *(*alloc)(void *allocator_data, size_t size); void (*free)(void *allocator_data, void *pointer); void *(*tmp_alloc)(void *allocator_data, size_t size); unsigned max_alloca; void *allocator_data; }; /* This is a configurable allocator. * By default, it uses the system allocator (meaning malloc() and free()). * This is typically changed to adapt to frameworks that provide * some nonstandard allocation functions. * * NOTE: you may modify this allocator. */ extern PROTOBUF_C_API ProtobufCAllocator protobuf_c_default_allocator; /* settable */ /* This is the system allocator, meaning it uses malloc() and free(). * * NOTE: please do NOT modify this allocator. */ extern PROTOBUF_C_API ProtobufCAllocator protobuf_c_system_allocator; /* use malloc, free etc */ /* This is the function that our default allocators call when they run out-of-memory. The default behavior of this function is to terminate your program. */ extern PROTOBUF_C_API void (*protobuf_c_out_of_memory) (void); /* --- append-only data buffer --- */ typedef struct _ProtobufCBuffer ProtobufCBuffer; struct _ProtobufCBuffer { void (*append)(ProtobufCBuffer *buffer, size_t len, const uint8_t *data); }; /* --- enums --- */ typedef struct _ProtobufCEnumValue ProtobufCEnumValue; typedef struct _ProtobufCEnumValueIndex ProtobufCEnumValueIndex; typedef struct _ProtobufCEnumDescriptor ProtobufCEnumDescriptor; /* ProtobufCEnumValue: this represents a single value of * an enumeration. * 'name' is the string identifying this value, as given in the .proto file. * 'c_name' is the full name of the C enumeration value. * 'value' is the number assigned to this value, as given in the .proto file. */ struct _ProtobufCEnumValue { const char *name; const char *c_name; int value; }; /* ProtobufCEnumDescriptor: the represents the enum as a whole, * with all its values. * 'magic' is a code we check to ensure that the api is used correctly. * 'name' is the qualified name (e.g. "namespace.Type"). * 'short_name' is the unqualified name ("Type"), as given in the .proto file. * 'package_name' is the '.'-separated namespace * 'n_values' is the number of distinct values. * 'values' is the array of distinct values. * 'n_value_names' number of named values (including aliases). * 'value_names' are the named values (including aliases). * * The rest of the values are private essentially. * * see also: Use protobuf_c_enum_descriptor_get_value_by_name() * and protobuf_c_enum_descriptor_get_value() to efficiently * lookup values in the descriptor. */ struct _ProtobufCEnumDescriptor { uint32_t magic; const char *name; const char *short_name; const char *c_name; const char *package_name; /* sorted by value */ unsigned n_values; const ProtobufCEnumValue *values; /* sorted by name */ unsigned n_value_names; const ProtobufCEnumValueIndex *values_by_name; /* value-ranges, for faster lookups by number */ unsigned n_value_ranges; const ProtobufCIntRange *value_ranges; void *reserved1; void *reserved2; void *reserved3; void *reserved4; }; /* --- messages --- */ typedef struct _ProtobufCMessageDescriptor ProtobufCMessageDescriptor; typedef struct _ProtobufCFieldDescriptor ProtobufCFieldDescriptor; typedef struct _ProtobufCMessage ProtobufCMessage; typedef void (*ProtobufCMessageInit)(ProtobufCMessage *); /* ProtobufCFieldDescriptor: description of a single field * in a message. * 'name' is the name of the field, as given in the .proto file. * 'id' is the code representing the field, as given in the .proto file. * 'label' is one of PROTOBUF_C_LABEL_{REQUIRED,OPTIONAL,REPEATED} * 'type' is the type of field. * 'quantifier_offset' is the offset in bytes into the message's C structure * for this member's "has_MEMBER" field (for optional members) or * "n_MEMBER" field (for repeated members). * 'offset' is the offset in bytes into the message's C structure * for the member itself. * 'descriptor' is a pointer to a ProtobufC{Enum,Message}Descriptor * if type is PROTOBUF_C_TYPE_{ENUM,MESSAGE} respectively, * otherwise NULL. * 'default_value' is a pointer to a default value for this field, * where allowed. */ struct _ProtobufCFieldDescriptor { const char *name; uint32_t id; ProtobufCLabel label; ProtobufCType type; unsigned quantifier_offset; unsigned offset; const void *descriptor; /* for MESSAGE and ENUM types */ const void *default_value; /* or NULL if no default-value */ protobuf_c_boolean packed; unsigned reserved_flags; void *reserved2; void *reserved3; }; /* ProtobufCMessageDescriptor: description of a message. * * 'magic' is a code we check to ensure that the api is used correctly. * 'name' is the qualified name (e.g. "namespace.Type"). * 'short_name' is the unqualified name ("Type"), as given in the .proto file. * 'c_name' is the c-formatted name of the structure * 'package_name' is the '.'-separated namespace * 'sizeof_message' is the size in bytes of the C structure * representing an instance of this type of message. * 'n_fields' is the number of known fields in this message. * 'fields' is the fields sorted by id number. * 'fields_sorted_by_name', 'n_field_ranges' and 'field_ranges' * are used for looking up fields by name and id. (private) */ struct _ProtobufCMessageDescriptor { uint32_t magic; const char *name; const char *short_name; const char *c_name; const char *package_name; size_t sizeof_message; /* sorted by field-id */ unsigned n_fields; const ProtobufCFieldDescriptor *fields; const unsigned *fields_sorted_by_name; /* ranges, optimization for looking up fields */ unsigned n_field_ranges; const ProtobufCIntRange *field_ranges; ProtobufCMessageInit message_init; void *reserved1; void *reserved2; void *reserved3; }; /* ProtobufCMessage: an instance of a message. * * ProtobufCMessage is sort-of a lightweight * base-class for all messages. * * In particular, ProtobufCMessage doesn't have * any allocation policy associated with it. * That's because it is common to create ProtobufCMessage's * on the stack. In fact, we that's what we recommend * for sending messages (because if you just allocate from the * stack, then you can't really have a memory leak). * * This means that functions like protobuf_c_message_unpack() * which return a ProtobufCMessage must be paired * with a free function, like protobuf_c_message_free_unpacked(). * * 'descriptor' gives the locations and types of the members of message * 'n_unknown_fields' is the number of fields we didn't recognize. * 'unknown_fields' are fields we didn't recognize. */ typedef struct _ProtobufCMessageUnknownField ProtobufCMessageUnknownField; struct _ProtobufCMessage { const ProtobufCMessageDescriptor *descriptor; unsigned n_unknown_fields; ProtobufCMessageUnknownField *unknown_fields; }; #define PROTOBUF_C_MESSAGE_INIT(descriptor) { descriptor, 0, NULL } /* To pack a message: you have two options: (1) you can compute the size of the message using protobuf_c_message_get_packed_size() then pass protobuf_c_message_pack() a buffer of that length. (2) Provide a virtual buffer (a ProtobufCBuffer) to accept data as we scan through it. */ PROTOBUF_C_API size_t protobuf_c_message_get_packed_size(const ProtobufCMessage *message); PROTOBUF_C_API size_t protobuf_c_message_pack (const ProtobufCMessage *message, uint8_t *out); PROTOBUF_C_API size_t protobuf_c_message_pack_to_buffer (const ProtobufCMessage *message, ProtobufCBuffer *buffer); PROTOBUF_C_API ProtobufCMessage * protobuf_c_message_unpack (const ProtobufCMessageDescriptor *, ProtobufCAllocator *allocator, size_t len, const uint8_t *data); PROTOBUF_C_API void protobuf_c_message_free_unpacked (ProtobufCMessage *message, ProtobufCAllocator *allocator); /* WARNING: 'message' must be a block of memory of size descriptor->sizeof_message. */ PROTOBUF_C_API void protobuf_c_message_init (const ProtobufCMessageDescriptor *, void *message); /* --- services --- */ typedef struct _ProtobufCMethodDescriptor ProtobufCMethodDescriptor; typedef struct _ProtobufCServiceDescriptor ProtobufCServiceDescriptor; struct _ProtobufCMethodDescriptor { const char *name; const ProtobufCMessageDescriptor *input; const ProtobufCMessageDescriptor *output; }; struct _ProtobufCServiceDescriptor { uint32_t magic; const char *name; const char *short_name; const char *c_name; const char *package; unsigned n_methods; const ProtobufCMethodDescriptor *methods; /* in order from .proto file */ const unsigned *method_indices_by_name; }; typedef struct _ProtobufCService ProtobufCService; typedef void (*ProtobufCClosure)(const ProtobufCMessage *message, void *closure_data); struct _ProtobufCService { const ProtobufCServiceDescriptor *descriptor; void (*invoke)(ProtobufCService *service, unsigned method_index, const ProtobufCMessage *input, ProtobufCClosure closure, void *closure_data); void (*destroy) (ProtobufCService *service); }; void protobuf_c_service_destroy (ProtobufCService *); /* --- querying the descriptors --- */ PROTOBUF_C_API const ProtobufCEnumValue * protobuf_c_enum_descriptor_get_value_by_name (const ProtobufCEnumDescriptor *desc, const char *name); PROTOBUF_C_API const ProtobufCEnumValue * protobuf_c_enum_descriptor_get_value (const ProtobufCEnumDescriptor *desc, int value); PROTOBUF_C_API const ProtobufCFieldDescriptor * protobuf_c_message_descriptor_get_field_by_name (const ProtobufCMessageDescriptor *desc, const char *name); PROTOBUF_C_API const ProtobufCFieldDescriptor * protobuf_c_message_descriptor_get_field (const ProtobufCMessageDescriptor *desc, unsigned value); PROTOBUF_C_API const ProtobufCMethodDescriptor * protobuf_c_service_descriptor_get_method_by_name (const ProtobufCServiceDescriptor *desc, const char *name); /* --- wire format enums --- */ typedef enum { PROTOBUF_C_WIRE_TYPE_VARINT, PROTOBUF_C_WIRE_TYPE_64BIT, PROTOBUF_C_WIRE_TYPE_LENGTH_PREFIXED, PROTOBUF_C_WIRE_TYPE_START_GROUP, /* unsupported */ PROTOBUF_C_WIRE_TYPE_END_GROUP, /* unsupported */ PROTOBUF_C_WIRE_TYPE_32BIT } ProtobufCWireType; /* --- unknown message fields --- */ struct _ProtobufCMessageUnknownField { uint32_t tag; ProtobufCWireType wire_type; size_t len; uint8_t *data; }; /* --- extra (superfluous) api: trivial buffer --- */ typedef struct _ProtobufCBufferSimple ProtobufCBufferSimple; struct _ProtobufCBufferSimple { ProtobufCBuffer base; size_t alloced; size_t len; uint8_t *data; protobuf_c_boolean must_free_data; }; #define PROTOBUF_C_BUFFER_SIMPLE_INIT(array_of_bytes) \ { { protobuf_c_buffer_simple_append }, \ sizeof(array_of_bytes), 0, (array_of_bytes), 0 } #define PROTOBUF_C_BUFFER_SIMPLE_CLEAR(simp_buf) \ do { if ((simp_buf)->must_free_data) \ protobuf_c_default_allocator.free (&protobuf_c_default_allocator.allocator_data, (simp_buf)->data); } while (0) typedef enum { PROTOBUF_C_CTYPE_INT32, PROTOBUF_C_CTYPE_UINT32, PROTOBUF_C_CTYPE_INT64, PROTOBUF_C_CTYPE_UINT64, PROTOBUF_C_CTYPE_FLOAT, PROTOBUF_C_CTYPE_DOUBLE, PROTOBUF_C_CTYPE_BOOL, PROTOBUF_C_CTYPE_ENUM, PROTOBUF_C_CTYPE_STRING, PROTOBUF_C_CTYPE_BYTES, PROTOBUF_C_CTYPE_MESSAGE, } ProtobufCCType; extern ProtobufCCType protobuf_c_type_to_ctype (ProtobufCType type); #define protobuf_c_type_to_ctype(type) \ ((ProtobufCCType)(protobuf_c_type_to_ctype_array[(type)])) /* ====== private ====== */ #include "protobuf-c-private.h" PROTOBUF_C_END_DECLS #endif /* __PROTOBUF_C_RUNTIME_H_ */ protobuf-c-0.15/src/google/protobuf-c/gsklistmacros.h0000644000175000017500000005251511332660134017630 00000000000000 /* We define three data structures: * 1. a Stack. a singly-ended, singly-linked list. * 2. a Queue. a doubly-ended, singly-linked list. * 3. a List. a doubly-ended, doubly-linked list. * * Stack operations: * PUSH(stack, node) [O(1)] * POP(stack, rv_node) [O(1)] * INSERT_AFTER(stack, above_node, new_node) [O(1)] * IS_EMPTY(stack) [O(1)] * REVERSE(stack) [O(N)] * SORT(stack, comparator) [O(NlogN)] * GET_BOTTOM(stack, rv_node) [O(N)] * Queue operations: * ENQUEUE(queue, node) [O(1)] * DEQUEUE(queue, rv_node) [O(1)] * PREPEND(queue, node) [O(1)] * IS_EMPTY(queue) [O(1)] * REVERSE(queue) [O(N)] * SORT(queue, comparator) [O(NlogN)] * List operations: * PREPEND(list, node) [O(1)] * APPEND(list, node) [O(1)] * REMOVE_FIRST(list) [O(1)] * REMOVE_LAST(list) [O(1)] * REMOVE(list, node) [O(1)] * INSERT_AFTER(list, position_node, new_node) [O(1)] * INSERT_BEFORE(list, position_node, new_node) [O(1)] * IS_EMPTY(list) [O(1)] * REVERSE(list) [O(N)] * SORT(list) [O(NlogN)] * * note: the SORT operation is stable, i.e. if two * elements are equal according to the comparator, * then their relative order in the list * will be preserved. * * In the above, 'stack', 'queue', and 'list' are * a comma-separated list of arguments, actually. * In particular: * stack => NodeType*, top, next_member_name * queue => NodeType*, head, tail, next_member_name * list => NodeType*, first, last, prev_member_name, next_member_name * We recommend making macros that end in GET_STACK_ARGS, GET_QUEUE_ARGS, * and GET_LIST_ARGS that return the relevant N-tuples. */ #define GSK_LOG2_MAX_LIST_SIZE (GLIB_SIZEOF_SIZE_T*8) /* --- Stacks --- */ #define GSK_STACK_PUSH(stack, node) GSK_STACK_PUSH_(stack, node) #define GSK_STACK_POP(stack, rv_node) GSK_STACK_POP_(stack, rv_node) #define GSK_STACK_INSERT_AFTER(stack, above_node, new_node) \ GSK_STACK_INSERT_AFTER_(stack, above_node, new_node) #define GSK_STACK_IS_EMPTY(stack) GSK_STACK_IS_EMPTY_(stack) #define GSK_STACK_REVERSE(stack) GSK_STACK_REVERSE_(stack) #define GSK_STACK_FOREACH(stack, iter_var, code) GSK_STACK_FOREACH_(stack, iter_var, code) #define GSK_STACK_SORT(stack, comparator) GSK_STACK_SORT_(stack, comparator) #define GSK_STACK_GET_BOTTOM(stack, rv_node) GSK_STACK_GET_BOTTOM_(stack, rv_node) #define G_STMT_START do #define G_STMT_END while(0) #define GSK_STACK_PUSH_(type, top, next, node) \ G_STMT_START{ \ type _gsk_tmp = (node); \ _gsk_tmp->next = (top); \ (top) = _gsk_tmp; \ }G_STMT_END #define GSK_STACK_POP_(type, top, next, rv_node) \ G_STMT_START{ \ rv_node = (top); \ (top) = (top)->next; \ }G_STMT_END #define GSK_STACK_INSERT_AFTER_(type, top, next, above_node, new_node) \ G_STMT_START{ \ type _gsk_tmp = (new_node); \ type _gsk_above = (above_node); \ _gsk_tmp->next = _gsk_above->next; \ _gsk_above->next = _gsk_tmp; \ }G_STMT_END #define GSK_STACK_IS_EMPTY_(type, top, next) \ ((top) == NULL) #define GSK_STACK_REVERSE_(type, top, next) \ G_STMT_START{ \ type _gsk___prev = NULL; \ type _gsk___at = (top); \ while (_gsk___at != NULL) \ { \ type _gsk__next = _gsk___at->next; \ _gsk___at->next = _gsk___prev; \ _gsk___prev = _gsk___at; \ _gsk___at = _gsk__next; \ } \ (top) = _gsk___prev; \ }G_STMT_END #define GSK_STACK_FOREACH_(type, top, next, iter_var, code) \ for (iter_var = top; iter_var != NULL; ) \ { \ type _gsk__next = iter_var->next; \ code; \ iter_var = _gsk__next; \ } /* sort algorithm: * in order to implement SORT in a macro, it cannot use recursion. * but that's ok because you can just manually implement a stack, * which is probably faster anyways. */ #define GSK_STACK_SORT_(type, top, next, comparator) \ G_STMT_START{ \ type _gsk_stack[GSK_LOG2_MAX_LIST_SIZE]; \ guint _gsk_stack_size = 0; \ guint _gsk_i; \ type _gsk_at; \ for (_gsk_at = top; _gsk_at != NULL; ) \ { \ type _gsk_a = _gsk_at; \ type _gsk_b; \ type _gsk_cur_list; \ int _gsk_comparator_rv; \ _gsk_at = _gsk_at->next; \ if (_gsk_at) \ { \ _gsk_b = _gsk_at; \ _gsk_at = _gsk_at->next; \ comparator (_gsk_a, _gsk_b, _gsk_comparator_rv); \ if (_gsk_comparator_rv > 0) \ { \ /* sort first two elements */ \ type _gsk_swap = _gsk_b; \ _gsk_b = _gsk_a; \ _gsk_a = _gsk_swap; \ _gsk_a->next = _gsk_b; \ _gsk_b->next = NULL; \ } \ else \ { \ /* first two elements already sorted */ \ _gsk_b->next = NULL; \ } \ } \ else \ { \ /* only one element remains */ \ _gsk_a->next = NULL; \ _gsk_at = NULL; \ } \ _gsk_cur_list = _gsk_a; \ \ /* merge _gsk_cur_list up the stack */ \ for (_gsk_i = 0; TRUE; _gsk_i++) \ { \ /* expanding the stack is marked unlikely, */ \ /* since in the case it matters (where the number */ \ /* of elements is big), the stack rarely grows. */ \ if (G_UNLIKELY (_gsk_i == _gsk_stack_size)) \ { \ _gsk_stack[_gsk_stack_size++] = _gsk_cur_list; \ break; \ } \ else if (_gsk_stack[_gsk_i] == NULL) \ { \ _gsk_stack[_gsk_i] = _gsk_cur_list; \ break; \ } \ else \ { \ /* Merge _gsk_stack[_gsk_i] and _gsk_cur_list. */ \ type _gsk_merge_list = _gsk_stack[_gsk_i]; \ type _gsk_new_cur_list; \ _gsk_stack[_gsk_i] = NULL; \ \ _GSK_MERGE_NONEMPTY_LISTS (_gsk_merge_list, \ _gsk_cur_list, \ _gsk_new_cur_list, \ type, next, comparator); \ _gsk_cur_list = _gsk_new_cur_list; \ _gsk_stack[_gsk_i] = NULL; \ } \ } \ } \ \ /* combine all the elements on the stack into a final output */ \ top = NULL; \ for (_gsk_i = 0; _gsk_i < _gsk_stack_size; _gsk_i++) \ if (_gsk_stack[_gsk_i] != NULL) \ { \ if (top == NULL) \ top = _gsk_stack[_gsk_i]; \ else \ { \ type _gsk_new_top; \ _GSK_MERGE_NONEMPTY_LISTS (_gsk_stack[_gsk_i], \ top, \ _gsk_new_top, \ type, next, comparator); \ top = _gsk_new_top; \ } \ } \ }G_STMT_END #define GSK_STACK_GET_BOTTOM_(type, top, next, rv_node) \ G_STMT_START{ \ rv_node = top; \ if (rv_node != NULL) \ while (rv_node->next) \ rv_node = rv_node->next; \ }G_STMT_END /* --- Queues --- */ #define GSK_QUEUE_ENQUEUE(queue, node) GSK_QUEUE_ENQUEUE_(queue, node) #define GSK_QUEUE_DEQUEUE(queue, rv_node) GSK_QUEUE_DEQUEUE_(queue, rv_node) #define GSK_QUEUE_PREPEND(queue, node) GSK_QUEUE_PREPEND_(queue, node) #define GSK_QUEUE_IS_EMPTY(queue) GSK_QUEUE_IS_EMPTY_(queue) #define GSK_QUEUE_REVERSE(queue) GSK_QUEUE_REVERSE_(queue) #define GSK_QUEUE_SORT(queue, comparator) GSK_QUEUE_SORT_(queue, comparator) #define GSK_QUEUE_ENQUEUE_(type, head, tail, next, node) \ G_STMT_START{ \ type _gsk_tmp = (node); \ if (tail) \ tail->next = _gsk_tmp; \ else \ head = _gsk_tmp; \ tail = _gsk_tmp; \ node->next = NULL; \ }G_STMT_END #define GSK_QUEUE_DEQUEUE_(type, head, tail, next, rv_node) \ G_STMT_START{ \ rv_node = head; \ if (head) \ { \ head = head->next; \ if (head == NULL) \ tail = NULL; \ } \ }G_STMT_END #define GSK_QUEUE_PREPEND_(type, head, tail, next, node) \ G_STMT_START{ \ type _gsk_tmp = (node); \ _gsk_tmp->next = head; \ head = _gsk_tmp; \ if (tail == NULL) \ tail = head; \ }G_STMT_END #define GSK_QUEUE_IS_EMPTY_(type, head, tail, next) \ ((head) == NULL) #define GSK_QUEUE_REVERSE_(type, head, tail, next) \ G_STMT_START{ \ type _gsk_queue_new_tail = head; \ GSK_STACK_REVERSE_(type, head, next); \ tail = _gsk_queue_new_tail; \ }G_STMT_END #define GSK_QUEUE_SORT_(type, head, tail, next, comparator) \ G_STMT_START{ \ GSK_STACK_SORT_(type, head, next, comparator); \ GSK_STACK_GET_BOTTOM_(type, head, next, tail); \ }G_STMT_END /* --- List --- */ #define GSK_LIST_PREPEND(list, node) GSK_LIST_PREPEND_(list, node) #define GSK_LIST_APPEND(list, node) GSK_LIST_APPEND_(list, node) #define GSK_LIST_REMOVE_FIRST(list) GSK_LIST_REMOVE_FIRST_(list) #define GSK_LIST_REMOVE_LAST(list) GSK_LIST_REMOVE_LAST_(list) #define GSK_LIST_REMOVE(list, node) GSK_LIST_REMOVE_(list, node) #define GSK_LIST_INSERT_AFTER(list, at, node) GSK_LIST_INSERT_AFTER_(list, at, node) #define GSK_LIST_INSERT_BEFORE(list, at, node) GSK_LIST_INSERT_BEFORE_(list, at, node) #define GSK_LIST_IS_EMPTY(list) GSK_LIST_IS_EMPTY_(list) #define GSK_LIST_REVERSE(list) GSK_LIST_REVERSE_(list) #define GSK_LIST_SORT(list, comparator) GSK_LIST_SORT_(list, comparator) #define GSK_LIST_PREPEND_(type, first, last, prev, next, node) \ G_STMT_START{ \ type _gsk_tmp = (node); \ if (first) \ first->prev = (_gsk_tmp); \ else \ last = (_gsk_tmp); \ node->next = first; \ node->prev = NULL; \ first = node; \ }G_STMT_END #define GSK_LIST_APPEND_(type, first, last, prev, next, node) \ GSK_LIST_PREPEND_(type, last, first, next, prev, node) #define GSK_LIST_REMOVE_FIRST_(type, first, last, prev, next) \ G_STMT_START{ \ first = first->next; \ if (first == NULL) \ last = NULL; \ else \ first->prev = NULL; \ }G_STMT_END #define GSK_LIST_REMOVE_LAST_(type, first, last, prev, next) \ GSK_LIST_REMOVE_FIRST_(type, last, first, next, prev) #define GSK_LIST_REMOVE_(type, first, last, prev, next, node) \ G_STMT_START{ \ type _gsk_tmp = (node); \ if (_gsk_tmp->prev) \ _gsk_tmp->prev->next = _gsk_tmp->next; \ else \ first = _gsk_tmp->next; \ if (_gsk_tmp->next) \ _gsk_tmp->next->prev = _gsk_tmp->prev; \ else \ last = _gsk_tmp->prev; \ }G_STMT_END #define GSK_LIST_INSERT_AFTER_(type, first, last, prev, next, at, node) \ G_STMT_START{ \ type _gsk_at = (at); \ type _gsk_node = (node); \ _gsk_node->prev = _gsk_at; \ _gsk_node->next = _gsk_at->next; \ if (_gsk_node->next) \ _gsk_node->next->prev = _gsk_node; \ else \ last = _gsk_node; \ _gsk_at->next = _gsk_node; \ }G_STMT_END #define GSK_LIST_INSERT_BEFORE_(type, first, last, prev, next, at, node)\ GSK_LIST_INSERT_AFTER_(type, last, first, next, prev, at, node) #define GSK_LIST_IS_EMPTY_(type, first, last, prev, next) \ ((first) == NULL) #define GSK_LIST_REVERSE_(type, first, last, prev, next) \ G_STMT_START{ \ type _gsk_at = first; \ first = last; \ last = _gsk_at; \ while (_gsk_at) \ { \ type _gsk_old_next = _gsk_at->next; \ _gsk_at->next = _gsk_at->prev; \ _gsk_at->prev = _gsk_old_next; \ _gsk_at = _gsk_old_next; \ } \ }G_STMT_END #define GSK_LIST_SORT_(type, first, last, prev, next, comparator) \ G_STMT_START{ \ type _gsk_prev = NULL; \ type _gsk_at; \ GSK_STACK_SORT_(type, first, next, comparator); \ for (_gsk_at = first; _gsk_at; _gsk_at = _gsk_at->next) \ { \ _gsk_at->prev = _gsk_prev; \ _gsk_prev = _gsk_at; \ } \ last = _gsk_prev; \ }G_STMT_END /* --- Internals --- */ #define _GSK_MERGE_NONEMPTY_LISTS(a,b,out,type,next,comparator) \ G_STMT_START{ \ type _gsk_out_at; \ int _gsk_comparator_rv; \ /* merge 'a' and 'b' into 'out' -- in order to make the sort stable,*/ \ /* always put elements if 'a' first in the event of a tie (i.e. */ \ /* when comparator_rv==0) */ \ comparator (a, b, _gsk_comparator_rv); \ if (_gsk_comparator_rv <= 0) \ { \ out = a; \ a = a->next; \ } \ else \ { \ out = b; \ b = b->next; \ } \ _gsk_out_at = out; \ while (a && b) \ { \ comparator (a, b, _gsk_comparator_rv); \ if (_gsk_comparator_rv <= 0) \ { \ _gsk_out_at->next = a; \ _gsk_out_at = a; \ a = a->next; \ } \ else \ { \ _gsk_out_at->next = b; \ _gsk_out_at = b; \ b = b->next; \ } \ } \ _gsk_out_at->next = (a != NULL) ? a : b; \ }G_STMT_END protobuf-c-0.15/CMakeLists.txt0000644000175000017500000000636111536220130013177 00000000000000cmake_minimum_required(VERSION 2.8) project(protobuf-c) set(PROTOBUF_C_VERSION_MAJOR 0) set(PROTOBUF_C_VERSION_MINOR 14) set(PROTOBUF_C_VERSION_PATCH 1) set(PROTOBUF_C_VERSION ${PROTOBUF_C_VERSION_MAJOR}.${PROTOBUF_C_VERSION_MINOR}) set(CMAKE_ROOT_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR}/${PROJECT_NAME}-${CMAKE_SYSTEM} CACHE PATH "root output directory in which to locate target files") set(CMAKE_RUNTIME_OUTPUT_DIRECTORY ${CMAKE_ROOT_OUTPUT_DIRECTORY}/bin CACHE PATH "output directory in which to build runtime target files") set(CMAKE_LIBRARY_OUTPUT_DIRECTORY ${CMAKE_ROOT_OUTPUT_DIRECTORY}/lib CACHE PATH "output directory in which to build library target files") set(CMAKE_ARCHIVE_OUTPUT_DIRECTORY ${CMAKE_ROOT_OUTPUT_DIRECTORY}/lib CACHE PATH "output directory in which to build archive target files") function(process_libprotobuf_c_pc) set(prefix ${PROTOBUF_C_INSTALL_PREFIX}) set(exec_prefix ${PROTOBUF_C_INSTALL_EXEC_PREFIX}) set(libdir ${PROTOBUF_C_INSTALL_LIBDIR}) set(includedir ${PROTOBUF_C_INSTALL_INCLUDEDIR}) set(VERSION ${PROTOBUF_C_VERSION}) configure_file(libprotobuf-c.pc.in ${CMAKE_ROOT_OUTPUT_DIRECTORY}/pkgconfig/libprotobuf-c.pc @ONLY) install(DIRECTORY ${CMAKE_ROOT_OUTPUT_DIRECTORY}/pkgconfig DESTINATION ${PROTOBUF_C_INSTALL_LIBDIR}) endfunction() set(PROTOBUF_C_INSTALL_PREFIX ${CMAKE_INSTALL_PREFIX} CACHE PATH "install location for architecture-independent files") set(PROTOBUF_C_INSTALL_EXEC_PREFIX ${CMAKE_INSTALL_PREFIX} CACHE PATH "install location for architecture-dependent files") if ( UNIX ) set(PROTOBUF_C_INSTALL_BINDIR ${PROTOBUF_C_INSTALL_EXEC_PREFIX}/bin CACHE PATH "install location for executable files") set(PROTOBUF_C_INSTALL_LIBDIR ${PROTOBUF_C_INSTALL_EXEC_PREFIX}/lib CACHE PATH "install location for object code libraries") set(PROTOBUF_C_INSTALL_INCLUDEDIR ${PROTOBUF_C_INSTALL_PREFIX}/include CACHE PATH "install location for public header files") process_libprotobuf_c_pc() else() set(PROTOBUF_C_INSTALL_BINDIR bin CACHE PATH "install location for executable files") set(PROTOBUF_C_INSTALL_LIBDIR lib CACHE PATH "install location for object code libraries") set(PROTOBUF_C_INSTALL_INCLUDEDIR include CACHE PATH "install location for public header files") endif() enable_testing() add_subdirectory(src) # Use "make package" or something like that to create a protobuf-c package. set(CPACK_PACKAGE_CONTACT "David Benson ") set(CPACK_PACKAGE_DESCRIPTION_SUMMARY "C bindings for protocol-buffers") set(CPACK_PACKAGE_DESCRIPTION_FILE "${CMAKE_CURRENT_SOURCE_DIR}/README") set(CPACK_RESOURCE_FILE_LICENSE "${CMAKE_CURRENT_SOURCE_DIR}/LICENSE") set(CPACK_PACKAGE_VERSION_MAJOR "${PROTOBUF_C_VERSION_MAJOR}") set(CPACK_PACKAGE_VERSION_MINOR "${PROTOBUF_C_VERSION_MINOR}") set(CPACK_PACKAGE_VERSION_PATCH "${PROTOBUF_C_VERSION_PATCH}") if ( WIN32 ) set(CPACK_GENERATOR ZIP) else() # Look at http://public.kitware.com/Bug/view.php?id=7000 set(CPACK_SET_DESTDIR "ON") set(CPACK_GENERATOR DEB) set(CPACK_DEBIAN_PACKAGE_SECTION "libs") set(CPACK_DEBIAN_PACKAGE_PRIORITY "low") set(CPACK_DEBIAN_PACKAGE_HOMEPAGE "http://code.google.com/p/protobuf-c") endif() include(CPack) protobuf-c-0.15/README0000644000175000017500000000014111536220130011305 00000000000000protobuf or protocol-buffers is google's language for describing extensible binary data formats. protobuf-c-0.15/Makefile.am0000644000175000017500000000066311536220461012501 00000000000000SUBDIRS = src EXTRA_DIST = scripts pkgwriteinfo.in CMakeLists.txt pkgconfigdir = $(libdir)/pkgconfig pkgconfig_DATA = libprotobuf-c.pc # --- packages --- DEBARCH = `dpkg --print-architecture` deb: test -r protobuf-c-@VERSION@.tar.gz || $(MAKE) dist $(srcdir)/scripts/pkgwrite --format=debian \ --tarball=protobuf-c-@VERSION@.tar.gz \ --output=protobuf-c-packages \ --pkgwriteinfo-file=pkgwriteinfo \ --arch=$(DEBARCH) protobuf-c-0.15/scripts/0000777000175000017500000000000011463604256012222 500000000000000protobuf-c-0.15/scripts/get-structure-packing-info0000755000175000017500000000756711463604256017263 00000000000000#! /bin/sh die () { echo "$1" 1>&2 exit 1 } die_unless_set () { eval "isset=\$$1" test -z "$isset" && die "$1 not set" } # test_is_equal DEFINE_TYPE SIZEOF_TYPE EVAL_IF_TRUE test_is_equal () { # Write out C file cat > test-compile-for-structure-packing-0.c < $1; int main () { /* Program does not compile iff alignof(int32_t) is 2 */ switch (0) { case $2: case sizeof(TYPE): ; } } EOF # If it DOESN'T compile, then the values are equal. $CC -o /dev/null test-compile-for-structure-packing-0.c > /dev/null 2>&1 || { eval "$3" ; } rm -f test-compile-for-structure-packing-0.c } test_is_not_equal () { # Write out C file cat > test-compile-for-structure-packing-0.c < $1; int main () { /* Program does not compile iff alignof(int32_t) is 2 */ switch (0) { case $2: case sizeof(TYPE): ; } } EOF # If it DOESN'T compile, then the values are equal. $CC -o /dev/null test-compile-for-structure-packing-0.c > /dev/null 2>&1 && { eval "$3" ; } rm -f test-compile-for-structure-packing-0.c } test_is_equal "typedef int TYPE" 2 "SIZEOF_INT=2" test_is_equal "typedef int TYPE" 4 "SIZEOF_INT=4" test_is_equal "typedef int TYPE" 8 "SIZEOF_INT=8" die_unless_set SIZEOF_INT test_is_equal "typedef void* TYPE" 2 "SIZEOF_POINTER=2" test_is_equal "typedef void* TYPE" 4 "SIZEOF_POINTER=4" test_is_equal "typedef void* TYPE" 8 "SIZEOF_POINTER=8" die_unless_set SIZEOF_POINTER test_is_not_equal "typedef float TYPE" 4 'die "expecting float to be 4 bytes"' test_is_not_equal "typedef double TYPE" 8 'die "expecting double to be 4 bytes"' test_is_equal "typedef struct { char c; int32_t i; }" 5 "ALIGNOF_INT32=1" test_is_equal "typedef struct { char c; int32_t i; }" 6 "ALIGNOF_INT32=2" test_is_equal "typedef struct { char c; int32_t i; }" 8 "ALIGNOF_INT32=4" die_unless_set ALIGNOF_INT32 test_is_equal "typedef struct { char c; int64_t i; }" 9 "ALIGNOF_INT64=1" test_is_equal "typedef struct { char c; int64_t i; }" 10 "ALIGNOF_INT64=2" test_is_equal "typedef struct { char c; int64_t i; }" 12 "ALIGNOF_INT64=4" test_is_equal "typedef struct { char c; int64_t i; }" 16 "ALIGNOF_INT64=8" die_unless_set ALIGNOF_INT64 test_is_equal "typedef struct { char c; float i; }" 5 "ALIGNOF_FLOAT=1" test_is_equal "typedef struct { char c; float i; }" 6 "ALIGNOF_FLOAT=2" test_is_equal "typedef struct { char c; float i; }" 8 "ALIGNOF_FLOAT=4" die_unless_set ALIGNOF_FLOAT test_is_equal "typedef struct { char c; double i; }" 9 "ALIGNOF_DOUBLE=1" test_is_equal "typedef struct { char c; double i; }" 10 "ALIGNOF_DOUBLE=2" test_is_equal "typedef struct { char c; double i; }" 12 "ALIGNOF_DOUBLE=4" test_is_equal "typedef struct { char c; double i; }" 16 "ALIGNOF_DOUBLE=8" die_unless_set ALIGNOF_DOUBLE case "$SIZEOF_POINTER" in 2) test_is_equal "typedef struct { char c; void *i; }" 3 "ALIGNOF_POINTER=1" test_is_equal "typedef struct { char c; void *i; }" 4 "ALIGNOF_POINTER=2" ;; 4) test_is_equal "typedef struct { char c; void *i; }" 5 "ALIGNOF_POINTER=1" test_is_equal "typedef struct { char c; void *i; }" 6 "ALIGNOF_POINTER=2" test_is_equal "typedef struct { char c; void *i; }" 8 "ALIGNOF_POINTER=4" ;; 8) test_is_equal "typedef struct { char c; void *i; }" 9 "ALIGNOF_POINTER=1" test_is_equal "typedef struct { char c; void *i; }" 10 "ALIGNOF_POINTER=2" test_is_equal "typedef struct { char c; void *i; }" 12 "ALIGNOF_POINTER=4" test_is_equal "typedef struct { char c; void *i; }" 16 "ALIGNOF_POINTER=8" ;; *) die "bad SIZEOF_POINTER=$SIZEOF_POINTER" esac die_unless_set ALIGNOF_POINTER case "$SIZEOF_INT" in 2) ALIGNOF_INT=$ALIGNOF_INT16 ;; 4) ALIGNOF_INT=$ALIGNOF_INT32 ;; 8) ALIGNOF_INT=$ALIGNOF_INT64 ;; *) die "bad SIZEOF_INT=$SIZEOF_INT" ;; esac for a in SIZEOF_INT SIZEOF_POINTER \ ALIGNOF_INT16 ALIGNOF_INT32 ALIGNOF_INT64 ALIGNOF_INT ALIGNOF_POINTER do eval "v=\$$a" echo "#define $a $v" done protobuf-c-0.15/scripts/pkgwrite0000755000175000017500000031712311332660134013717 00000000000000#! /usr/bin/perl -w # pkgwrite 0.0.8: Build native packages from source code # and pkgwriteinfo files. # # This file contains POD documentation: try `perldoc pkgwrite' for help. # # Copyright Dave Benson , 2000-2001. # Requirements: # perl 5.004 or higher, # and native packaging tools for the output packages, that is: # For redhat `rpm'. And for debian `dpkg' and `dpkg-buildpackage'. # pkgwrite # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public # License as published by the Free Software Foundation; either # version 2 of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public # License along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # --- # # This software may also be licensed under the terms of # the GNU Lesser General Public License, version 2 or higher. # (This is so that the pkgwrite script may be legally included # with LGPL'd software.) # # --- # # Furthermore, the packages and intermediary files generated # with pkgwrite are specifically excluded from the terms of # this license. Hence, pkgwrite adds no additional restrictions to # the package's licensing, but they must comply with the # licensing on the other source code, libraries and tools used # to generate the package. # Finally, this contains the rpmrc that is distributed with # rpm 4.0: CVS entry: rpmrc.in 2.28.2.2 2000/09/13. # That file had no copyright info. The RPM source code, # like pkgwrite, is licenced under both the LGPL and the GPL. require 5.004; use Carp; use Config; # for signal names use Symbol qw(gensym); # Table of Contents of the Source Code. # Section 0: Initialization & Configuration. # Section 1: Helper functions. # Section 2: parse_pkgwriteinfo_file: Return package information. # Section 3: Verify that a package is correctly formed. # Section 4: ChangeLog parsing code. # Section 5: Redhat tape. # Section 6: Debian tape. # Section 7: High-level API: Make a package from a tarball. # Section 8: Usage message. # Section 9: Main program. # Section 10: POD Documention. #===================================================================== # Section 0: Initialization & Configuration. #===================================================================== # --- function prototypes --- sub dump_list ($); # print a builtin table to stdout sub initialize_packaging_tables (); # redhat/debian package mgnt specifics sub initialize_signal_tables (); # signal number to id mappings sub add_automatic_conflicts ($); # add conflicts if file sets intersect # --- global initialization --- $initial_dir = `pwd`; chomp ($initial_dir); initialize_packaging_tables (); initialize_signal_tables (); $PKGWRITE_VERSION = '0.0.8'; # --- configuration --- # set to 0 for debugging: don't delete working directories. $do_cleanup = 1; $do_cleanup = $ENV{DO_CLEANUP} if defined($ENV{DO_CLEANUP}); # force the changelog to refer to this exact version. $strict_changelog_checking = 1; # whether to perform an extra packaging sanity test phase. $do_sanity_check = 1; # for the changelog, which distribution should be listed? # XXX: hm, what if a single package changes dist? look at # packages in stable for an example, i guess... (actually # this isn't a problem if you *always* use pkgwrite, # but that's annoying.) $debian_dist = 'unstable'; # options to pass to ./configure (these differ due on different # distros due to different standard directories -- most likely, # the redhat usage will converge to the debian/fhsstnd.) @common_config_flags = ( '--sysconfdir=/etc', '--prefix=/usr', '--quiet' ); $redhat_config_flags = join(' ', @common_config_flags ); $debian_config_flags = join(' ', @common_config_flags, '--mandir=/usr/share/man', '--infodir=/usr/share/info', '--datadir=/usr/share'); # Directories where shared libraries are kept: if we install a library # in any of these directories we need to run `ldconfig'. @ldconfig_dirs = ( '/usr/lib', '/lib', '/usr/X11/lib', '/usr/X11R6/lib', '/usr/lib/X11' ); # --- configuration --- # gzip/gunzip programs + arguments that can act as filters. $gzip = 'gzip -9 -c -'; $gunzip = 'gzip -d -c -'; # flags which cause `tar' to extract a file to stdout from an archive. # usage: tar $untar_to_stdout ARCHIVE FILE # or zcat ARCHIVE | tar $untar_to_stdout - FILE # (perhaps this isn't portable?) $untar_to_stdout = "xOf"; # Location of the optional system-wide rpmrc file. $system_rpmrc_file = "/var/lib/rpm/rpmrc"; # Standard build architectures. Yes, hardcoding this sucks... $default_redhat_archs = "i386 alpha sparc sparc64"; # --- configure-time substitutions (!) --- # The RHS of these assignments is a autoconf-substitution; # in pkgwrite.in there are autoconf AC_SUBST()d variables, # and in pkgwrite these is a 0 or 1 to indicate # whether `configure' detected a suitable version of these # packaging systems. $has_rpm_support = 1; $has_dpkg_support = 1; # --- build hash tables of fixed strings --- sub initialize_packaging_tables () { # --- Debian packaging values --- # valid values for the Priority: field. for (qw(required important standard optional extra)) { $DPKG_PRIORITY_LEVELS{$_} = $_; } # valid values for the Section: field. for (qw(admin base comm contrib devel doc editors electronics games graphics hamradio interpreters libs mail math misc net news non-free oldlibs otherosfs shells sound tex text utils web x11)) { $DPKG_SECTIONS{$_} = $_; } # --- Redhat packaging values --- for ('Amusements/Games', 'Amusements/Graphics', 'Applications/Archiving', 'Applications/Communications', 'Applications/Databases', 'Applications/Editors', 'Applications/Emulators', 'Applications/Engineering', 'Applications/File', 'Applications/Internet', 'Applications/Multimedia', 'Applications/Productivity', 'Applications/Publishing', 'Applications/System', 'Applications/Text', 'Development/Debuggers', 'Development/Languages', 'Development/Libraries', 'Development/System', 'Development/Tools', 'Documentation', 'System Environment/Base', 'System Environment/Daemons', 'System Environment/Kernel', 'System Environment/Libraries', 'System Environment/Shells', 'User Interface/Desktops', 'User Interface/X', 'User Interface/X Hardware Support') { $RPM_GROUPS{lc($_)} = $_; } } # initialize_signal_tables: Build a lookup-table mapping from # signal number to the signal's name (the part which follows # SIG in the C macro: for example: HUP, KILL, TERM, SEGV, ABRT, etc) # based on perl's configuration. sub initialize_signal_tables () { defined $Config{sig_name} || die "No sigs?"; my $i = 0; foreach $name (split(' ', $Config{sig_name})) { #$signo{$name} = $i; $signame[$i] = $name; $i++; } } #===================================================================== # Section 1: Helper functions. #===================================================================== # --- run: run a program or die --- sub run($) { my $command = $_[0]; print STDERR " running: $command\n"; my $rv = system ($command); if ($rv != 0) { if ($rv < 256) { die "command `$command' killed by signal " . $signame[$rv]; } else { die "command `$command' exited with status " . ($rv >> 8); } } } # safe_mkdir: make a directory if it doesn't exist, # or die with an error message. sub safe_mkdir($) { croak "safe_mkdir(undef) called" unless defined $_[0]; mkdir ($_[0], 0755) or croak "mkdir($_[0]) failed"; } # check_field(OBJECT, HASH-ENTRY, FIELD) # # Verify that OBJECT->{HASH-ENTRY} is value, or die with a diagnostic. sub check_field($$$) { if (!defined($_[0]->{$_[1]})) { my $type = $_[0]->{type}; my $name = $_[0]->{name}; $name = "(unknown name)" unless defined $name; $type = "packaging" unless defined $type; die "field `$_[2]' required in $type for $name"; } } # undef_or_empty: Test if an array reference is undefined or of zero length. sub undef_or_empty ($) { return 1 unless defined $_[0]; my $array = $_[0]; return 1 unless scalar (@$array); return 0; } # write_entries: Write out optional field entries from a hash-table $object. # $field_list and $hash_entries are parallel lists. sub write_entries ($$$$) { my ($fh, $object, $field_list, $hash_entries) = @_; my $count = scalar(@$field_list); my $i; for ($i = 0; $i < $count; $i++) { my $hentry = $hash_entries->[$i]; my $fname = $field_list->[$i]; if (defined($object->{$hentry})) { print $fh $fname, ": ", $object->{$hentry}, "\n"; } } } # make a full path from a possibly relative path specified # on the command line. sub make_absolute($) { if ($_[0] !~ m,^/,) { return "$initial_dir/" . $_[0]; } else { return $_[0]; } } # write_list_to_file(\@LIST, $FNAME) # Write each element of LIST on a separate line to a file named $FNAME. sub write_list_to_file ($$) { my ($list, $fname) = @_; open Z, ">$fname" or die "write_list_to_file: couldn't create $fname"; for (@$list) { print Z "$_\n"; } close Z; } # make_file: Create a file with the contents of a given string. sub make_file ($$) { my ($fname, $contents) = @_; open Z, ">$fname" or die "make_file: couldn't create $fname"; print Z $contents; close Z; } # maybe_print_make_dirs(\%MADE_DIRECTORIES, $FILE_HANDLE, $DIRECTORY): # # Print a script to make the directories and subdirectories # of $dir, recording made directories in MADE_DIRECTORIES # to avoid duplication. sub maybe_print_make_dirs ($$$) { my ($made_dirs, $fh, $dir) = @_; my $cur = ''; $cur = ($dir =~ s,^/+,,) ? '' : '.'; for (split /\//, $dir) { $cur .= "/$_"; if (!defined($made_dirs->{$cur})) { print $fh "\ttest -d $cur || mkdir $cur\n"; $made_dirs->{$cur} = 1; } } } # string_to_boolean: take the normal yes/no/false/true/0/1 mess # and output 0, 1, or undef. sub string_to_boolean ($) { my $s = $_[0]; return 0 if ($s eq '0' || $s eq 'f' || $s eq 'F' || $s eq 'n' || $s eq 'N' || $s eq 'no' || $s eq 'NO' || $s eq 'false' || $s eq 'FALSE'); return 1 if ($s eq '1' || $s eq 't' || $s eq 'T' || $s eq 'y' || $s eq 'Y' || $s eq 'yes' || $s eq 'YES' || $s eq 'true' || $s eq 'TRUE'); return undef; } # Read lines from FILE-HEADER until a non-empty line is encountered. # Return undef if no nonempty line is encountered. sub skip_empty_lines ($) { my $fh = $_[0]; while (<$fh>) { chomp; return $_ if /\S/; } return undef; } # From the basename of a manpage (eg zshall.1.gz or exit.3tcl) # find the man-section (resp. 1 or 3). sub get_manpage_section ($) { my $b = $_[0]; $b =~ s/\.gz$//; $b =~ s/\.bz2$//; $b =~ s/\.Z$//; $b =~ s/^.*\.//; if ($b =~ /^(\d+)/) { return $b; } die "Couldn't figure out what man-section $_[0] was in"; } # --- Creating and destroying the temporary working area --- sub get_tmp_dir() { return $ENV{'TMPDIR'} || $ENV{'TEMPDIR'} || "/tmp"; } sub get_work_dir () { # Make a working directory. if (!defined($global_work_dir)) { $global_work_dir = get_tmp_dir() . "/mkpkg-$$-$ENV{USER}"; mkdir ($global_work_dir, 0755) or die "couldn't make tmp directory $global_work_dir"; } $SIG{__DIE__} = sub { remove_work_dir (); }; return $global_work_dir; } sub remove_work_dir () { if (defined($global_work_dir)) { $SIG{__DIE__} = sub {}; run ("rm -rf $global_work_dir") if $do_cleanup; undef($global_work_dir); } } #===================================================================== # Section 2: parse_pkgwriteinfo_file: Return package information. #===================================================================== # DATA STRUCTURES # # The return value is a Package, a hash-table with the following fields: # name => NAME-OF-PACKAGE # output_name => NAME-OF-PACKAGE [sometimes mangled for co-installation] # section => DEBIAN-SECTION # group => REDHAT-GROUP # priority => DEBIAN-PRIORITY # author => AUTHOR # builds => \@BUILDS # targets => \@TARGETS # url => URL # summary => SUMMARY # license => LICENSE # version => UPSTREAM-VERSION # release => RELEASE # packager => PACKAGER_FULLNAME # packager_email = PACKAGER_EMAIL # changelog => CHANGELOG-FILE # fullname => PACKAGE-VERSION-RELEASE # upstream_fullname => PACKAGE-VERSION # needs_noarch => [01] # needs_arch_specific => [01] # upstream_is_packager => [01] Whether the packager and author are the same. # (The default is 1, meaning TRUE) # changelog_file => changelog.gz or changelog.Debian.gz # # Each Target's information is a hash-table with the following fields: # name => TARGET-NAME [without PACKAGE-, or {MAIN}] # summary => SUMMARY # description => DESCRIPTION # section => DEBIAN-SECTION [default to package's section] # group => REDHAT-GROUP [default to package's group] # files => \@PATTERNS # conffiles => \@PATTERNS # manpages => \@MANPAGES [just the basename -- no path] # arch_indep => [01] [whether this target contains compiled code] # build_name => BUILD-NAME # build => BUILD # installed_docs => \@DOCS [docs the package installs] # source_docs => \@DOCS [docs from the package tarball] # # Each Build's information is a hash-table with the following fields: # name => BUILD-NAME [or {MAIN} for the default] # configure_flags => FLAGS [addl flags to pass to the configure script] # configure_envars => ENVARS [NAME=VALUE pairs...] # make_flags => FLAGS [addl flags to pass to make & make install] # build_flags => FLAGS [addl flags to pass to make] # install_flags => FLAGS [addl flags to pass to make install] # extra_build_targets => \@T [addl `make' targets to build] # extra_install_targets => \@T [addl `make' targets to install] sub parse_pkgwriteinfo_file($) { open PINFO, "$_[0]" or die "couldn't open $_[0]"; my $package; my @lines = (); # --- # Break the line up into sections starting with Target, Package, Build, # and call the appropriate parser on those blocks, # which are functions named handle_{target,package,build}. # # Each of those functions takes a list of lines as arguments # and returns a hash-table reference of the appropriate {'type'}. # Parse the first block, which is always Package:. while () { # Ignore whitespace. next if /^\s*$/; # Ignore comments. next if /^\s*#/; chomp; $line = $_; if ($line =~ /^Target:/ || $line =~ /^Build:/) { # Clear out the current lines as the main package entry. $package = handle_package (@lines); die unless defined $package; # This line begins the new block. @lines = ( $line ); last; } else { push @lines, $_; } } while () { # Ignore whitespace. next if /^\s*$/; # Ignore comments. next if /^\s*#/; chomp; $line = $_; # Are we are a block boundary? if (($line =~ /^Target:/) || ($line =~ /^Build:/)) { # What type of block did we just complete? if ($lines[0] =~ /^Target:/) { # Parse the Target. my $target = handle_target (@lines); die unless defined $target; $target->{package} = $package; my $targets = $package->{targets}; push @$targets, $target; } else { # Parse the Build. my $build = handle_build (@lines); die unless defined $build; $build->{package} = $package; my $builds = $package->{builds}; push @$builds, $build; # Compute the name of the src rpm, which will also # be the prefix for all the other packages. my $name = $package->{output_name}; $name .= ("-" . $build->{name}) if ($build->{name} ne '{MAIN}'); $build->{package_name} = $name; $build->{package} = $package; } @lines = ( $line ); next; } else { push @lines, $line; } } if (scalar (@lines) > 0) { die "The last block in a pkgwriteinfo file must always be a target" unless ($lines[0] =~ /^Target:/i); $target = handle_target (@lines); die unless defined $target; my $targets = $package->{targets}; push @$targets, $target; } { my $targets = $package->{targets}; for my $target (@$targets) { for my $inherited (qw(group)) { if (!defined($target->{$inherited})) { $target->{$inherited} = $package->{$inherited} } } } } my %BUILDS_BY_NAME = (); { my $targets = $package->{targets}; my $builds = $package->{builds}; die "malformed package: no targets" if scalar (@$targets) == 0; die "malformed package: no builds" if scalar (@$builds) == 0; for (@$builds) { $BUILDS_BY_NAME{$_->{name}} = $_; } my $needs_noarch = 0; my $needs_arch_specific = 0; for my $target (@$targets) { my $build = $target->{build_name}; my $name = $target->{name}; $build = '{MAIN}' unless defined $build; if (!defined $BUILDS_BY_NAME{$build}) { die "no build for target $name named $build"; } if ($target->{arch_indep}) { $needs_noarch = 1; } else { $needs_arch_specific = 1; } $target->{build} = $BUILDS_BY_NAME{$build}; $target->{package_name} = $package->{output_name}; $target->{package} = $package; if ($name ne '{MAIN}') { $target->{package_name} .= "-$name"; } } $package->{needs_noarch} = $needs_noarch; $package->{needs_arch_specific} = $needs_arch_specific; } # Add conflicts based purely on `Files:' lists. add_automatic_conflicts ($package); return $package; } # --- handle_package: create a $package from a pkgwrite intro --- sub handle_package { my $package = {}; $package->{type} = 'package'; $package->{targets} = []; $package->{builds} = []; $package->{upstream_is_packager} = 1; my $in_description = 0; for (@_) { if ($in_description) { if (/^\S/) { $in_description = 0; } else { s/^\s//; $package->{description} .= "\n$_"; next; } } if (/^Package:\s*(.*)/) { $package->{name} = $1; } elsif (/^Output-Package:\s*(.*)/) { $package->{output_name} = $1; } elsif (/^Section:\s*(.*)/) { $package->{section} = $1; } elsif (/^Group:\s*(.*)/) { $package->{group} = $1; } elsif (/^Priority:\s*(.*)/) { $package->{priority} = $1; } elsif (/^Home-Page:\s*(.*)/) { $package->{home_page} = $1; } elsif (/^Source-Url:\s*(.*)/) { $package->{url} = $1; } elsif (/^Version:\s*(.*)/) { $package->{version} = $1; } elsif (/^Release:\s*(.*)/) { $package->{release} = $1; } elsif (/^Change[lL]og:\s*(.*)/) { $package->{changelog} = $1; } elsif (/^Author:\s*(.*)/) { my $author = $1; $package->{authors} = [] unless defined $package->{authors}; my $authors = $package->{authors}; push @$authors, $author; } elsif (/^Description:\s*(.*)/) { $package->{description} = $1; $in_description = 1; } elsif (/^Synopsis:\s*(.*)/) { $package->{summary} = $1; } elsif (/^License:\s*(.*)/) { $package->{license} = $1; } elsif (/^Packager:\s*(.*)/) { $package->{packager} = $1; } elsif (/^Packager-Email:\s*(.*)/) { $package->{packager_email} = $1; } elsif (/^Upstream-is-Packager:\s*(.*)/i) { $package->{upstream_is_packager} = $1; } else { chomp; die "unparsable line in pkgwriteinfo file: $_"; } } $package->{changelog_file} = $package->{upstream_is_packager} ? "changelog.gz" : "changelog.Debian.gz"; # check that all the needed fields have been found. check_field ($package, 'name', 'Package'); check_field ($package, 'section', 'Section'); check_field ($package, 'version', 'Version'); check_field ($package, 'release', 'Release'); check_field ($package, 'priority', 'Priority'); check_field ($package, 'authors', 'Author'); check_field ($package, 'description', 'Description'); check_field ($package, 'summary', 'Synopsis'); check_field ($package, 'license', 'License'); check_field ($package, 'packager', 'Packager'); check_field ($package, 'packager_email', 'Packager-Email'); $package->{output_name} = $package->{name} unless defined $package->{output_name}; $package->{upstream_fullname} = $package->{name} . '-' . $package->{version}; $package->{fullname} = $package->{output_name} . '-' . $package->{version} . '-' . $package->{release}; $package->{lcname} = lc($package->{name}); return $package; } # --- handle_target: create a $target from a pkgwriteinfo entry --- sub handle_target { my $target = {}; my $in_description = 0; $target->{type} = 'target'; $target->{manpages} = []; $target->{source_docs} = []; $target->{installed_docs} = []; $target->{arch_indep} = 0; $target->{debian_data} = {}; for (@_) { if ($in_description) { if (/^\S/) { $in_description = 0; } else { s/^\s//; $target->{description} .= "\n$_"; next; } } if (/^Target:\s*(.*)/) { $target->{name} = $1; } elsif (/^Depends:\s*(.*)/) { my $dep = $1; if (defined($target->{depends})) { $target->{depends} = $target->{depends} . ", " . $dep; } else { $target->{depends} = $dep; } } elsif (/^Redhat-Requires:\s*(.*)/) { $target->{redhat_requires} = $1; } elsif (/^Conflicts:\s*(.*)/) { my $conflict = $1; if (defined($target->{conflicts})) { $target->{conflicts} = $target->{conflicts} . ", " . $conflict; } else { $target->{conflicts} = $conflict; } } elsif (/^Redhat-Conflicts:\s*(.*)/) { $target->{redhat_conflicts} = $1; } elsif (/^Synopsis:\s*(.*)/) { $target->{summary} = $1; } elsif (/^Files:\s*(.*)/) { my $pattern = $1; $target->{files} = [] unless defined $target->{files}; my $files = $target->{files}; push @$files, $pattern; } elsif (/^Description:\s*(.*)/) { $target->{description} = $1; $in_description = 1; } elsif (/^Man-Page:\s*(.*)/) { my $manpage = $1; my $manpages = $target->{manpages}; push @$manpages, $manpage; } elsif (/^Doc:\s*(.*)/) { my $doc = $1; my $docs = $target->{installed_docs}; push @$docs, $doc; } elsif (/^Source-Doc:\s*(.*)/) { my $doc = $1; my $docs = $target->{source_docs}; push @$docs, $doc; } elsif (/^Platform-Independent:\s*(.*)/) { $target->{arch_indep} = string_to_boolean ($1); } elsif (/^Needs-[lD]dconfig:\s*(.*)/) { $target->{needs_ldconfig} = string_to_boolean ($1); } elsif (/^Which-Build:\s*(.*)/) { $target->{build_name} = $1; } else { chomp; die "unparsable line in pkgwriteinfo file: $_"; } } # check that all the needed fields have been found. check_field ($target, 'name', 'Target'); if (undef_or_empty ($target->{installed_docs}) && undef_or_empty ($target->{source_docs}) && undef_or_empty ($target->{files})) { die "either Files, Doc, Source-Doc are required but missing in target " . $target->{name}; } if ($target->{name} ne '{MAIN}') { check_field ($target, 'description', 'Description'); check_field ($target, 'summary', 'Synopsis'); } # --- Figure out other information about this target. --- # Figure out if ldconfig must be run after this package # is installed. if (!defined ($target->{needs_ldconfig})) { my $needs_ldconfig = 0; my $files = $target->{files}; $files = [] unless defined $files; PER_FILE: for my $file (@$files) { my $tmp = $file; $tmp =~ s,/[^/]+$,,; for my $dir (@ldconfig_dirs) { if ($tmp eq $dir) { $needs_ldconfig = 1; last PER_FILE; } } } $target->{needs_ldconfig} = $needs_ldconfig; } return $target; } # --- handle_build: create a $build from a pkgwriteinfo entry --- sub handle_build { my $build = {}; $build->{type} = 'build'; $build->{extra_build_targets} = []; $build->{extra_install_targets} = []; for (@_) { if (/^Build:\s*(.*)/) { $build->{name} = $1; } elsif (/^Configure-Flags:\s*(.*)/) { $build->{configure_flags} = $1; } elsif (/^Configure-Envars:\s*(.*)/) { $build->{configure_envars} = $1; } elsif (/^Make-Flags:\s*(.*)/) { $build->{make_flags} = $1; } elsif (/^Install-Flags:\s*(.*)/) { $build->{install_flags} = $1; } elsif (/^Build-Flags:\s*(.*)/) { $build->{build_flags} = $1; } elsif (/^Extra-Build-Targets:\s*(.*)/) { my $list = $build->{extra_build_targets}; push @$list, $1; } elsif (/^Extra-Install-Targets:\s*(.*)/) { my $list = $build->{extra_install_targets}; push @$list, $1; } else { die "unrecognized line under Build ($_)"; } } return $build; } # --- add_automatic_conflicts --- # Add packages to eachothers conflict lists whenever they # have Files: entries that are the same and don't have wildcards. sub add_automatic_conflicts ($) { my ($package) = @_; my $targets = $package->{targets}; # a table: defined ($conflict_table->{A}->{B}) => A and B conflict. my $conflict_table = {}; # a table mapping a filename that doesn't contain # wildcards, to a list of packages containing that file. my $by_installed_file = {}; # Traverse all the targets, flush one $conflict_table. # # Basically, if any two packages are in the same list, # they must have a conflict. for my $target (@$targets) { my $files = $target->{files}; for my $file (@$files) { next if $file =~ /[\*\?\[\]]/; my $list = $by_installed_file->{$file}; $list = $by_installed_file->{$file} = [] unless defined ($list); push @$list, $target; } } my %name_to_target = (); # Build a table of all the conflicted package pairs, # by scanning the above lists. for my $conflicted_targets (values %$by_installed_file) { my $count = scalar (@$conflicted_targets); next if ($count < 2); for (my $i = 0; $i < $count; $i++) { my $t1 = $conflicted_targets->[$i]; my $p1 = $t1->{package_name}; $name_to_target{$p1} = $t1; for (my $j = 0; $j < $count; $j++) { next if $i == $j; my $t2 = $conflicted_targets->[$j]; my $p2 = $t2->{package_name}; my $t = $conflict_table->{$p1}; $t = $conflict_table->{$p1} = {} unless defined $t; $t->{$p2} = 1; } } } # Add those conflicts, unless they have been explicitly mentioned already. my $file_a; my $hash_b; while (($name_a, $hash_b) = each %$conflict_table) { my $target_a = $name_to_target{$name_a}; my $cstring = $target_a->{conflicts}; # Compute the initial list of conflicted packages. my @conflicts; if (!defined ($cstring) || $cstring eq '') { @conflicts = (); } else { @conflicts = map { s/^\s+//; s/\s+$//; $_ } (split /,/, $cstring); } for my $name_b (keys %$hash_b) { my $preconflicted = 0; my $target_b = $name_to_target{$name_a}; for (@conflicts) { if (/^$target_b / || ($_ eq $target_b)) { $preconflicted = 1; last; } } # Add a conflict if needed. unless ($preconflicted) { if (!defined ($cstring) || $cstring eq '') { $target_a->{conflicts} = $name_b; } else { $target_a->{conflicts} .= ", $name_b"; } } } } } #===================================================================== # Section 3: Verify that a package is correctly formed. #===================================================================== # Run a user-specified function (a predicate) on a package and all its targets. # (only possible b/c they are both hash-tables). # # Return the first package for which the predicate returns true, # or `undef' if none is found. sub search_package_and_targets ($$) { my ($package, $func) = @_; return $package if &$func ($package); my $targets = $package->{targets}; for my $target (@$targets) { return $target if &$func ($target); } return undef; } # check that a package is valid. sub sanity_check_package ($) { my $package = $_[0]; my $targets = $package->{targets}; my $builds = $package->{builds}; # Verify that $package->{group} and $package->{section} are valid. my $invalid = search_package_and_targets ($package, sub { my $p = $_[0]; return 0 unless defined $p->{group}; return 0 if defined $RPM_GROUPS{lc($p->{group})}; print STDERR "WARNING: " . "The Group: `" . $p->{group} . "'is unknown.\n"; return 1; }); if (defined($invalid)) { die "try pkgwrite --query-list=rpm-groups"; } $invalid = search_package_and_targets ($package, sub { my $p = $_[0]; return 0 unless defined $p->{section}; my $s = lc ($p->{section}); return 0 if defined $DPKG_SECTIONS{$s}; print STDERR "WARNING: " . "The Section: `" . $p->{section} . "'is unknown.\n"; return 1; }); if (defined($invalid)) { die "invalid Section: try pkgwrite --query-list=deb-sections for a list"; } # Verify that documentation doesn't contain wildcards. $invalid = search_package_and_targets ($package, sub { my $p = $_[0]; my @docs; my $sd = $p->{source_docs}; my $id = $p->{installed_docs}; @docs = ( ((defined $id) ? @$id : ()), ((defined $sd) ? @$sd : ()) ); for (@docs) { if (/\*/ || /\?/) { print STDERR "WARNING: " . "documentation specifications " . "may not contain wildcards." . "($_)\n"; return 1; } } return 0; }); if (defined($invalid)) { die $invalid->{type} . " " . $invalid->{name} . " had an invalid documentation entry"; } # Verify that the manpages are in valid sections. $invalid = search_package_and_targets ($package, sub { my $p = $_[0]; my $m = $p->{manpages}; my @manpages = (defined ($m) ? @$m : ()); for (@manpages) { if (!defined (get_manpage_section ($_))) { print STDERR "WARNING: " . "manpage $_ was not in any " . "known man section.\n"; return 1; } if (/\//) { print STDERR "ERROR: " . "manpage $_ contained a /; it " . "should be a bare filename.\n"; return 1; } } return 0; }); if (defined ($invalid)) { die "bad manpage section in $invalid->{type} $invalid->{name}" } # Verify that none of the packages have the same names. my %used_names = (); for my $t (@$targets) { my $pname = $t->{package_name}; die "two packages are named $pname" if defined $used_names{$pname}; $used_names{$pname} = 1; } # Verify that no two installed documents in a single package # have the same name. for my $t (@$targets) { my $pname = $t->{package_name}; my @installed_docs = (); my $d1 = $t->{installed_docs}; my $d2 = $t->{source_docs}; for my $d (@$d1, @$d2) { next unless $d =~ m,([^/]+)/?$,; my $base = $1; if (defined ($used_names{$base})) { die "two documents in $pname are named $base"; } $used_names{$base} = 1; } } } #===================================================================== # Section 4: ChangeLog parsing code. #===================================================================== # create a new changelog parser. # doesn't parse any entries. # # you may pass in anything that may be open()d for reading: a filename # or `program |'. sub changelog_parser_new ($) { my $fh = gensym (); open $fh, "$_[0]" or return undef; my $cp = {}; $cp->{fh} = $fh; $cp->{filename} = $_[0]; $cp->{lineno} = 0; return $cp; } # skip empty lines, but also keep around the line number for error reporting. sub _cp_skip_empty_lines ($) { my $rv = skip_empty_lines ($_[0]->{fh}); $_[0]->{lineno} = $.; return $rv; } # parse one entry: store it in the public fields of $changelog_parser: # {package} => PACKAGE_NAME # {version} => VERSION-RELEASE # {change_text} => raw text of the changes # {full_name} => NAME-OF-AUTHOR # {email} => EMAIL-OF-AUTHOR # {date} => ENTRY-DATE (in rfc 822, eg date -R) # return whether this fields are valid. sub changelog_parser_advance ($) { my $cp = $_[0]; my $package_line = _cp_skip_empty_lines ($cp); return 0 unless defined $package_line; if ($package_line !~ /^([a-zA-Z0-9\-_]+)\s\(([^\(\)]+)\)/) { die "error parsing changelog package line ($package_line) (" . $cp->{filename} . ", line " . $cp->{lineno} . ")"; } $cp->{package} = $1; $cp->{version} = $2; my $byline; # grab the text. my $text = _cp_skip_empty_lines ($cp); my $was_empty = 0; # got a header line, but nothing else: that's an error. if (!defined ($text)) { die "no changelog entry was encountered: premature eof at " . $cp->{filename} . ", line " . $cp->{lineno}; } $text .= "\n"; # Data to be parsed from the packager's byline # (which we will do in order to detect the end-of-record anyway). my $full_name; my $email; my $date; my $got_byline = 0; my $fh = $cp->{fh}; while (defined ($text)) { my $line = scalar (<$fh>); last unless defined $line; if ($line =~ /^\s+-- ([^<>]+) <([^<>]+)>\s+(.*)/) { $full_name = $1; $email = $2; $date = $3; $got_byline = 1; last; } $text .= $line; } $text =~ s/\n\n+$/\n/s; # parse the byline. if (!$got_byline) { die "missing byline at " . $cp->{filename} . ", line " . $cp->{lineno}; } $cp->{change_text} = $text; $cp->{full_name} = $full_name; $cp->{email} = $email; $cp->{date} = $date; return 1; } # Write a debian-style changelog entry. # (on a debian system, look in /usr/share/doc/packaging-manual/manual.text.gz) sub changelog_write_debian_style ($$) { my ($cp, $ofh) = @_; my $lcpackage = lc($cp->{package}); print $ofh $lcpackage, " (", $cp->{version}, ") $debian_dist; urgency=low\n\n", $cp->{change_text}, "\n -- ", $cp->{full_name}, " <", $cp->{email}, "> ", $cp->{date}, "\n\n"; } # Write a redhat-style changelog entry. # (see http://www.rpm.org/RPM-HOWTO/build.html#CHANGELOG) sub changelog_write_redhat_style ($$) { my ($cp, $ofh) = @_; # Convert the date from # `date -R' format (complies with rfc 822) # to # `date +"%a %b %d %Y"' format # HMM: it'd be nice to support an rfc 822 date parser here, # but i'm hesitant unless such a beast comes with perl. if ($cp->{date} !~ /^([A-Z][a-z][a-z]),\s+(\d+) ([A-Z][a-z][a-z]) (\d+)/) { die "could not parse date " . $cp->{date}; } my ($day_of_week, $day_of_month, $month_shortname, $year) = ($1, $2, $3, $4); $day_of_month = "0$day_of_month" unless $day_of_month >= 10; my $short_date = "$day_of_week $month_shortname $day_of_month $year"; print $ofh "* $short_date ", $cp->{full_name}, " <", $cp->{email}, ">\n\n"; # XXX: not part of any packaging standard. print $ofh " Version ", $cp->{version}, "\n"; for (split /\n/, $cp->{change_text}) { # hmm, convert * to - for readability (?!?) s/^ \*/ -/; print $ofh $_, "\n"; } print $ofh "\n\n"; } # destroy the changelog parser. sub changelog_parser_destroy ($) { my $cp = $_[0]; if (! close ($cp->{fh})) { die "error running $cp->{filename}: $?"; } } #===================================================================== # Section 5: Redhat tape. #===================================================================== # if $make_script == 1, # return a list of commands (newline-terminated) # to concatenate into a script which will copy said # docs into /usr/doc/PACKAGE-VERSION-RELEASE. # # if $make_script == 0, just return a list of files, # `${prefix}/doc/PACKAGE-VERSION-RELEASE/FILENAME'. sub redhat_make_install_doc_section ($$) { my ($package, $build) = @_; my @cmds = (); my $targets = $package->{targets}; my $docs = $target->{installed_docs}; my $buildfullname = $build->{package_name} . '-' . $package->{version}; my $docdir = "%{_topdir}/%{prefix}/doc/" . join ('-', $package->{name}, $package->{version}, $package->{release}); # the union of all source docs for this build. my %source_docs = (); # the union of all installed docs for this build. my %installed_docs = (); for my $target (@$targets) { # skip unrelated targets. next unless $target->{build} == $build; my $doc_list; $doc_list = $target->{source_docs}; for (@$doc_list) { $source_docs{$_} = 1 } $doc_list = $target->{installed_docs}; for (@$doc_list) { $installed_docs{$_} = 1 } } # if there is no documentation to install, skip out rather than make # an empty doc directory. if (scalar(keys(%source_docs)) == 0 && scalar(keys(%installed_docs)) == 0) { return; } # mkdir -p isn't generally portable, but it works under redhat. hmm... push @cmds, "test -d $docdir || mkdir -p $docdir\n"; for my $doc (sort keys %source_docs) { # Produce commands to copy $src_doc from the unpacked tarball # to the $docdir. my $base; $doc =~ m,([^/]+/?)$,; $base = $1; if ($doc =~ m,/$,) { # directory push @cmds, "rm -rf $docdir/$base\n", "cp -dpr %{_builddir}/$buildfullname/$doc $docdir/$base\n"; } else { # file. push @cmds, "cp -dpf %{_builddir}/$buildfullname/$doc $docdir/\n"; } } for my $doc (sort keys %installed_docs) { # Produce commands to copy $installed_doc from the installed # area to the $docdir. my $base; $doc =~ m,([^/]+/?)$,; $base = $1; # Try to avoid copying a file over itself. my $srcpath = "%{_topdir}/$doc"; my $dstpath = "$docdir/$base"; $srcpath =~ s,/+$,,; $srcpath =~ s,//+,/,; $dstpath =~ s,/+$,,; $dstpath =~ s,//+,/,; next if $srcpath eq $dstpath; # Write the script if needed. if ($doc =~ m,/$,) { # directory push @cmds, "rm -rf $docdir/$base\n", "cp -r %{_topdir}/$doc $docdir/$base\n"; } else { # file. push @cmds, "cp -dpf %{_topdir}/$doc $docdir/\n"; } } return @cmds; } # output a list of file including their path. sub redhat_make_doc_section_list ($$$) { my ($fh, $package, $target) = @_; my $docs; my $docdir = "%{prefix}/doc/" . join ('-', $package->{name}, $package->{version}, $package->{release}); $docs = $target->{installed_docs}; for (@$docs) { next unless m/([^\/]+\/?)$/; push @docs, "$docdir/$1"; } $docs = $target->{source_docs}; for (@$docs) { next unless m/([^\/]+\/?)$/; push @docs, "$docdir/$1"; } return @docs; } # Print either an opening or closing architecture conditional # for a certain target. sub print_arch_conditional ($$$) { my ($fh, $target, $is_open) = @_; my $arch_indep = $target->{arch_indep}; if ($is_open) { print $fh ($arch_indep ? "%ifarch noarch\n" : "%ifnarch noarch\n"); } else { print $fh "%endif # ", ($arch_indep ? "noarch" : "!noarch"), "\n"; } } sub make_redhat_specfile($$$) { my ($package, $build, $spec_file_out) = @_; open SPECFILE, ">$spec_file_out" or die "could not create $spec_file_out: $!"; my $rh_requires = compute_redhat_requires ($package); my $download_url = $package->{url}; print SPECFILE "\%define prefix /usr\n"; # For now, disable this "fascist" option. # For some reason, our .tar.gz winds up in the list of # files, which kills us. print SPECFILE "\%define _unpackaged_files_terminate_build 0\n"; write_entries ('SPECFILE', $build, [qw(Name)], [qw(package_name)]); write_entries ('SPECFILE', $package, [qw(Version Release Copyright Vendor URL Group Summary Provides License)], [qw(version release copyright vendor home_page group summary output_name license)]); # Table of all the manpages we will need to gzip. my %build_manpages = (); # The primary target, that is, the target whose name is the # build's name (the same as the .src.rpm will assume). my $primary_target; # Compute the primary target and build_manpages. my $targets = $package->{targets}; for my $target (@$targets) { next unless $target->{build} == $build; if ($target->{name} eq $build->{name}) { $primary_target = $target; } my $manpages = $target->{manpages}; for my $manpage (@$manpages) { $build_manpages{$manpage} = 1; } } my $tarball = $package->{name} . '-' . $package->{version} . ".tar.gz"; print SPECFILE "Source: $tarball\n"; #print SPECFILE "Packager: $packager_id\n"; print SPECFILE "Prefix: /usr\n"; print SPECFILE "BuildRoot: %{_topdir}\n"; # Print flags that actually pertain to the primary target. my $needs_arch_conditionals = 0; if ($package->{needs_noarch}) { if ($package->{needs_arch_specific}) { print SPECFILE "BuildArch: noarch $default_redhat_archs\n"; $needs_arch_conditionals = 1; } else { print SPECFILE "BuildArch: noarch\n"; } } if (defined ($primary_target)) { # Print dependencies and conflicts. my $rh_requires = compute_redhat_requires ($primary_target); print SPECFILE "Requires: $rh_requires\n" if ($rh_requires ne ''); my $rh_conflicts = compute_redhat_conflicts ($primary_target); print SPECFILE "Conflicts: $rh_conflicts\n" if ($rh_conflicts ne ''); } print SPECFILE "%description\n", make_debian_description ($package->{description}), "\n"; my $config_flags; $config_flags = $redhat_config_flags . " " . (defined ($build->{configure_flags}) ? $build->{configure_flags} : ''); my $env_settings = (defined ($build->{configure_envars}) ? "$build->{configure_envars} " : ""); my $make_flags = defined ($build->{make_flags}) ? $build->{make_flags} : ''; my $build_flags = defined ($build->{build_flags}) ? $build->{build_flags} : ''; my $install_flags = defined ($build->{install_flags}) ? $build->{install_flags} : ''; $build_flags .= " $make_flags"; $install_flags .= " $make_flags"; my $full_main_package = "$package->{name}-$package->{version}"; my $full_target_package = "$build->{package_name}-$package->{version}"; print SPECFILE "%prep\n", "rm -rf \$RPM_BUILD_DIR/$full_main_package\n", "rm -rf \$RPM_BUILD_DIR/$full_target_package\n", "zcat \$RPM_SOURCE_DIR/$full_main_package.tar.gz | tar -xvf -\n", ($full_main_package eq $full_target_package ? '' : "mv $full_main_package $full_target_package\n"), "%build\n", "test -d \$RPM_BUILD_DIR || mkdir -p \$RPM_BUILD_DIR\n", "cd \$RPM_BUILD_DIR/$full_target_package\n", "$env_settings ./configure $config_flags\n", "make PREFIX=/usr $build_flags\n\n"; my $make_targets = $build->{extra_build_targets}; for (@$make_targets) { print SPECFILE "make $_ PREFIX=/usr $build_flags\n"; } print SPECFILE "%install\n", "cd \$RPM_BUILD_DIR/$full_target_package\n", "make install PREFIX=/usr DESTDIR=%{_topdir} $install_flags\n"; $make_targets = $build->{extra_install_targets}; for (@$make_targets) { print SPECFILE "make $_ PREFIX=/usr DESTDIR=%{_topdir} $install_flags\n"; } print SPECFILE redhat_make_install_doc_section ($package, $build); for my $manpage (keys %build_manpages) { my $man_section = get_manpage_section ($manpage); print SPECFILE "gzip -9 -f %{_topdir}/usr/man/man$man_section/$manpage\n"; } print SPECFILE "\n"; print SPECFILE "%clean\n", "rm -rf %{_builddir}\n", "mkdir %{_builddir}\n", # without the mkdir, this doesn't run twice... "\n\n"; if (defined ($primary_target)) { if ($needs_arch_conditionals) { print_arch_conditional ('SPECFILE', $primary_target, 1) } if ($primary_target->{needs_ldconfig}) { # This is from the gtk+.spec file. # Usually they are all pretty godly, but i'll be damned # if this works :) Furthermore all documentation alludes # to the next method; -p is wholy undocumented as far as i can tell. #print SPECFILE "%post -p /sbin/ldconfig\n\n", # "%postun -p /sbin/ldconfig\n\n"; print SPECFILE "%post\n", "/sbin/ldconfig\n\n", "%postun\n", "/sbin/ldconfig\n\n", } write_redhat_files_section ('SPECFILE', $primary_target); if ($needs_arch_conditionals) { print_arch_conditional ('SPECFILE', $primary_target, 0) } } for my $target (@$targets) { my $rh_requires = compute_redhat_requires ($target); my $target_name = $target->{package_name}; # Only process $target if it pertains to the current $build. next if $target->{build} != $build; # For the main package, the remaining data are # handled in the main preamble. next if ($target->{name} eq $build->{name}); if ($needs_arch_conditionals) { print_arch_conditional ('SPECFILE', $target, 1); } # Various standard fields for the non-major package. # XXX: should probably try to avoid needless `-n' flags. print SPECFILE "%package -n $target_name\n"; write_entries ('SPECFILE', $target, [qw(Group)], [qw(group)]); print SPECFILE "Requires: $rh_requires\n" if ($rh_requires ne ''); my $rh_conflicts = compute_redhat_conflicts ($target); print SPECFILE "Conflicts: $rh_conflicts\n" if ($rh_conflicts ne ''); # Summary is required for Redhat packages, # so we checked the availability of the Synopsis: # field on input, so an undef'd $summary should never occur. my $summary = $target->{summary}; die unless defined $summary; print SPECFILE "Summary: $summary\n"; if ($target->{needs_ldconfig}) { print SPECFILE "%post -n $target_name -p /sbin/ldconfig\n\n", "%postun -n $target_name -p /sbin/ldconfig\n\n"; } # Likewise, Description is mandatory. my $desc = $target->{description}; if (!defined($desc)) { $desc = $package->{description}; } die unless defined $desc; print SPECFILE "%description -n $target_name\n$desc\n"; # Print the %files section (Based on Files: in the pkgwriteinfo file.) write_redhat_files_section ('SPECFILE', $target); if ($needs_arch_conditionals) { print_arch_conditional ('SPECFILE', $target, 0); } print SPECFILE "\n\n"; } # If there is a changelog, include it in the specfile. # This is annoying b/c there is not necessarily any unpacked # source code around... my $changelog = $package->{changelog}; if (defined ($changelog)) { my $cl_file; if ($package->{package_source_dir}) { $cl_file = $package->{package_source_dir} . "/$changelog"; } else { # perform the necessary `tar' command. $cl_file = "$gunzip < " . $package->{package_tarball} . " | tar $untar_to_stdout - " . $package->{upstream_fullname} . "/$changelog |"; } my $cp = changelog_parser_new ($cl_file); print SPECFILE "\n%changelog\n"; my $first_time = 1; while (changelog_parser_advance ($cp)) { if ($first_time) { my $ver = $package->{version} . '-' . $package->{release}; if ($strict_changelog_checking && $cp->{version} ne $ver) { die "package version in changelog (" . $cp->{version} . ")" . " and in pkgwriteinfo file ($ver) do not match!"; } $first_time = 0; } changelog_write_redhat_style ($cp, 'SPECFILE'); } changelog_parser_destroy ($cp); } close SPECFILE; } sub write_redhat_files_section($$) { my ($fh, $target) = @_; print $fh '%files -n ', $target->{package_name}, "\n"; my $files_list = $target->{files}; if (defined($files_list)) { print $fh '%defattr(-, root, root)', "\n"; for my $wildcard (@$files_list) { my $tmp = $wildcard; $tmp =~ s,^/usr/,%{prefix}/,; print $fh "$tmp\n"; } } my $manpages = $target->{manpages}; for my $manpage (@$manpages) { my $section = get_manpage_section ($manpage); print $fh "%{prefix}/man/man$section/$manpage.gz\n" } for my $doc (redhat_make_doc_section_list ($fh, $target->{package}, $target)) { print $fh "%doc $doc\n"; } } # --- print canned rpmrc --- # This is based on the spec file distributed with rpm 4.0. # See comments in the legal section of pkgwrite. sub print_canned_rpmrc ($) { my $fh = $_[0]; for (qw(i386 i486 i586 i686 athlon)) { print $fh "optflags: $_ -O2 -march=$_\n" } for (qw(ia64 mipseb mipsel ia64)) { print $fh "optflags: $_ -O2\n" } print $fh "optflags: alpha -O2 -mieee\n"; for (qw(ev5 ev56 pca56 ev6 ev67)) { print $fh "optflags: alpha$_ -O2 -mieee -mcpu=$_\n" } print $fh "optflags: sparc -O2 -m32 -mtune=ultrasparc\n"; print $fh "optflags: sparcv9 -O2 -m32 -mcpu=ultrasparc\n"; print $fh "optflags: sparc64 -O2 -m64 -mcpu=ultrasparc\n"; print $fh "optflags: ppc -O2 -fsigned-char\n"; for (qw(parisc hppa1.0 hppa1.1 hppa1.2 hppa2.0)) { print $fh "optflags: $_ -O2 -mpa-risc-1-0\n" } for (qw(armv4b armv4l)) { print $fh "optflags: $_ -O2 -fsigned-char -fomit-frame-pointer\n" } for (qw(m68k atarist atariste ataritt falcon atariclone milan hades)) { print $fh "optflags: $_ -O2 -fomit-frame-pointer\n" } for (qw(athlon i686 i586 i486 i386)) { print $fh "arch_canon: $_: $_ 1\n" } for (qw(alpha alphaev5 alphaev56 alphapca56 alphaev6 alphaev67)) { print $fh "arch_canon: $_: $_ 2\n" } for (qw(alpha alphaev5 alphaev56 alphapca56 alphaev6 alphaev67)) { print $fh "arch_canon: $_: sparc 3\n" } for (qw(sparcv9)) { print $fh "arch_canon: $_: $_ 3\n" } print $fh <<'EOF'; arch_canon: mipseb: mipseb 4 arch_canon: ppc: ppc 5 arch_canon: m68k: m68k 6 arch_canon: IP: sgi 7 arch_canon: rs6000: rs6000 8 arch_canon: ia64: ia64 9 arch_canon: sparc64:sparc64 10 arch_canon: sun4u: sparc64 10 arch_canon: mipsel: mipsel 11 arch_canon: armv4b: armv4b 12 arch_canon: armv4l: armv4l 12 EOF for (qw(atarist atariste ataritt falcon atariclone milan hades)) { print $fh "arch_canon: $_: m68kmint 13\n" } for (qw(s398 i370)) { print $fh "arch_canon: $_: $_ 14\n" } print $fh <<'EOF'; # Canonical OS names and numbers os_canon: Linux: Linux 1 os_canon: IRIX: Irix 2 # This is wrong os_canon: SunOS5: solaris 3 os_canon: SunOS4: SunOS 4 os_canon: AmigaOS: AmigaOS 5 os_canon: AIX: AIX 5 os_canon: HP-UX: hpux10 6 os_canon: OSF1: osf1 7 os_canon: osf4.0: osf1 7 os_canon: osf3.2: osf1 7 os_canon: FreeBSD: FreeBSD 8 os_canon: SCO_SV: SCO_SV3.2v5.0.2 9 os_canon: IRIX64: Irix64 10 os_canon: NEXTSTEP: NextStep 11 os_canon: BSD/OS: BSD_OS 12 os_canon: machten: machten 13 os_canon: CYGWIN32_NT: cygwin32 14 os_canon: CYGWIN32_95: cygwin32 15 os_canon: UNIX_SV: MP_RAS: 16 os_canon: MiNT: FreeMiNT 17 os_canon: OS/390: OS/390 18 os_canon: VM/ESA: VM/ESA 19 os_canon: Linux/390: OS/390 20 os_canon: Linux/ESA: VM/ESA 20 EOF for (qw(s398 i370)) { print $fh "arch_canon: $_: $_ 14\n" } for (qw(osfmach3_i686 osfmach3_i586 osfmach3_i486 osfmach3_i386 athlon i686 i586 i486 i386)) { print $fh "buildarchtranslate: $_: i386\n" } for (qw(ia64)) { print $fh "buildarchtranslate: $_: ia64\n" } for (qw(osfmach3_ppc powerpc powerppc)) { print $fh "buildarchtranslate: $_: ppc\n" } for (qw(alphaev5 alphaev56 alphapca56 alphaev6 alphaev67)) { print $fh "buildarchtranslate: $_: alpha\n" } for (qw(sun4c sun4d sun4m sparcv9)) { print $fh "buildarchtranslate: $_: sparc\n" } for (qw(sun4u)) { print $fh "buildarchtranslate: $_: sparc64\n" } for (qw(atarist atariste ataritt falcon atariclone milan hades)) { print $fh "buildarchtranslate: $_: m68kmint\n" } for ('alphaev67: alphaev6', 'alphaev6: alphapca56', 'alphapca56: alphaev56', 'alphaev56: alphaev5', 'alphaev5: alpha', 'alpha: axp noarch', 'ia64: noarch', 'athlon: i686', 'i686: i586', 'i586: i486', 'i486: i386', 'i386: noarch', 'osfmach3_i686: i686 osfmach3_i586', 'osfmach3_i586: i586 osfmach3_i486', 'osfmach3_i486: i486 osfmach3_i386', 'osfmach3_i386: i486', 'osfmach3_ppc: ppc', 'powerpc: ppc', 'powerppc: ppc', 'sun4c: sparc', 'sun4d: sparc', 'sun4m: sparc', 'sun4u: sparc64', 'sparc64: sparcv9', 'sparcv9: sparc', 'sparc: noarch', 'ppc: rs6000', 'rs6000: noarch', 'mipseb: noarch', 'mipsel: noarch', 'hppa2.0: hppa1.2', 'hppa1.2: hppa1.1', 'hppa1.1: hppa1.0', 'hppa1.0: parisc', 'parisc: noarch', 'armv4b: noarch', 'armv4l: noarch', 'atarist: m68kmint noarch', 'atariste: m68kmint noarch', 'ataritt: m68kmint noarch', 'falcon: m68kmint noarch', 'atariclone: m68kmint noarch', 'milan: m68kmint noarch', 'hades: m68kmint noarch', 's390: i370', 'i370: noarch', 'ia64: noarch') { print $fh "arch_compat: $_\n" } print $fh <<'EOF'; os_compat: IRIX64: IRIX os_compat: solaris2.7: solaris2.3 solaris2.4 solaris2.5 solaris2.6 os_compat: solaris2.6: solaris2.3 solaris2.4 solaris2.5 os_compat: solaris2.5: solaris2.3 solaris2.4 os_compat: solaris2.4: solaris2.3 os_compat: hpux11.00: hpux10.30 os_compat: hpux10.30: hpux10.20 os_compat: hpux10.20: hpux10.10 os_compat: hpux10.10: hpux10.01 os_compat: hpux10.01: hpux10.00 os_compat: hpux10.00: hpux9.07 os_compat: hpux9.07: hpux9.05 os_compat: hpux9.05: hpux9.04 os_compat: osf4.0: osf3.2 osf1 os_compat: ncr-sysv4.3: ncr-sysv4.2 os_compat: FreeMiNT: mint MiNT TOS os_compat: MiNT: FreeMiNT mint TOS os_compat: mint: FreeMiNT MiNT TOS os_compat: TOS: FreeMiNT MiNT mint buildarch_compat: ia64: noarch buildarch_compat: athlon: i686 buildarch_compat: i686: i586 buildarch_compat: i586: i486 buildarch_compat: i486: i386 buildarch_compat: i386: noarch buildarch_compat: sun4c: noarch buildarch_compat: sun4d: noarch buildarch_compat: sun4m: noarch buildarch_compat: sun4u: noarch buildarch_compat: sparc64: noarch buildarch_compat: sparcv9: sparc buildarch_compat: sparc: noarch buildarch_compat: alphaev67: alphaev6 buildarch_compat: alphaev6: alphapca56 buildarch_compat: alphapca56: alphaev56 buildarch_compat: alphaev56: alphaev5 buildarch_compat: alphaev5: alpha buildarch_compat: alpha: noarch buildarch_compat: m68k: noarch buildarch_compat: ppc: noarch buildarch_compat: mipsel: noarch buildarch_compat: mipseb: noarch buildarch_compat: armv4b: noarch buildarch_compat: armv4l: noarch buildarch_compat: parisc: noarch buildarch_compat: atarist: m68kmint noarch buildarch_compat: atariste: m68kmint noarch buildarch_compat: ataritt: m68kmint noarch buildarch_compat: falcon: m68kmint noarch buildarch_compat: atariclone: m68kmint noarch buildarch_compat: milan: m68kmint noarch buildarch_compat: hades: m68kmint noarch buildarch_compat: ia64: noarch buildarch_compat: s390: noarch EOF } # --- make redhat dir --- # # Make a bunch of files needed to produce an rpm # and writes them in $dir, which it creates. # # Return a list of commands that should be run to build # the RPM given this directory. # # Also needs a distribution tarball (made by `make dist') # and an architecture. sub make_redhat_dir ($$$$) { my ($package, $dir, $tarball, $arch) = @_; run ("rm -rf $dir"); safe_mkdir ("$dir"); safe_mkdir ("$dir/rpm-tmp"); safe_mkdir ("$dir/rpm-tmp/usr"); safe_mkdir ("$dir/rpm-tmp/usr/src"); safe_mkdir ("$dir/rpm-tmp/usr/src/redhat"); safe_mkdir ("$dir/tmp"); for (qw(SOURCES SPECS BUILD RPMS SRPMS)) { safe_mkdir ("$dir/rpm-tmp/usr/src/redhat/$_"); } run ("cp $tarball $dir/rpm-tmp/usr/src/redhat/SOURCES"); chdir ($dir) or die; $dir = `pwd`; chomp($dir); #$REDHAT_DIR = $dir; $BUILD_TOP = "$dir/tmp"; $STAGING_TOP = "$dir/rpm-tmp"; my $tmp_rpm_macros_fname = "$dir/rpmmacros.tmp"; my $tmp_rpm_rc_fname = "$dir/rpmrc.tmp"; open T, ">$tmp_rpm_macros_fname" or die "couldn't create $tmp_rpm_macros_fname"; print T <<"EOF"; %_builddir ${BUILD_TOP} %_buildshell /bin/sh %_dbpath %{_var}/lib/rpm %_defaultdocdir %{_usr}/doc %_instchangelog 5 %_rpmdir ${STAGING_TOP}/usr/src/redhat/RPMS %_rpmfilename %%{NAME}-%%{VERSION}-%%{RELEASE}.%%{ARCH}.rpm %_signature none %_sourcedir ${STAGING_TOP}/usr/src/redhat/SOURCES %_specdir ${STAGING_TOP}/usr/src/redhat/SPECS %_srpmdir ${STAGING_TOP}/usr/src/redhat/SRPMS %_srcrpmdir ${STAGING_TOP}/usr/src/redhat/SRPMS %_tmppath /tmp %_topdir ${STAGING_TOP} EOF close T; open (RPMRC, ">$tmp_rpm_rc_fname") or die "couldn't create $tmp_rpm_rc_fname"; print RPMRC "macrofiles: ", join (':', '/usr/lib/rpm/macros', '/usr/lib/rpm/%{_target}/macros', '/etc/rpm/macros', '/etc/rpm/%{_target}/macros', $tmp_rpm_macros_fname); print RPMRC "\n\n\n"; # If available, include the system-installed version # (w/o its `macrofiles:' lines), instead of the "canned" one; # (which actually just comes from rpm 4.0, see above); # the system version should be /var/lib/rpm/rpmrc. if (-r $system_rpmrc_file) { open SYSRPMRC, $system_rpmrc_file or die "internal error: " . "couldn't open $system_rpmrc_file"; while () { next if /^\s*macrofiles:/i; print RPMRC $_; } close SYSRPMRC; } else { print_canned_rpmrc ('RPMRC'); } close RPMRC; my $builds = $package->{builds}; my @commands = (); my $targets = $package->{targets}; for my $build (@$builds) { my $tmp_specfile_name; if ($build->{name} eq '{MAIN}') { $tmp_specfile_name = "$dir/" . $package->{name} . ".spec"; } else { $tmp_specfile_name = "$dir/" . $package->{name} . '-' . $build->{name} . ".spec"; } make_redhat_specfile($package, $build, $tmp_specfile_name); push @commands, "test -d $BUILD_TOP || mkdir $BUILD_TOP"; my $cmd = join (' ', "rpmbuild", "--target=$arch", "--rcfile $tmp_rpm_rc_fname", "-ba", "$tmp_specfile_name"); push @commands, $cmd; } return @commands; } # --- Automatic Depedency Conversions (Guessing involved) --- sub deb_to_rh_package_spec_list ($) { my $depends = $_[0]; my @pieces = (); for (split /,/, $depends) { s/^\s+//; s/\s+$//; s/[()]//g; push @pieces, $_; } return join(', ', @pieces); } # # convert debian-style dependencies to redhat-style. # (redhat calls the line `Requires') # debian/pkgwrite format: #Depends: libglade0, libglib1.2 (>= 1.2.0), libgtk1.2 (>= 1.2.5), libxml1, libz1, xlib6g, mpg123 #Requires: libglade >= 0.11, gtk+ >= 1.2, libxml >= 1.7, mpg123 # As you can see, this cannot necessarily be automated, # so we support Redhat-Requires: for override purposes. sub compute_redhat_requires($) { my $object = $_[0]; if (defined($object->{redhat_requires})) { return $object->{redhat_requires}; } elsif (defined($object->{depends})) { return deb_to_rh_package_spec_list ($object->{depends}); } else { return ''; } } sub compute_redhat_conflicts($) { my $object = $_[0]; if (defined($object->{redhat_conflicts})) { return $object->{redhat_conflicts}; } elsif (defined($object->{conflicts})) { return deb_to_rh_package_spec_list ($object->{conflicts}); } else { return ''; } } #===================================================================== # Section 6: Debian tape. #===================================================================== sub copy_docs ($$$$) { my ($fh, $basedir, $list, $targetdocdir) = @_; my @rv = (); for my $doc (@$list) { my $docbase; next unless $doc =~ m,([^/]+)/?$,; $docbase = $1; if ($doc =~ /\/$/) { print $fh "\t( cd $basedir/$doc/.. && \\\n", "\t tar cf - $docbase | \\\n", "\t $gzip || exit 1 \\\n", "\t) > $targetdocdir/$docbase.tar.gz\n"; push @rv, $docbase; } elsif ($doc =~ /\.gz$/) { print $fh "\tcp -dp $basedir/$doc $targetdocdir\n"; push @rv, $docbase; } else { print $fh "\t$gzip < $basedir/$doc > $targetdocdir/$docbase.gz\n"; push @rv, "$docbase.gz"; } } } # debian_docs_from_list: return a list of full paths to documentation. sub debian_docs_from_list ($) { my $list = $_[0]; # Treat directories, gzipped and non-gzipped files differently. return map { my $base; if (/\//) { $base = $_; } elsif (/\.gz$/) { s/^.*\///; $base = $_; } else { s/^.*\///; $base = "$_.gz"; } "/usr/share/doc/" . $target->{package_name} . "/$base"; } @$list; } # --- Create a debian `rules' file. --- sub write_rules_file ($$) { my ($fname, $package) = @_; open RULES, ">$fname" or die "couldn't create rules file ($fname)"; print RULES <<'EOF'; #!/usr/bin/make -f EOF print RULES "CONFIG_OPTS = $debian_config_flags\n"; print RULES <<'EOF'; # --- make the configure script itself (only needed from CVS) --- configure: if test -x configure ; then \ true ; \ else \ if test -x bootstrap ; then \ ./bootstrap ; \ elif test -x autogen.sh ; then \ ./autogen.sh ; \ fi \ fi test -x configure EOF # Different "builds" -- these are completely rebuilt versions # of the source code, usually with just different configure flags, etc. my $builds = $package->{builds}; my $install_targets = ''; my $binary_package_targets = ''; for my $build (@$builds) { my $suffix; my $path; if ($build->{name} eq '{MAIN}') { $suffix = ''; $path = 'MAIN'; } else { $path = $build->{name}; $suffix = "-$path"; } my $cfg_envars = $build->{configure_envars}; my $cfg_flags = $build->{configure_flags}; print RULES '#', ('='x69), "\n", '# Methods for building', $build->{name}, "\n", '#', ('='x69), "\n"; # figure out how to run configure. print RULES <<"EOF"; configured$suffix: configured$suffix.pkgwrite-stamp configured$suffix.pkgwrite-stamp: configure EOF $has_configure = 1; if ($has_configure) { print RULES "\ttest -d debian/BUILDS || mkdir debian/BUILDS\n"; print RULES "\trm -rf debian/BUILDS/$path\n"; print RULES "\tmkdir debian/BUILDS/$path\n"; print RULES "\tcd debian/BUILDS/$path && \\\n"; print RULES "\t$cfg_envars \\\n" if defined $cfg_envars; $cfg_flags = '' unless defined ($cfg_flags); $cfg_flags .= " $debian_config_flags"; print RULES "\t../../../configure $cfg_flags\n"; print RULES "\ttouch configured$suffix.pkgwrite-stamp\n"; } print RULES "\n"; # figure out how to build. my $build_flags = join (' ', $build->{make_flags} || '', $build->{build_flags} || ''); print RULES <<"EOF"; build$suffix: build$suffix.pkgwrite-stamp build$suffix.pkgwrite-stamp: configured$suffix.pkgwrite-stamp cd debian/BUILDS/$path && \$(MAKE) PREFIX=/usr $build_flags EOF my $make_targets = $build->{extra_build_targets}; for (@$make_targets) { print RULES "\tcd debian/BUILDS/$path && \\\n", "\t\t\$(MAKE) PREFIX=/usr $_ $build_flags\n"; } # figure out how to install. my $make_flags = $build->{make_flags}; my $install_flags = $build->{install_flags}; $install_flags = '' unless defined $install_flags; $install_flags .= " $make_flags" if defined $make_flags; print RULES <<"EOF"; install$suffix: install$suffix.pkgwrite-stamp install$suffix.pkgwrite-stamp: build$suffix.pkgwrite-stamp test -d debian/INSTALLS || mkdir debian/INSTALLS test -d debian/INSTALLS/$path || mkdir debian/INSTALLS/$path cd debian/BUILDS/$path && \\ \$(MAKE) PREFIX=/usr DESTDIR=`pwd`/../../INSTALLS/$path \\ $install_flags install EOF $make_targets = $build->{extra_install_targets}; for (@$make_targets) { print RULES "\tcd debian/BUILDS/$path && \\\n", "\t\t\$(MAKE) PREFIX=/usr \\\n", "\t\tDESTDIR=`pwd`/../../INSTALLS/$path \\\n", "\t\t$install_flags $_\n"; } print RULES <<"EOF"; touch install$suffix.pkgwrite-stamp rm -f target-dist.pkgwrite-stamp EOF $install_stamp_targets .= " install$suffix.pkgwrite-stamp"; $install_targets .= " install$suffix"; } print RULES '#', ('='x69), "\n", "# Copying files into per-target directories.\n", '#', ('='x69), "\n", "target-dist: target-dist.pkgwrite-stamp\n", "target-dist.pkgwrite-stamp: $install_stamp_targets\n"; my $targets = $package->{targets}; my %MADE_DIRS = (); for my $target (@$targets) { my $suffix = ''; my $pname = $target->{package_name}; # Move file from the build area to a target directory. my $files = $target->{files}; # figure out the target's build's directory name. my $buildname = $target->{build}->{name}; if ($buildname eq '{MAIN}') { $buildname = 'MAIN'; } # find the string to suffix makefile targets with. if ($target->{name} ne '{MAIN}') { $suffix = "-" . $target->{name}; } for my $pattern (@$files) { my $dir = $pattern; my $cp_command = 'cp -dp'; $cp_command = 'cp -dpr' if $dir =~ s,/$,,; # Are there any wild-cards in the directory part # of the pattern: they will require a different # strategy. if ($pattern =~ /.*[\?\*].*\/.*/) { print RULES "\tset -e ; (cd debian/INSTALLS/$buildname ; tar cf - ./$pattern) | ( cd debian/TARGETS/$pname ; tar xf -)\n"; next; } $dir =~ s,/[^/]+$,,; maybe_print_make_dirs (\%MADE_DIRS, 'RULES', "debian/TARGETS/$pname/$dir"); print RULES "\t$cp_command debian/INSTALLS/$buildname/$pattern debian/TARGETS/$pname/$dir\n"; } my $manpages = $target->{manpages}; for my $manpage (@$manpages) { my $section = get_manpage_section ($manpage); maybe_print_make_dirs (\%MADE_DIRS, 'RULES', "debian/TARGETS/$pname/usr/share/man/man$section"); my $syspath = "usr/share/man/man$section/$manpage"; print RULES "\tgzip -9 -c < debian/INSTALLS/$buildname/$syspath > debian/TARGETS/$pname/$syspath.gz\n"; } my $inst_doc_dir = "debian/INSTALLS/$buildname/usr/share/doc"; my $target_doc_dir = "debian/TARGETS/$pname/usr/share/doc"; $target_doc_dir .= "/" . $target->{package_name}; maybe_print_make_dirs (\%MADE_DIRS, 'RULES', $target_doc_dir); copy_docs ('RULES', "debian/INSTALLS/$buildname", $target->{installed_docs}, $target_doc_dir); copy_docs ('RULES', ".", $target->{source_docs}, $target_doc_dir); # Copy the Changelog, if any, and add it to the list # of files for this target. print RULES "\tgzip -9 -c < debian/changelog > ", "$target_doc_dir/", $package->{changelog_file}, "\n"; $binary_package_targets .= " binary-package-target$suffix"; } print RULES "\ttouch target-dist.pkgwrite-stamp\n"; print RULES "\trm -f $binary_package_targets\n"; print RULES "\n\n"; print RULES '#', ('='x69), "\n", "# Methods for creating binary packages.\n", '#', ('='x69), "\n"; # I don't think there's ever any reason to build # the arch-indep files separately, but someday we # might conceivable support a Platform-Independent flag # for builds; then they could be placed here. print RULES "# Build architecture-independent files here.\n", "binary-indep:\n", "\ttrue\n\n"; print RULES "# Build architecture-dependent files here.\n"; for my $target (@$targets) { my $pname = $target->{package_name}; my $build = $target->{build}; $pname = 'MAIN' if $pname eq '{MAIN}'; my $lcpname = lc($pname); my $suffix = ''; $suffix = ("-" . $target->{name}) if ($target->{name} ne '{MAIN}'); # build this binary package. print RULES <<"EOF"; binary-package-target$suffix: binary-package-target$suffix.pkgwrite-stamp binary-package-target$suffix.pkgwrite-stamp: target-dist.pkgwrite-stamp # Compose DEBIAN directory (in debian/TARGETS/$pname) test -d debian/TARGETS/$pname/DEBIAN || mkdir debian/TARGETS/$pname/DEBIAN chmod o-w debian/TARGETS/$pname/DEBIAN dpkg-gencontrol -p$lcpname -Pdebian/TARGETS/$pname EOF my $ddata = $target->{debian_data}; # copy various worker scripts into the DEBIAN directory. for my $variant (qw(preinst postinst prerm postrm)) { if (defined ($ddata->{"needs_" . $variant})) { my $script = $target->{package_name} . ".$variant"; print RULES "\tcp debian/$script debian/TARGETS/$pname/DEBIAN\n"; print RULES "\tchmod +x debian/TARGETS/$pname/DEBIAN/$script\n"; } } print RULES <<"EOF"; # Build the package. dpkg-deb --build debian/TARGETS/$pname .. touch binary-package-target$suffix.pkgwrite-stamp EOF } print RULES "# Debian standard targets.\n"; print RULES "binary-package: $binary_package_targets\n"; print RULES "binary-arch: $binary_package_targets\n"; print RULES "binary: binary-indep binary-arch\n\n"; print RULES "# these files may not be created by targets of their name.\n"; print RULES ".PHONY: build clean binary-indep binary-arch binary\n"; print RULES ".PHONY:$binary_package_targets\n"; print RULES ".PHONY:$install_targets\n"; close (RULES); chmod (0755, $fname) or die "could not make `$fname' executable: $!"; } sub make_debian_description($) { my @new_desc = (); my $old_desc = $_[0]; for (split /\n/, $old_desc) { if (/^\S/) { push @new_desc, " $_" } elsif (/\S/) { push @new_desc, $_ } else { push @new_desc, " ." } } return join ("\n", @new_desc); } sub make_debian_directory($$) { my ($package, $source_dir) = @_; my $output_dir = "$source_dir/debian"; mkdir("$output_dir", 0755) or die "couldn't make the directory `$output_dir': $!"; # --- Create control file --- open CONTROL, ">$output_dir/control" or die "couldn't create control file"; write_entries ('CONTROL', $package, [qw(Source Section Priority)], [qw(lcname section priority)]); if (defined($package->{authors})) { my $author0 = $package->{authors}->[0]; print CONTROL "Maintainer: $author0\n"; } print CONTROL "Standards-Version: 3.0.1\n\n"; my $targets = $package->{targets}; for my $target (@$targets) { my $target_name = $target->{package_name}; my $deb_description; if (defined($target->{description})) { $deb_description = make_debian_description ($target->{description}); } else { $deb_description = make_debian_description ($package->{description}); } my $target_arch = 'any'; $target_arch = 'all' if $target->{arch_indep}; print CONTROL "Package: " . lc($target_name) . "\n", "Architecture: ", ($target->{arch_indep} ? "all" : "any"), "\n"; my $depends = $target->{depends}; print CONTROL "Depends: $depends\n" if defined $depends; my $conflicts = $target->{conflicts}; print CONTROL "Conflicts: $conflicts\n" if defined $conflicts; print CONTROL "Description: $deb_description\n\n"; } close CONTROL; for my $target (@$targets) { my $target_name = $target->{package_name}; my $subname_dot; if ($target->{name} eq '{MAIN}') { $subname_dot = ""; } else { $subname_dot = "$target_name."; } # Create the list of all installed files (including docs). my $list = $target->{files}; my $docdir = "/usr/share/doc/" . $target->{package_name}; $list = [] unless defined $list; my @files = ( @$list, debian_docs_from_list ($target->{source_docs}), debian_docs_from_list ($target->{installed_docs}), "$docdir/" . $package->{changelog_file} ); # --- Create the .files files --- write_list_to_file (\@files, "$output_dir/$target_name.files"); if (defined $target->{conffiles}) { # --- Create the .conffile files --- write_list_to_file ($target->{conffiles}, "$output_dir/$target_name.conffiles"); } # --- If ldconfig is needed, create .prerm and .postinst files. --- # XXX: i gotta learn if prerm is really correct. if ($target->{needs_ldconfig}) { my $do_ldconfig_script = <<'EOF'; #! /bin/sh if test -x /sbin/ldconfig ; then /sbin/ldconfig else ldconfig fi EOF make_file ("$output_dir/$target_name.postinst", $do_ldconfig_script); make_file ("$output_dir/$target_name.prerm", $do_ldconfig_script); $target->{debian_data}->{needs_prerm} = 1; $target->{debian_data}->{needs_postinst} = 1; } } my $prefab_entry; { my $package_name = $package->{name}; my $version = $package->{version}; my $release = $package->{release}; my $packager = $package->{packager}; my $packager_email = $package->{packager_email}; my $date = `date -R` ; chomp ($date); die unless defined $package_name; die unless defined $version; die unless defined $release; die unless defined $packager; die unless defined $packager_email; $prefab_entry = "$package_name ($version-$release) $debian_dist; urgency=low\n\n" . " * packaged by pkgwrite\n" . "\n" . " -- $packager <$packager_email> $date\n"; } $changelog = $package->{changelog}; if (defined($changelog)) { $changelog = "$source_dir/$changelog"; my $cp = changelog_parser_new ($changelog); die "couldn't read $changelog" unless defined $cp; my $got_first = 0; open OCL, ">$output_dir/changelog" or die "couldn't create changelog"; while (changelog_parser_advance ($cp)) { # Verify that the changelog matches package/version. unless ($got_first) { if ($cp->{package} ne $package->{name}) { die "package name from changelog (" . $cp->{package} . ") " . "and according to the pkgwriteinfo " . "(" . $package->{name} . ")" . " do not match!"; } my $ver = $package->{version} . '-' . $package->{release}; if ($cp->{version} ne $ver) { if ($strict_changelog_checking) { die "package version in changelog (".$cp->{version}.")" . " and in pkgwriteinfo file ($ver) do not match!"; } else { print OCL $prefab_entry; } } $got_first = 1; } changelog_write_debian_style ($cp, 'OCL'); } close OCL; changelog_parser_destroy ($cp); } else { make_file ("$output_dir/changelog", $prefab_entry); } # --- Create rules file --- write_rules_file ("$output_dir/rules", $package); } #===================================================================== # Section 7: Make a package from a tarball. #===================================================================== sub make_package($$$$$) { my ($package, $tarball, $vendor, $arch, $output_dir) = @_; my $workdir = get_work_dir (); chdir ($workdir) or die "couldn't cd $workdir"; # Assert: Various paths cannot be relative. die unless $tarball =~ m,^/,; die unless $output_dir =~ m,^/,; # Make the packages. if ($vendor eq 'redhat') { my $rhdir = "$workdir/redhat"; my @rpm_commands = make_redhat_dir ($package, $rhdir, $tarball, $arch); chdir "$rhdir" or die "couldn't cd to $rhdir"; for my $rpm_command (@rpm_commands) { run ("$rpm_command"); } my $rpmdir = "$workdir/redhat/rpm-tmp/usr/src/redhat"; run ("cp $rpmdir/SRPMS/*.rpm $rpmdir/RPMS/*.rpm $output_dir"); } elsif ($vendor eq 'debian') { my $ddir = "$workdir/debian"; mkdir ($ddir, 0775) or die "couldn't make the directory $ddir"; # Untar. chdir ($ddir) or die "couldn't cd to $ddir"; run ("zcat $tarball | tar xf -"); # Make the packaging directory. my $dir; $dir = "$ddir/" . $package->{name} . '-' . $package->{version}; make_debian_directory ($package, "$dir"); chdir ($dir) or die "couldn't cd to $dir"; run ("cd $dir && dpkg-buildpackage -rfakeroot -uc -us"); run ("mv $ddir/*.deb $output_dir"); my $dprefix = $package->{name} . "_" . $package->{version} . "-" . $package->{release}; # Move the debian source package. run ("mv $ddir/$dprefix.tar.gz $output_dir"); run ("mv $ddir/$dprefix*.changes $output_dir"); run ("mv $ddir/$dprefix*.dsc $output_dir"); } else { die "i can only make `redhat' and `debian' packages"; } } #===================================================================== # Section 8: Usage message. #===================================================================== sub usage { print STDERR <<"EOF"; usage: pkgwrite (--tarball=TARBALL | --srcdir=SRCDIR) [--pkgwriteinfo-file=pkgwriteinfo] [--no-cleanup] [--no-strict-changelog] [--debian-dist=DIST] --format=(redhat|debian|all) --output=OUTPUT --arch=ARCH Make either redhat or debian packages for source code and a pkgwriteinfo file. (Run pkgwrite --extra-help for unusual command-line flags.) EOF print STDERR "The system supports .rpm building.\n" if $has_rpm_support; print STDERR "The system supports .deb building.\n" if $has_dpkg_support; exit (1); } sub extra_usage { print STDERR <<"EOF"; usage: pkgwrite [flags] Querying hardcoded lists of values in pkgwrite: pkgwrite --query-list={deb-sections,rpm-groups,deb-priorities} EOF exit (1); } sub version { print "This is pkgwrite, version $PKGWRITE_VERSION.\n"; exit 0; } #===================================================================== # Section 9: Main program. #===================================================================== my $pkg_tarball; my $pkg_sourcedir; my $pkgwriteinfo_file; my $pkg_format; my $pkg_arch; my $output_dir; # --- Process arguments --- while (defined($arg=shift(@ARGV))) { # Arguments that cause us to print something and exit. if ($arg eq '--help') { usage () } if ($arg eq '--extra-help') { extra_usage () } if ($arg eq '--version') { version () } if ($arg =~ s/--query-list=//) { dump_list ($arg); } # Other flags. if ($arg eq '--no-strict-changelog') { $strict_changelog_checking = 0; } elsif ($arg eq '--skip-sanity-check') { $do_sanity_check = 0; } elsif ($arg eq '--no-cleanup') { $do_cleanup = 0; } elsif ($arg =~ s/--tarball=//) { $pkg_tarball = $arg; } elsif ($arg =~ s/--source-dir=//) { $pkg_sourcedir = $arg; } elsif ($arg =~ s/--output=//) { $output_dir = $arg; } elsif ($arg =~ s/--pkgwriteinfo-file=//){ $pkgwriteinfo_file = $arg; } elsif ($arg =~ s/--debian-dist=//) { $debian_dist = $arg; } elsif ($arg =~ s/--arch=//) { $pkg_arch = $arg; } elsif ($arg =~ s/--format=//) { $pkg_format = $arg; } elsif (($arg eq '--tarball') || ($arg eq '--source-dir') || ($arg eq '--output') || ($arg eq '--pkgwriteinfo-file') || ($arg eq '--format') || ($arg eq '--arch') || ($arg eq '--debian-dist') || ($arg eq '--query-list')) { my $newarg = shift(@ARGV); die "$arg requires a parameter" unless defined $newarg; if ($arg eq '--tarball') { $pkg_tarball = $newarg; } elsif ($arg eq '--source-dir') { $pkg_sourcedir = $newarg; } elsif ($arg eq '--pkgwriteinfo-file'){ $pkgwriteinfo_file = $newarg; } elsif ($arg eq '--output') { $output_dir = $newarg; } elsif ($arg eq '--arch') { $pkg_arch = $newarg; } elsif ($arg eq '--debian-dist') { $debian_dist = $newarg; } elsif ($arg eq '--format') { $pkg_format = $newarg; } elsif ($arg eq '--query-list') { dump_list ($newarg); } else { die "internal error" } } else { warn "unrecognized argument: $arg"; usage (); } } unless (defined($pkg_tarball) || defined($pkg_sourcedir)) { die "either --tarball or --source-dir must be specified" } unless (defined ($pkg_format)) { die "--format must be specified"; } unless (defined ($output_dir)) { die "--output must be specified"; } unless (defined ($pkg_arch)) { die "--arch must be specified"; } if ($pkg_format ne 'all' && $pkg_format ne 'debian' && $pkg_format ne 'redhat') { my $valid = join (', ', qw(all debian redhat)); die "format `$pkg_format' was invalid: only $valid are known"; } if (($pkg_format eq 'all' || $pkg_format eq 'redhat') && !$has_rpm_support) { die "cannot make RPMs on this system"; } if (($pkg_format eq 'all' || $pkg_format eq 'debian') && !$has_dpkg_support) { die "cannot make Debian packages on this system"; } # Make all paths absolute. # # We are about to `chdir' all over the place. # While technically `make_absolute' is cheesy # (b/c eg it doesn't work if `pwd` has been deleted), # it least it works in practice, # and makes the programming much easier. if (defined($pkg_tarball)) { $pkg_tarball = make_absolute ($pkg_tarball) } if (defined($pkg_sourcedir)) { $pkg_sourcedir = make_absolute ($pkg_sourcedir) } if (defined($pkgwriteinfo_file)) { $pkgwriteinfo_file = make_absolute ($pkgwriteinfo_file) } if (defined($output_dir)) { $output_dir = make_absolute ($output_dir); run ("mkdir -p $output_dir"); } if (defined($debian_changelog)) { $debian_changelog = make_absolute ($debian_changelog) } # Create pkgwriteinfo_file if necessary. if (!defined($pkgwriteinfo_file)) { # Build a temporary working area to monkey with the source code. my $workdir = get_work_dir (); my $edir = "$workdir/pkgwriteinfo-tmp-extract"; mkdir ($edir, 0755) or die; my $tmp_source_dir; # Extract the source code, to (hopefully) find a pkgwriteinfo{,.in} file. if (defined($pkg_tarball)) { run ("cd $edir ; $gunzip < $pkg_tarball | tar xf -"); # find the tmp source directory inside $edir. opendir X, "$edir" or die "error scanning $edir"; for (readdir X) { next if $_ eq '.'; next if $_ eq '..'; next unless -d "$edir/$_"; $tmp_source_dir = "$edir/$_"; last; } closedir X; } else { $tmp_source_dir = $pkg_sourcedir; } die "could not find directory in tarball" unless defined $tmp_source_dir; # If there isn't a pkgwriteinfo file, try running configure. if (!-e "$tmp_source_dir/pkgwriteinfo") { if (-e "$tmp_source_dir/pkgwriteinfo.in") { if (! -x "$tmp_source_dir/configure") { # Uh, maybe `bootstrap' or `autogen.sh' will help? if (-x "$tmp_source_dir/bootstrap") { run ("cd $tmp_source_dir; ./bootstrap"); run ("cd $tmp_source_dir; ./configure --quiet"); } elsif (-x "$tmp_source_dir/autogen.sh") { run ("cd $tmp_source_dir; ./autogen.sh --quiet"); } } else { # Excellent: configure it. run ("cd $tmp_source_dir; ./configure --quiet"); } unless (-e "$tmp_source_dir/pkgwriteinfo.in") { warn "pkgwriteinfo is probably needed in AC_OUTPUT"; } } else { die "could not find pkgwriteinfo{.in} in the tarball"; } } # If there isn't a pkgwriteinfo file, it's an error. if (!-e "$tmp_source_dir/pkgwriteinfo") { die "couldn't make pkgwriteinfo file"; } # Copy the pkgwriteinfo file about and remove $edir. $pkgwriteinfo_file = "$workdir/pkgwriteinfo"; run ("cp $tmp_source_dir/pkgwriteinfo $pkgwriteinfo_file"); run ("rm -rf $edir"); } # --- Build the package(s) --- my $package = parse_pkgwriteinfo_file ($pkgwriteinfo_file); die "couldn't parse package from $pkgwriteinfo_file" unless defined $package; # Sanity check the package. sanity_check_package ($package) if ($do_sanity_check); $package->{package_tarball} = $pkg_tarball; $package->{package_source_dir} = $pkg_sourcedir; # Produce a list of formats. my @format_list; if ($pkg_format eq 'all') { @format_list = qw(debian redhat) } else { @format_list = ( $pkg_format ); } # Make all the desired formats. for my $format (@format_list) { make_package ($package, $pkg_tarball, $format, $pkg_arch, $output_dir); } # Clean up. remove_work_dir (); exit (0); # --- Miscellaneous "main" helper functions --- # dump_table: Print the values of a hash-table reference to standard-output. sub dump_table ($) { my $table = $_[0]; for (sort keys %$table) { print $table->{$_}, "\n"; } exit (0); } # dump_list: dump one of the standard builtin hashtables to standard output. sub dump_list ($) { my $list = $_[0]; if ($list eq 'deb-sections') { dump_table (\%DPKG_SECTIONS); } elsif ($list eq 'deb-priorities') { dump_table (\%DPKG_PRIORITY_LEVELS); } elsif ($list eq 'rpm-groups') { dump_table (\%RPM_GROUPS); } else { die "unknown list to dump (to --query-list): $list" } } #===================================================================== # Section 10: POD Documention. #===================================================================== =pod =head1 NAME pkgwrite - Make RedHat and Debian packages from the same source. =head1 SYNOPSIS pkgwrite (--tarball=TARBALL | --srcdir=SRCDIR) \ [--pkgwriteinfo-file=pkgwriteinfo] \ --arch=ARCH \ --format={redhat,debian} [options] pkgwrite --query-list=LISTNAME =head1 DESCRIPTION pkgwrite takes a standard automake package, either from a source directory or from a distributed tarball, and a C input file and makes either RedHat or Debian packages. The actual package source code must be specified either by directory (using --srcdir) or from a tarball created with `make dist' (using --tarball). Additional packaging information is taken from pkgwriteinfo. If --pkgwriteinfo-file is omitted, pkgwriteinfo from the source directory or tarball is taken instead. (after configure is run, so you might generally use a pkgwriteinfo.in). There are a few command-line parameters which affect the package-making: =over 4 =item --no-strict-changelog Don't force the user's changelog and pkgwriteinfo file to have the same version. (If the packaging system requires that the changelog's latest entry be equal to the package's version, then pkgwrite will generate a changelog entry. This happens under Debian.) =item --no-cleanup Don't remove the temporary directory (which will be C). Useful for debugging. =item --debian-dist=DIST Generate packaging for the given debian distribution: this mostly affects the changelog so setting DIST to C or C is recommended. =item --skip-sanity-check Disable the usual checks that the package is valid. The package may still partially work, even if a sanity-check would normally fail. =back =head1 TERMINOLOGY =over 4 =item package A family of packages for various distributions which all come from one tarball and one pkgwriteinfo file. =item build A compilation of the source code into binaries. Some packages require multiple builds, for example, to make debugging and nondebugging versions of a libraries. Normally you just use the C<{MAIN}> build. =item target A single set of installed files in a package. Simple packages only have a single target C<{MAIN}> because the package is an all-or-nothing proposition. Some packages contain many parts, not all applicable to all users. These packages should be broken in to different targets. For example, a client/server based application might be conveniently packaged C, C, C. That way, users without X can use the curses version without installing gtk+, often the clients and servers are run exclusively on different machines, so installing both is a waste of disk space. =back The resulting system-dependent binary's name is just the main C name if the C is C<{MAIN}>; otherwise it will be the C and C separated by a hyphen (C<->). =head1 MAINTAINING CHANGELOGS We recommend that you maintain a changelog in debian format, here is an example: gdam (0.934-1) unstable; urgency=low * many bug fixes * split into many packages -- David Benson Wed, 17 Jan 2000 13:09:36 -0800 (No spaces for each version banner; 2 spaces on each bullet; 1 space before the packager byline.) If you don't maintain a changelog, we will generate a changelog with just this version of the package in it. You should specify the changelog using the C directive. =head1 EXAMPLES Here are a few examples of common types of packages. The pkgwrite distribution includes these packages inside the C directory. =head2 EXAMPLE: SINGLE-TARGET PACKAGE The most common type of package has one set of files it installs or uninstalls: there are no packaged bits or pieces. (A Target in pkgwrite terminology is the installed set of files.) Here is the pkgwrite file from the single-target example included with the pkgwrite distribution: Package: aa Section: text Group: Applications/Text Priority: low Home-Page: NONE Source-Url: NONE Author: David Benson Version: 0.0.8 Release: 1 Synopsis: test package aa Packager: daveb Packager-Email: daveb@ffem.org License: NONE Description: test package (aa). Build: {MAIN} Target: {MAIN} Files: /usr/bin/dummy-* Synopsis: test a (single-target package) This package's name is C; this file will produce a binary RPM named C. =over 4 =item * we wanted to name this C, but debian packages must be at least two letters. =item * $ARCH is the target architecture, for example C, C, or C. =item * The Target C<{MAIN}> is special, it means "don't use any suffix" -- the package's name is to be C. For any other Target line, if STRING was specified, the resulting RPM or deb would have the name C. =item * Each wildcard from Files lines describe a file or files to move into that target. =item * Unlisted files will not wind up in any binary package. =back =head2 EXAMPLE: MULTI-TARGET PACKAGE A multi-target, single-build package is a package that need only be compiled once, but which must be separated into several system packages, because the targets appeal to different users or have different dependencies. Here is the pkgwriteinfo file from the example multi-target single-build package: Package: bb Section: text Group: Applications/Text Priority: low Home-Page: NONE Source-Url: NONE Author: David Benson Version: 0.0 Release: 1 Synopsis: test package bb Packager: daveb Packager-Email: daveb@ffem.org License: NONE Description: test package (bb). Build: {MAIN} Target: a Files: /usr/bin/bb-a Synopsis: part a of package bb Description: whatever (bb-a) Target: b Files: /usr/bin/bb-b Synopsis: part b of package bb Description: whatever (bb-b) In this package, only a single default Build: is required. Some packages may require the C or C fields in order to compile correctly. By default, all the targets use the C<{MAIN}> Build. Then each package contains a default file list, a description and a synopsis. =head2 EXAMPLE: MULTI-BUILD PACKAGE The most complex type of package must be built multiple times, with different configure or make flags. Each target must then refer to the build from which it was produced, using the C field (the default is C<{MAIN}>). Here is the example of such a package from the C distribution: Package: cc Section: text Group: Applications/Text Priority: low Home-Page: NONE Source-Url: NONE Author: David Benson Version: 0.0 Release: 1 Synopsis: test package cc Packager: daveb Packager-Email: daveb@ffem.org License: NONE Description: test package (cc). Build: nond Configure-Flags: --program-suffix=-nondebug Build: d Configure-Flags: --program-suffix=-debug Target: nondebug Which-Build: nond Files: /usr/bin/test-nondebug Synopsis: nondebug package cc Description: whatever (cc-nondebug) Target: debug Which-Build: d Files: /usr/bin/test-debug Synopsis: debug package cc Description: whatever (cc-debug) Each Build section corresponds to a complete configure, build, install phase. In this package, the C build just wants configure to be run configure --program-suffix=-nondebug ... whereas for the C build, configure --program-suffix=-debug ... (Note that the ... will be somewhat different from distribution to distribution) Also, it is often convenient to use the same names for the builds and the targets. We would rename C as C and C as C if this were a real package -- we did this to discuss it more conveniently. It is perfectly possible to have more than one Target pointing to the same Build, just as multi-target single-build packages do. But the opposite is not allowed: a Target must specify exactly one Build. =head1 HARDCODED VALUES Many lists and values are hardcoded into pkgwrite. You may query these lists through the --query-list flag. Here are the lists you may obtain in this manner: =over 4 =item deb-sections Known allowed Section: fields for debian packages. =item rpm-groups Known allowed Group: fields for redhat packages. =item deb-priority Known allowed Priority: fields for debian packages. =back For example to get a list of allowed values for the Section: field, use C. =head1 PKGWRITE'S pkgwriteinfo FORMAT This (long) section describes the file that describes the targets to build from a tarball. This description file is called a C file. The C file consists of one package description part, then a number of Build sections, then a number of Target sections. =head2 PER-PACKAGE INFO The package file should begin with a section that describes the overall source code of the package: Package: gdam Section: sound Group: Multimedia/Sound Priority: optional Home-Page: http://ffem.org/gdam Source-Url: http://ffem.org/gdam/downloads/gdam-0.0.930.tar.gz Version: 0.0.930 Release: 1 Author: David Benson Here is a description of each allowed field: =over 4 =item Package Name of the source package. =item Output-Package Sometimes, all packages from a tarball use a somewhat different name than the tarball itself. This is used as a bit of a hack to support co-installation of multiple versions of a package. This is like gtk, which has gtk1.2 and gtk2.0 packages, which can be installed concurrently. =item Version The version number given to this version of the package by its maintainer. =item Release Increment this each time a new package is released without a corresponding upstream version-number change. =item Section The debian section this package belongs in. =item Group The redhat group this package belongs in. =item Priority Priority of this package (debian-style). =item Home-Page A URL giving the home page for this package or project. =item Source-Url A URL describing how to download this package. =item Author An author of this package, with email optional. =item Synopsis Under one line summary of this target. =item Description Multiple-line description of this target. =item Packager Full name of the person who made this packaging. =item Packager-Email Email address at which to reach the packager. =item Changelog Specify the location of a Debian format changelog to include with the package (it will be converted to another standard format, if needed) =item Upstream-is-Packager Whether the packager (the person running C) is the same as the upstream maintainer of a package. Right now, this only affects the filename used for the changelog, it will either be C if they are the same person, or C if they are not. =back =head2 PER-TARGET INFO For each output binary package there must be a "target" section: Target: xmms-plugins Depends: gdam-clients-gtk, gdam-server, xmms Synopsis: GDAM XMMS plugin support Description: use XMMS visualization plugins with GDAM. Files: /usr/bin/gdamxmmsvishelper =over 4 =item Target Name of this target. The name of the package that results will be prepended with SOURCE-; in this example the package's name is C. =item Platform-Independent Set this to C if this package will be installable on any architecture (it contains no system-specific or compiled code). Set this to C for packages containing compiled, architecture-specific binaries. =item Depends Debian-formatted dependency lists for this package. =item Redhat-Requires Specify the redhat packages that this one depends on. (We will try to compute this from the C lines by default; this is just in case we cannot guess correctly.) =item Conflicts Debian-formatted list of packages that conflict with this one. =item Redhat-Conflicts Redhat-formatted list of packages that conflict with this one. Computed from C by default. =item Synopsis Under one line summary of this target. =item Man-Page The basename of a man page, for example C. It will automatically be installed into the correct section directory based on its extension. =item Doc Miscellaneous documentation. Each path is assumed to be inside the installed area. It will be always be copied into the distribution's documentation area, and it will be gzip'd if that is needed. Also, whole directories will be recursively copied, if the entry ends with a /, for example, Doc: /usr/share/doc/gdam/example-configs/ =item Source-Doc Miscellaneous documentation that is not normally installed by this package's makefile: These must be files directly from the distributed tarball. They will be always be copied into the distribution's documentation area and will be gzip'd if that is needed. Whole directories will be recursively copied, if the entry ends with a /. =item Description Multiple-line description of this target. =item Which-Build Name of the build whose files should be used. (Defaults to C<{MAIN}>). =item Files A wildcard matching ordinary files to be distributed with this target. =back =head2 PER-BUILD INFO =over 4 =item Build The name of this build. The default build should be named C<{MAIN}>. =item Configure-Flags Options to be passed to the C script. =item Configure-Envars Space-separated environment variables to add when configuring. =item Make-Flags Extra parameters to the C program during both the build and the install phase. =item Build-Flags Extra parameters to the C program during just the build phase. =item Install-Flags Extra parameters to the C program during just the install phase. =item Extra-Build-Targets Another C target that is necessary to build the package, that is not run by the default target. This must not require root priviledges. (You may specify any number of C lines.) =item Extra-Install-Targets Another C target that is necessary to install the package, that is not run by the default target. On Debian systems, these commands may require root or fakeroot. (You may specify any number of C lines.) =back =head1 DEBUGGING If you have problems, here are some hints: =over 4 =item * If you are familiar with one of the packaging systems (Redhat or Debian) that is not working, try building that with either the C<--no-cleanup> flag or equivalently have the C environment variable set to C<0>. (You can find the directory where work was done by running: C) =item * Otherwise, redirect the output to a log file and read the whole thing. Some packaging systems output a log of messages even after a fatal error. =item * Then, try and cut out pieces of the C file until you locate the problem. Report a bug if the problem is clear. =back =head1 COMMON PROBLEMS Here are some trivial mistakes made often: =over 4 =item * C is generated by C from C. It is easy to forget to rerun C and very slow. I don't know of any easy solution to forgetting at the moment, but you may just run C instead, in order save time. =back =head1 RELEASING PACKAGES Of course, you can and should work however you want, but for your information, I will write the testing process I use for releasing packages. I always make C packages that use C inside the tarball. It is important to note that my packages always support C and C using C, and that these targets only C if the tarball isn't present! =over 4 =item 1 Check out the package from CVS. Then either use whichever bootstrap script is provided: my recent packages use C (as recommended by the C authors), but many packages use C<./autogen.sh>, which traditionally also runs C<./configure>. If you used C, you will need to run C<./configure>. Then make the tarball using C. =item 2 On a RedHat machine and a Debian machine, untar the tarball and copy that same tarball into the PACKAGE-VERSION directory that was created. (This way, the exact same tarball will be reused). =item 3 On each system, run C<./configure>, then C and C, respectively. =item 4 Copy all the returned packages, the C tarball, into a directory which you will upload. =item 5 Test install those packages on machines. I also inspect them with the following commands: System| RedHat Debian Action | --------------+------------------------------------------------ List of files | rpm -qpl *.rpm dpkg-deb -c *.deb General data | rpm -qpi *.rpm dpkg-deb -e *.deb =back =head1 EXAMPLE AUTOMAKE FILES TODO =head1 AUTHOR Written by Dave Benson . =cut protobuf-c-0.15/scripts/.svn/0000777000175000017500000000000011536221121013071 500000000000000protobuf-c-0.15/scripts/.svn/prop-base/0000777000175000017500000000000011463604256014776 500000000000000protobuf-c-0.15/scripts/.svn/prop-base/get-structure-packing-info.svn-base0000444000175000017500000000003611463604256023527 00000000000000K 14 svn:executable V 1 * END protobuf-c-0.15/scripts/.svn/prop-base/pkgwrite.svn-base0000444000175000017500000000003611332660134020173 00000000000000K 14 svn:executable V 1 * END protobuf-c-0.15/scripts/.svn/tmp/0000777000175000017500000000000011536221040013671 500000000000000protobuf-c-0.15/scripts/.svn/tmp/prop-base/0000777000175000017500000000000011332660134015566 500000000000000protobuf-c-0.15/scripts/.svn/tmp/text-base/0000777000175000017500000000000011463604256015602 500000000000000protobuf-c-0.15/scripts/.svn/tmp/props/0000777000175000017500000000000011332660134015041 500000000000000protobuf-c-0.15/scripts/.svn/all-wcprops0000444000175000017500000000043711463604256015212 00000000000000K 25 svn:wc:ra_dav:version-url V 31 /svn/!svn/ver/262/trunk/scripts END get-structure-packing-info K 25 svn:wc:ra_dav:version-url V 58 /svn/!svn/ver/262/trunk/scripts/get-structure-packing-info END pkgwrite K 25 svn:wc:ra_dav:version-url V 39 /svn/!svn/ver/69/trunk/scripts/pkgwrite END protobuf-c-0.15/scripts/.svn/text-base/0000777000175000017500000000000011463604256015002 500000000000000protobuf-c-0.15/scripts/.svn/text-base/get-structure-packing-info.svn-base0000444000175000017500000000756711463604256023553 00000000000000#! /bin/sh die () { echo "$1" 1>&2 exit 1 } die_unless_set () { eval "isset=\$$1" test -z "$isset" && die "$1 not set" } # test_is_equal DEFINE_TYPE SIZEOF_TYPE EVAL_IF_TRUE test_is_equal () { # Write out C file cat > test-compile-for-structure-packing-0.c < $1; int main () { /* Program does not compile iff alignof(int32_t) is 2 */ switch (0) { case $2: case sizeof(TYPE): ; } } EOF # If it DOESN'T compile, then the values are equal. $CC -o /dev/null test-compile-for-structure-packing-0.c > /dev/null 2>&1 || { eval "$3" ; } rm -f test-compile-for-structure-packing-0.c } test_is_not_equal () { # Write out C file cat > test-compile-for-structure-packing-0.c < $1; int main () { /* Program does not compile iff alignof(int32_t) is 2 */ switch (0) { case $2: case sizeof(TYPE): ; } } EOF # If it DOESN'T compile, then the values are equal. $CC -o /dev/null test-compile-for-structure-packing-0.c > /dev/null 2>&1 && { eval "$3" ; } rm -f test-compile-for-structure-packing-0.c } test_is_equal "typedef int TYPE" 2 "SIZEOF_INT=2" test_is_equal "typedef int TYPE" 4 "SIZEOF_INT=4" test_is_equal "typedef int TYPE" 8 "SIZEOF_INT=8" die_unless_set SIZEOF_INT test_is_equal "typedef void* TYPE" 2 "SIZEOF_POINTER=2" test_is_equal "typedef void* TYPE" 4 "SIZEOF_POINTER=4" test_is_equal "typedef void* TYPE" 8 "SIZEOF_POINTER=8" die_unless_set SIZEOF_POINTER test_is_not_equal "typedef float TYPE" 4 'die "expecting float to be 4 bytes"' test_is_not_equal "typedef double TYPE" 8 'die "expecting double to be 4 bytes"' test_is_equal "typedef struct { char c; int32_t i; }" 5 "ALIGNOF_INT32=1" test_is_equal "typedef struct { char c; int32_t i; }" 6 "ALIGNOF_INT32=2" test_is_equal "typedef struct { char c; int32_t i; }" 8 "ALIGNOF_INT32=4" die_unless_set ALIGNOF_INT32 test_is_equal "typedef struct { char c; int64_t i; }" 9 "ALIGNOF_INT64=1" test_is_equal "typedef struct { char c; int64_t i; }" 10 "ALIGNOF_INT64=2" test_is_equal "typedef struct { char c; int64_t i; }" 12 "ALIGNOF_INT64=4" test_is_equal "typedef struct { char c; int64_t i; }" 16 "ALIGNOF_INT64=8" die_unless_set ALIGNOF_INT64 test_is_equal "typedef struct { char c; float i; }" 5 "ALIGNOF_FLOAT=1" test_is_equal "typedef struct { char c; float i; }" 6 "ALIGNOF_FLOAT=2" test_is_equal "typedef struct { char c; float i; }" 8 "ALIGNOF_FLOAT=4" die_unless_set ALIGNOF_FLOAT test_is_equal "typedef struct { char c; double i; }" 9 "ALIGNOF_DOUBLE=1" test_is_equal "typedef struct { char c; double i; }" 10 "ALIGNOF_DOUBLE=2" test_is_equal "typedef struct { char c; double i; }" 12 "ALIGNOF_DOUBLE=4" test_is_equal "typedef struct { char c; double i; }" 16 "ALIGNOF_DOUBLE=8" die_unless_set ALIGNOF_DOUBLE case "$SIZEOF_POINTER" in 2) test_is_equal "typedef struct { char c; void *i; }" 3 "ALIGNOF_POINTER=1" test_is_equal "typedef struct { char c; void *i; }" 4 "ALIGNOF_POINTER=2" ;; 4) test_is_equal "typedef struct { char c; void *i; }" 5 "ALIGNOF_POINTER=1" test_is_equal "typedef struct { char c; void *i; }" 6 "ALIGNOF_POINTER=2" test_is_equal "typedef struct { char c; void *i; }" 8 "ALIGNOF_POINTER=4" ;; 8) test_is_equal "typedef struct { char c; void *i; }" 9 "ALIGNOF_POINTER=1" test_is_equal "typedef struct { char c; void *i; }" 10 "ALIGNOF_POINTER=2" test_is_equal "typedef struct { char c; void *i; }" 12 "ALIGNOF_POINTER=4" test_is_equal "typedef struct { char c; void *i; }" 16 "ALIGNOF_POINTER=8" ;; *) die "bad SIZEOF_POINTER=$SIZEOF_POINTER" esac die_unless_set ALIGNOF_POINTER case "$SIZEOF_INT" in 2) ALIGNOF_INT=$ALIGNOF_INT16 ;; 4) ALIGNOF_INT=$ALIGNOF_INT32 ;; 8) ALIGNOF_INT=$ALIGNOF_INT64 ;; *) die "bad SIZEOF_INT=$SIZEOF_INT" ;; esac for a in SIZEOF_INT SIZEOF_POINTER \ ALIGNOF_INT16 ALIGNOF_INT32 ALIGNOF_INT64 ALIGNOF_INT ALIGNOF_POINTER do eval "v=\$$a" echo "#define $a $v" done protobuf-c-0.15/scripts/.svn/text-base/pkgwrite.svn-base0000444000175000017500000031712311332660134020207 00000000000000#! /usr/bin/perl -w # pkgwrite 0.0.8: Build native packages from source code # and pkgwriteinfo files. # # This file contains POD documentation: try `perldoc pkgwrite' for help. # # Copyright Dave Benson , 2000-2001. # Requirements: # perl 5.004 or higher, # and native packaging tools for the output packages, that is: # For redhat `rpm'. And for debian `dpkg' and `dpkg-buildpackage'. # pkgwrite # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public # License as published by the Free Software Foundation; either # version 2 of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public # License along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # --- # # This software may also be licensed under the terms of # the GNU Lesser General Public License, version 2 or higher. # (This is so that the pkgwrite script may be legally included # with LGPL'd software.) # # --- # # Furthermore, the packages and intermediary files generated # with pkgwrite are specifically excluded from the terms of # this license. Hence, pkgwrite adds no additional restrictions to # the package's licensing, but they must comply with the # licensing on the other source code, libraries and tools used # to generate the package. # Finally, this contains the rpmrc that is distributed with # rpm 4.0: CVS entry: rpmrc.in 2.28.2.2 2000/09/13. # That file had no copyright info. The RPM source code, # like pkgwrite, is licenced under both the LGPL and the GPL. require 5.004; use Carp; use Config; # for signal names use Symbol qw(gensym); # Table of Contents of the Source Code. # Section 0: Initialization & Configuration. # Section 1: Helper functions. # Section 2: parse_pkgwriteinfo_file: Return package information. # Section 3: Verify that a package is correctly formed. # Section 4: ChangeLog parsing code. # Section 5: Redhat tape. # Section 6: Debian tape. # Section 7: High-level API: Make a package from a tarball. # Section 8: Usage message. # Section 9: Main program. # Section 10: POD Documention. #===================================================================== # Section 0: Initialization & Configuration. #===================================================================== # --- function prototypes --- sub dump_list ($); # print a builtin table to stdout sub initialize_packaging_tables (); # redhat/debian package mgnt specifics sub initialize_signal_tables (); # signal number to id mappings sub add_automatic_conflicts ($); # add conflicts if file sets intersect # --- global initialization --- $initial_dir = `pwd`; chomp ($initial_dir); initialize_packaging_tables (); initialize_signal_tables (); $PKGWRITE_VERSION = '0.0.8'; # --- configuration --- # set to 0 for debugging: don't delete working directories. $do_cleanup = 1; $do_cleanup = $ENV{DO_CLEANUP} if defined($ENV{DO_CLEANUP}); # force the changelog to refer to this exact version. $strict_changelog_checking = 1; # whether to perform an extra packaging sanity test phase. $do_sanity_check = 1; # for the changelog, which distribution should be listed? # XXX: hm, what if a single package changes dist? look at # packages in stable for an example, i guess... (actually # this isn't a problem if you *always* use pkgwrite, # but that's annoying.) $debian_dist = 'unstable'; # options to pass to ./configure (these differ due on different # distros due to different standard directories -- most likely, # the redhat usage will converge to the debian/fhsstnd.) @common_config_flags = ( '--sysconfdir=/etc', '--prefix=/usr', '--quiet' ); $redhat_config_flags = join(' ', @common_config_flags ); $debian_config_flags = join(' ', @common_config_flags, '--mandir=/usr/share/man', '--infodir=/usr/share/info', '--datadir=/usr/share'); # Directories where shared libraries are kept: if we install a library # in any of these directories we need to run `ldconfig'. @ldconfig_dirs = ( '/usr/lib', '/lib', '/usr/X11/lib', '/usr/X11R6/lib', '/usr/lib/X11' ); # --- configuration --- # gzip/gunzip programs + arguments that can act as filters. $gzip = 'gzip -9 -c -'; $gunzip = 'gzip -d -c -'; # flags which cause `tar' to extract a file to stdout from an archive. # usage: tar $untar_to_stdout ARCHIVE FILE # or zcat ARCHIVE | tar $untar_to_stdout - FILE # (perhaps this isn't portable?) $untar_to_stdout = "xOf"; # Location of the optional system-wide rpmrc file. $system_rpmrc_file = "/var/lib/rpm/rpmrc"; # Standard build architectures. Yes, hardcoding this sucks... $default_redhat_archs = "i386 alpha sparc sparc64"; # --- configure-time substitutions (!) --- # The RHS of these assignments is a autoconf-substitution; # in pkgwrite.in there are autoconf AC_SUBST()d variables, # and in pkgwrite these is a 0 or 1 to indicate # whether `configure' detected a suitable version of these # packaging systems. $has_rpm_support = 1; $has_dpkg_support = 1; # --- build hash tables of fixed strings --- sub initialize_packaging_tables () { # --- Debian packaging values --- # valid values for the Priority: field. for (qw(required important standard optional extra)) { $DPKG_PRIORITY_LEVELS{$_} = $_; } # valid values for the Section: field. for (qw(admin base comm contrib devel doc editors electronics games graphics hamradio interpreters libs mail math misc net news non-free oldlibs otherosfs shells sound tex text utils web x11)) { $DPKG_SECTIONS{$_} = $_; } # --- Redhat packaging values --- for ('Amusements/Games', 'Amusements/Graphics', 'Applications/Archiving', 'Applications/Communications', 'Applications/Databases', 'Applications/Editors', 'Applications/Emulators', 'Applications/Engineering', 'Applications/File', 'Applications/Internet', 'Applications/Multimedia', 'Applications/Productivity', 'Applications/Publishing', 'Applications/System', 'Applications/Text', 'Development/Debuggers', 'Development/Languages', 'Development/Libraries', 'Development/System', 'Development/Tools', 'Documentation', 'System Environment/Base', 'System Environment/Daemons', 'System Environment/Kernel', 'System Environment/Libraries', 'System Environment/Shells', 'User Interface/Desktops', 'User Interface/X', 'User Interface/X Hardware Support') { $RPM_GROUPS{lc($_)} = $_; } } # initialize_signal_tables: Build a lookup-table mapping from # signal number to the signal's name (the part which follows # SIG in the C macro: for example: HUP, KILL, TERM, SEGV, ABRT, etc) # based on perl's configuration. sub initialize_signal_tables () { defined $Config{sig_name} || die "No sigs?"; my $i = 0; foreach $name (split(' ', $Config{sig_name})) { #$signo{$name} = $i; $signame[$i] = $name; $i++; } } #===================================================================== # Section 1: Helper functions. #===================================================================== # --- run: run a program or die --- sub run($) { my $command = $_[0]; print STDERR " running: $command\n"; my $rv = system ($command); if ($rv != 0) { if ($rv < 256) { die "command `$command' killed by signal " . $signame[$rv]; } else { die "command `$command' exited with status " . ($rv >> 8); } } } # safe_mkdir: make a directory if it doesn't exist, # or die with an error message. sub safe_mkdir($) { croak "safe_mkdir(undef) called" unless defined $_[0]; mkdir ($_[0], 0755) or croak "mkdir($_[0]) failed"; } # check_field(OBJECT, HASH-ENTRY, FIELD) # # Verify that OBJECT->{HASH-ENTRY} is value, or die with a diagnostic. sub check_field($$$) { if (!defined($_[0]->{$_[1]})) { my $type = $_[0]->{type}; my $name = $_[0]->{name}; $name = "(unknown name)" unless defined $name; $type = "packaging" unless defined $type; die "field `$_[2]' required in $type for $name"; } } # undef_or_empty: Test if an array reference is undefined or of zero length. sub undef_or_empty ($) { return 1 unless defined $_[0]; my $array = $_[0]; return 1 unless scalar (@$array); return 0; } # write_entries: Write out optional field entries from a hash-table $object. # $field_list and $hash_entries are parallel lists. sub write_entries ($$$$) { my ($fh, $object, $field_list, $hash_entries) = @_; my $count = scalar(@$field_list); my $i; for ($i = 0; $i < $count; $i++) { my $hentry = $hash_entries->[$i]; my $fname = $field_list->[$i]; if (defined($object->{$hentry})) { print $fh $fname, ": ", $object->{$hentry}, "\n"; } } } # make a full path from a possibly relative path specified # on the command line. sub make_absolute($) { if ($_[0] !~ m,^/,) { return "$initial_dir/" . $_[0]; } else { return $_[0]; } } # write_list_to_file(\@LIST, $FNAME) # Write each element of LIST on a separate line to a file named $FNAME. sub write_list_to_file ($$) { my ($list, $fname) = @_; open Z, ">$fname" or die "write_list_to_file: couldn't create $fname"; for (@$list) { print Z "$_\n"; } close Z; } # make_file: Create a file with the contents of a given string. sub make_file ($$) { my ($fname, $contents) = @_; open Z, ">$fname" or die "make_file: couldn't create $fname"; print Z $contents; close Z; } # maybe_print_make_dirs(\%MADE_DIRECTORIES, $FILE_HANDLE, $DIRECTORY): # # Print a script to make the directories and subdirectories # of $dir, recording made directories in MADE_DIRECTORIES # to avoid duplication. sub maybe_print_make_dirs ($$$) { my ($made_dirs, $fh, $dir) = @_; my $cur = ''; $cur = ($dir =~ s,^/+,,) ? '' : '.'; for (split /\//, $dir) { $cur .= "/$_"; if (!defined($made_dirs->{$cur})) { print $fh "\ttest -d $cur || mkdir $cur\n"; $made_dirs->{$cur} = 1; } } } # string_to_boolean: take the normal yes/no/false/true/0/1 mess # and output 0, 1, or undef. sub string_to_boolean ($) { my $s = $_[0]; return 0 if ($s eq '0' || $s eq 'f' || $s eq 'F' || $s eq 'n' || $s eq 'N' || $s eq 'no' || $s eq 'NO' || $s eq 'false' || $s eq 'FALSE'); return 1 if ($s eq '1' || $s eq 't' || $s eq 'T' || $s eq 'y' || $s eq 'Y' || $s eq 'yes' || $s eq 'YES' || $s eq 'true' || $s eq 'TRUE'); return undef; } # Read lines from FILE-HEADER until a non-empty line is encountered. # Return undef if no nonempty line is encountered. sub skip_empty_lines ($) { my $fh = $_[0]; while (<$fh>) { chomp; return $_ if /\S/; } return undef; } # From the basename of a manpage (eg zshall.1.gz or exit.3tcl) # find the man-section (resp. 1 or 3). sub get_manpage_section ($) { my $b = $_[0]; $b =~ s/\.gz$//; $b =~ s/\.bz2$//; $b =~ s/\.Z$//; $b =~ s/^.*\.//; if ($b =~ /^(\d+)/) { return $b; } die "Couldn't figure out what man-section $_[0] was in"; } # --- Creating and destroying the temporary working area --- sub get_tmp_dir() { return $ENV{'TMPDIR'} || $ENV{'TEMPDIR'} || "/tmp"; } sub get_work_dir () { # Make a working directory. if (!defined($global_work_dir)) { $global_work_dir = get_tmp_dir() . "/mkpkg-$$-$ENV{USER}"; mkdir ($global_work_dir, 0755) or die "couldn't make tmp directory $global_work_dir"; } $SIG{__DIE__} = sub { remove_work_dir (); }; return $global_work_dir; } sub remove_work_dir () { if (defined($global_work_dir)) { $SIG{__DIE__} = sub {}; run ("rm -rf $global_work_dir") if $do_cleanup; undef($global_work_dir); } } #===================================================================== # Section 2: parse_pkgwriteinfo_file: Return package information. #===================================================================== # DATA STRUCTURES # # The return value is a Package, a hash-table with the following fields: # name => NAME-OF-PACKAGE # output_name => NAME-OF-PACKAGE [sometimes mangled for co-installation] # section => DEBIAN-SECTION # group => REDHAT-GROUP # priority => DEBIAN-PRIORITY # author => AUTHOR # builds => \@BUILDS # targets => \@TARGETS # url => URL # summary => SUMMARY # license => LICENSE # version => UPSTREAM-VERSION # release => RELEASE # packager => PACKAGER_FULLNAME # packager_email = PACKAGER_EMAIL # changelog => CHANGELOG-FILE # fullname => PACKAGE-VERSION-RELEASE # upstream_fullname => PACKAGE-VERSION # needs_noarch => [01] # needs_arch_specific => [01] # upstream_is_packager => [01] Whether the packager and author are the same. # (The default is 1, meaning TRUE) # changelog_file => changelog.gz or changelog.Debian.gz # # Each Target's information is a hash-table with the following fields: # name => TARGET-NAME [without PACKAGE-, or {MAIN}] # summary => SUMMARY # description => DESCRIPTION # section => DEBIAN-SECTION [default to package's section] # group => REDHAT-GROUP [default to package's group] # files => \@PATTERNS # conffiles => \@PATTERNS # manpages => \@MANPAGES [just the basename -- no path] # arch_indep => [01] [whether this target contains compiled code] # build_name => BUILD-NAME # build => BUILD # installed_docs => \@DOCS [docs the package installs] # source_docs => \@DOCS [docs from the package tarball] # # Each Build's information is a hash-table with the following fields: # name => BUILD-NAME [or {MAIN} for the default] # configure_flags => FLAGS [addl flags to pass to the configure script] # configure_envars => ENVARS [NAME=VALUE pairs...] # make_flags => FLAGS [addl flags to pass to make & make install] # build_flags => FLAGS [addl flags to pass to make] # install_flags => FLAGS [addl flags to pass to make install] # extra_build_targets => \@T [addl `make' targets to build] # extra_install_targets => \@T [addl `make' targets to install] sub parse_pkgwriteinfo_file($) { open PINFO, "$_[0]" or die "couldn't open $_[0]"; my $package; my @lines = (); # --- # Break the line up into sections starting with Target, Package, Build, # and call the appropriate parser on those blocks, # which are functions named handle_{target,package,build}. # # Each of those functions takes a list of lines as arguments # and returns a hash-table reference of the appropriate {'type'}. # Parse the first block, which is always Package:. while () { # Ignore whitespace. next if /^\s*$/; # Ignore comments. next if /^\s*#/; chomp; $line = $_; if ($line =~ /^Target:/ || $line =~ /^Build:/) { # Clear out the current lines as the main package entry. $package = handle_package (@lines); die unless defined $package; # This line begins the new block. @lines = ( $line ); last; } else { push @lines, $_; } } while () { # Ignore whitespace. next if /^\s*$/; # Ignore comments. next if /^\s*#/; chomp; $line = $_; # Are we are a block boundary? if (($line =~ /^Target:/) || ($line =~ /^Build:/)) { # What type of block did we just complete? if ($lines[0] =~ /^Target:/) { # Parse the Target. my $target = handle_target (@lines); die unless defined $target; $target->{package} = $package; my $targets = $package->{targets}; push @$targets, $target; } else { # Parse the Build. my $build = handle_build (@lines); die unless defined $build; $build->{package} = $package; my $builds = $package->{builds}; push @$builds, $build; # Compute the name of the src rpm, which will also # be the prefix for all the other packages. my $name = $package->{output_name}; $name .= ("-" . $build->{name}) if ($build->{name} ne '{MAIN}'); $build->{package_name} = $name; $build->{package} = $package; } @lines = ( $line ); next; } else { push @lines, $line; } } if (scalar (@lines) > 0) { die "The last block in a pkgwriteinfo file must always be a target" unless ($lines[0] =~ /^Target:/i); $target = handle_target (@lines); die unless defined $target; my $targets = $package->{targets}; push @$targets, $target; } { my $targets = $package->{targets}; for my $target (@$targets) { for my $inherited (qw(group)) { if (!defined($target->{$inherited})) { $target->{$inherited} = $package->{$inherited} } } } } my %BUILDS_BY_NAME = (); { my $targets = $package->{targets}; my $builds = $package->{builds}; die "malformed package: no targets" if scalar (@$targets) == 0; die "malformed package: no builds" if scalar (@$builds) == 0; for (@$builds) { $BUILDS_BY_NAME{$_->{name}} = $_; } my $needs_noarch = 0; my $needs_arch_specific = 0; for my $target (@$targets) { my $build = $target->{build_name}; my $name = $target->{name}; $build = '{MAIN}' unless defined $build; if (!defined $BUILDS_BY_NAME{$build}) { die "no build for target $name named $build"; } if ($target->{arch_indep}) { $needs_noarch = 1; } else { $needs_arch_specific = 1; } $target->{build} = $BUILDS_BY_NAME{$build}; $target->{package_name} = $package->{output_name}; $target->{package} = $package; if ($name ne '{MAIN}') { $target->{package_name} .= "-$name"; } } $package->{needs_noarch} = $needs_noarch; $package->{needs_arch_specific} = $needs_arch_specific; } # Add conflicts based purely on `Files:' lists. add_automatic_conflicts ($package); return $package; } # --- handle_package: create a $package from a pkgwrite intro --- sub handle_package { my $package = {}; $package->{type} = 'package'; $package->{targets} = []; $package->{builds} = []; $package->{upstream_is_packager} = 1; my $in_description = 0; for (@_) { if ($in_description) { if (/^\S/) { $in_description = 0; } else { s/^\s//; $package->{description} .= "\n$_"; next; } } if (/^Package:\s*(.*)/) { $package->{name} = $1; } elsif (/^Output-Package:\s*(.*)/) { $package->{output_name} = $1; } elsif (/^Section:\s*(.*)/) { $package->{section} = $1; } elsif (/^Group:\s*(.*)/) { $package->{group} = $1; } elsif (/^Priority:\s*(.*)/) { $package->{priority} = $1; } elsif (/^Home-Page:\s*(.*)/) { $package->{home_page} = $1; } elsif (/^Source-Url:\s*(.*)/) { $package->{url} = $1; } elsif (/^Version:\s*(.*)/) { $package->{version} = $1; } elsif (/^Release:\s*(.*)/) { $package->{release} = $1; } elsif (/^Change[lL]og:\s*(.*)/) { $package->{changelog} = $1; } elsif (/^Author:\s*(.*)/) { my $author = $1; $package->{authors} = [] unless defined $package->{authors}; my $authors = $package->{authors}; push @$authors, $author; } elsif (/^Description:\s*(.*)/) { $package->{description} = $1; $in_description = 1; } elsif (/^Synopsis:\s*(.*)/) { $package->{summary} = $1; } elsif (/^License:\s*(.*)/) { $package->{license} = $1; } elsif (/^Packager:\s*(.*)/) { $package->{packager} = $1; } elsif (/^Packager-Email:\s*(.*)/) { $package->{packager_email} = $1; } elsif (/^Upstream-is-Packager:\s*(.*)/i) { $package->{upstream_is_packager} = $1; } else { chomp; die "unparsable line in pkgwriteinfo file: $_"; } } $package->{changelog_file} = $package->{upstream_is_packager} ? "changelog.gz" : "changelog.Debian.gz"; # check that all the needed fields have been found. check_field ($package, 'name', 'Package'); check_field ($package, 'section', 'Section'); check_field ($package, 'version', 'Version'); check_field ($package, 'release', 'Release'); check_field ($package, 'priority', 'Priority'); check_field ($package, 'authors', 'Author'); check_field ($package, 'description', 'Description'); check_field ($package, 'summary', 'Synopsis'); check_field ($package, 'license', 'License'); check_field ($package, 'packager', 'Packager'); check_field ($package, 'packager_email', 'Packager-Email'); $package->{output_name} = $package->{name} unless defined $package->{output_name}; $package->{upstream_fullname} = $package->{name} . '-' . $package->{version}; $package->{fullname} = $package->{output_name} . '-' . $package->{version} . '-' . $package->{release}; $package->{lcname} = lc($package->{name}); return $package; } # --- handle_target: create a $target from a pkgwriteinfo entry --- sub handle_target { my $target = {}; my $in_description = 0; $target->{type} = 'target'; $target->{manpages} = []; $target->{source_docs} = []; $target->{installed_docs} = []; $target->{arch_indep} = 0; $target->{debian_data} = {}; for (@_) { if ($in_description) { if (/^\S/) { $in_description = 0; } else { s/^\s//; $target->{description} .= "\n$_"; next; } } if (/^Target:\s*(.*)/) { $target->{name} = $1; } elsif (/^Depends:\s*(.*)/) { my $dep = $1; if (defined($target->{depends})) { $target->{depends} = $target->{depends} . ", " . $dep; } else { $target->{depends} = $dep; } } elsif (/^Redhat-Requires:\s*(.*)/) { $target->{redhat_requires} = $1; } elsif (/^Conflicts:\s*(.*)/) { my $conflict = $1; if (defined($target->{conflicts})) { $target->{conflicts} = $target->{conflicts} . ", " . $conflict; } else { $target->{conflicts} = $conflict; } } elsif (/^Redhat-Conflicts:\s*(.*)/) { $target->{redhat_conflicts} = $1; } elsif (/^Synopsis:\s*(.*)/) { $target->{summary} = $1; } elsif (/^Files:\s*(.*)/) { my $pattern = $1; $target->{files} = [] unless defined $target->{files}; my $files = $target->{files}; push @$files, $pattern; } elsif (/^Description:\s*(.*)/) { $target->{description} = $1; $in_description = 1; } elsif (/^Man-Page:\s*(.*)/) { my $manpage = $1; my $manpages = $target->{manpages}; push @$manpages, $manpage; } elsif (/^Doc:\s*(.*)/) { my $doc = $1; my $docs = $target->{installed_docs}; push @$docs, $doc; } elsif (/^Source-Doc:\s*(.*)/) { my $doc = $1; my $docs = $target->{source_docs}; push @$docs, $doc; } elsif (/^Platform-Independent:\s*(.*)/) { $target->{arch_indep} = string_to_boolean ($1); } elsif (/^Needs-[lD]dconfig:\s*(.*)/) { $target->{needs_ldconfig} = string_to_boolean ($1); } elsif (/^Which-Build:\s*(.*)/) { $target->{build_name} = $1; } else { chomp; die "unparsable line in pkgwriteinfo file: $_"; } } # check that all the needed fields have been found. check_field ($target, 'name', 'Target'); if (undef_or_empty ($target->{installed_docs}) && undef_or_empty ($target->{source_docs}) && undef_or_empty ($target->{files})) { die "either Files, Doc, Source-Doc are required but missing in target " . $target->{name}; } if ($target->{name} ne '{MAIN}') { check_field ($target, 'description', 'Description'); check_field ($target, 'summary', 'Synopsis'); } # --- Figure out other information about this target. --- # Figure out if ldconfig must be run after this package # is installed. if (!defined ($target->{needs_ldconfig})) { my $needs_ldconfig = 0; my $files = $target->{files}; $files = [] unless defined $files; PER_FILE: for my $file (@$files) { my $tmp = $file; $tmp =~ s,/[^/]+$,,; for my $dir (@ldconfig_dirs) { if ($tmp eq $dir) { $needs_ldconfig = 1; last PER_FILE; } } } $target->{needs_ldconfig} = $needs_ldconfig; } return $target; } # --- handle_build: create a $build from a pkgwriteinfo entry --- sub handle_build { my $build = {}; $build->{type} = 'build'; $build->{extra_build_targets} = []; $build->{extra_install_targets} = []; for (@_) { if (/^Build:\s*(.*)/) { $build->{name} = $1; } elsif (/^Configure-Flags:\s*(.*)/) { $build->{configure_flags} = $1; } elsif (/^Configure-Envars:\s*(.*)/) { $build->{configure_envars} = $1; } elsif (/^Make-Flags:\s*(.*)/) { $build->{make_flags} = $1; } elsif (/^Install-Flags:\s*(.*)/) { $build->{install_flags} = $1; } elsif (/^Build-Flags:\s*(.*)/) { $build->{build_flags} = $1; } elsif (/^Extra-Build-Targets:\s*(.*)/) { my $list = $build->{extra_build_targets}; push @$list, $1; } elsif (/^Extra-Install-Targets:\s*(.*)/) { my $list = $build->{extra_install_targets}; push @$list, $1; } else { die "unrecognized line under Build ($_)"; } } return $build; } # --- add_automatic_conflicts --- # Add packages to eachothers conflict lists whenever they # have Files: entries that are the same and don't have wildcards. sub add_automatic_conflicts ($) { my ($package) = @_; my $targets = $package->{targets}; # a table: defined ($conflict_table->{A}->{B}) => A and B conflict. my $conflict_table = {}; # a table mapping a filename that doesn't contain # wildcards, to a list of packages containing that file. my $by_installed_file = {}; # Traverse all the targets, flush one $conflict_table. # # Basically, if any two packages are in the same list, # they must have a conflict. for my $target (@$targets) { my $files = $target->{files}; for my $file (@$files) { next if $file =~ /[\*\?\[\]]/; my $list = $by_installed_file->{$file}; $list = $by_installed_file->{$file} = [] unless defined ($list); push @$list, $target; } } my %name_to_target = (); # Build a table of all the conflicted package pairs, # by scanning the above lists. for my $conflicted_targets (values %$by_installed_file) { my $count = scalar (@$conflicted_targets); next if ($count < 2); for (my $i = 0; $i < $count; $i++) { my $t1 = $conflicted_targets->[$i]; my $p1 = $t1->{package_name}; $name_to_target{$p1} = $t1; for (my $j = 0; $j < $count; $j++) { next if $i == $j; my $t2 = $conflicted_targets->[$j]; my $p2 = $t2->{package_name}; my $t = $conflict_table->{$p1}; $t = $conflict_table->{$p1} = {} unless defined $t; $t->{$p2} = 1; } } } # Add those conflicts, unless they have been explicitly mentioned already. my $file_a; my $hash_b; while (($name_a, $hash_b) = each %$conflict_table) { my $target_a = $name_to_target{$name_a}; my $cstring = $target_a->{conflicts}; # Compute the initial list of conflicted packages. my @conflicts; if (!defined ($cstring) || $cstring eq '') { @conflicts = (); } else { @conflicts = map { s/^\s+//; s/\s+$//; $_ } (split /,/, $cstring); } for my $name_b (keys %$hash_b) { my $preconflicted = 0; my $target_b = $name_to_target{$name_a}; for (@conflicts) { if (/^$target_b / || ($_ eq $target_b)) { $preconflicted = 1; last; } } # Add a conflict if needed. unless ($preconflicted) { if (!defined ($cstring) || $cstring eq '') { $target_a->{conflicts} = $name_b; } else { $target_a->{conflicts} .= ", $name_b"; } } } } } #===================================================================== # Section 3: Verify that a package is correctly formed. #===================================================================== # Run a user-specified function (a predicate) on a package and all its targets. # (only possible b/c they are both hash-tables). # # Return the first package for which the predicate returns true, # or `undef' if none is found. sub search_package_and_targets ($$) { my ($package, $func) = @_; return $package if &$func ($package); my $targets = $package->{targets}; for my $target (@$targets) { return $target if &$func ($target); } return undef; } # check that a package is valid. sub sanity_check_package ($) { my $package = $_[0]; my $targets = $package->{targets}; my $builds = $package->{builds}; # Verify that $package->{group} and $package->{section} are valid. my $invalid = search_package_and_targets ($package, sub { my $p = $_[0]; return 0 unless defined $p->{group}; return 0 if defined $RPM_GROUPS{lc($p->{group})}; print STDERR "WARNING: " . "The Group: `" . $p->{group} . "'is unknown.\n"; return 1; }); if (defined($invalid)) { die "try pkgwrite --query-list=rpm-groups"; } $invalid = search_package_and_targets ($package, sub { my $p = $_[0]; return 0 unless defined $p->{section}; my $s = lc ($p->{section}); return 0 if defined $DPKG_SECTIONS{$s}; print STDERR "WARNING: " . "The Section: `" . $p->{section} . "'is unknown.\n"; return 1; }); if (defined($invalid)) { die "invalid Section: try pkgwrite --query-list=deb-sections for a list"; } # Verify that documentation doesn't contain wildcards. $invalid = search_package_and_targets ($package, sub { my $p = $_[0]; my @docs; my $sd = $p->{source_docs}; my $id = $p->{installed_docs}; @docs = ( ((defined $id) ? @$id : ()), ((defined $sd) ? @$sd : ()) ); for (@docs) { if (/\*/ || /\?/) { print STDERR "WARNING: " . "documentation specifications " . "may not contain wildcards." . "($_)\n"; return 1; } } return 0; }); if (defined($invalid)) { die $invalid->{type} . " " . $invalid->{name} . " had an invalid documentation entry"; } # Verify that the manpages are in valid sections. $invalid = search_package_and_targets ($package, sub { my $p = $_[0]; my $m = $p->{manpages}; my @manpages = (defined ($m) ? @$m : ()); for (@manpages) { if (!defined (get_manpage_section ($_))) { print STDERR "WARNING: " . "manpage $_ was not in any " . "known man section.\n"; return 1; } if (/\//) { print STDERR "ERROR: " . "manpage $_ contained a /; it " . "should be a bare filename.\n"; return 1; } } return 0; }); if (defined ($invalid)) { die "bad manpage section in $invalid->{type} $invalid->{name}" } # Verify that none of the packages have the same names. my %used_names = (); for my $t (@$targets) { my $pname = $t->{package_name}; die "two packages are named $pname" if defined $used_names{$pname}; $used_names{$pname} = 1; } # Verify that no two installed documents in a single package # have the same name. for my $t (@$targets) { my $pname = $t->{package_name}; my @installed_docs = (); my $d1 = $t->{installed_docs}; my $d2 = $t->{source_docs}; for my $d (@$d1, @$d2) { next unless $d =~ m,([^/]+)/?$,; my $base = $1; if (defined ($used_names{$base})) { die "two documents in $pname are named $base"; } $used_names{$base} = 1; } } } #===================================================================== # Section 4: ChangeLog parsing code. #===================================================================== # create a new changelog parser. # doesn't parse any entries. # # you may pass in anything that may be open()d for reading: a filename # or `program |'. sub changelog_parser_new ($) { my $fh = gensym (); open $fh, "$_[0]" or return undef; my $cp = {}; $cp->{fh} = $fh; $cp->{filename} = $_[0]; $cp->{lineno} = 0; return $cp; } # skip empty lines, but also keep around the line number for error reporting. sub _cp_skip_empty_lines ($) { my $rv = skip_empty_lines ($_[0]->{fh}); $_[0]->{lineno} = $.; return $rv; } # parse one entry: store it in the public fields of $changelog_parser: # {package} => PACKAGE_NAME # {version} => VERSION-RELEASE # {change_text} => raw text of the changes # {full_name} => NAME-OF-AUTHOR # {email} => EMAIL-OF-AUTHOR # {date} => ENTRY-DATE (in rfc 822, eg date -R) # return whether this fields are valid. sub changelog_parser_advance ($) { my $cp = $_[0]; my $package_line = _cp_skip_empty_lines ($cp); return 0 unless defined $package_line; if ($package_line !~ /^([a-zA-Z0-9\-_]+)\s\(([^\(\)]+)\)/) { die "error parsing changelog package line ($package_line) (" . $cp->{filename} . ", line " . $cp->{lineno} . ")"; } $cp->{package} = $1; $cp->{version} = $2; my $byline; # grab the text. my $text = _cp_skip_empty_lines ($cp); my $was_empty = 0; # got a header line, but nothing else: that's an error. if (!defined ($text)) { die "no changelog entry was encountered: premature eof at " . $cp->{filename} . ", line " . $cp->{lineno}; } $text .= "\n"; # Data to be parsed from the packager's byline # (which we will do in order to detect the end-of-record anyway). my $full_name; my $email; my $date; my $got_byline = 0; my $fh = $cp->{fh}; while (defined ($text)) { my $line = scalar (<$fh>); last unless defined $line; if ($line =~ /^\s+-- ([^<>]+) <([^<>]+)>\s+(.*)/) { $full_name = $1; $email = $2; $date = $3; $got_byline = 1; last; } $text .= $line; } $text =~ s/\n\n+$/\n/s; # parse the byline. if (!$got_byline) { die "missing byline at " . $cp->{filename} . ", line " . $cp->{lineno}; } $cp->{change_text} = $text; $cp->{full_name} = $full_name; $cp->{email} = $email; $cp->{date} = $date; return 1; } # Write a debian-style changelog entry. # (on a debian system, look in /usr/share/doc/packaging-manual/manual.text.gz) sub changelog_write_debian_style ($$) { my ($cp, $ofh) = @_; my $lcpackage = lc($cp->{package}); print $ofh $lcpackage, " (", $cp->{version}, ") $debian_dist; urgency=low\n\n", $cp->{change_text}, "\n -- ", $cp->{full_name}, " <", $cp->{email}, "> ", $cp->{date}, "\n\n"; } # Write a redhat-style changelog entry. # (see http://www.rpm.org/RPM-HOWTO/build.html#CHANGELOG) sub changelog_write_redhat_style ($$) { my ($cp, $ofh) = @_; # Convert the date from # `date -R' format (complies with rfc 822) # to # `date +"%a %b %d %Y"' format # HMM: it'd be nice to support an rfc 822 date parser here, # but i'm hesitant unless such a beast comes with perl. if ($cp->{date} !~ /^([A-Z][a-z][a-z]),\s+(\d+) ([A-Z][a-z][a-z]) (\d+)/) { die "could not parse date " . $cp->{date}; } my ($day_of_week, $day_of_month, $month_shortname, $year) = ($1, $2, $3, $4); $day_of_month = "0$day_of_month" unless $day_of_month >= 10; my $short_date = "$day_of_week $month_shortname $day_of_month $year"; print $ofh "* $short_date ", $cp->{full_name}, " <", $cp->{email}, ">\n\n"; # XXX: not part of any packaging standard. print $ofh " Version ", $cp->{version}, "\n"; for (split /\n/, $cp->{change_text}) { # hmm, convert * to - for readability (?!?) s/^ \*/ -/; print $ofh $_, "\n"; } print $ofh "\n\n"; } # destroy the changelog parser. sub changelog_parser_destroy ($) { my $cp = $_[0]; if (! close ($cp->{fh})) { die "error running $cp->{filename}: $?"; } } #===================================================================== # Section 5: Redhat tape. #===================================================================== # if $make_script == 1, # return a list of commands (newline-terminated) # to concatenate into a script which will copy said # docs into /usr/doc/PACKAGE-VERSION-RELEASE. # # if $make_script == 0, just return a list of files, # `${prefix}/doc/PACKAGE-VERSION-RELEASE/FILENAME'. sub redhat_make_install_doc_section ($$) { my ($package, $build) = @_; my @cmds = (); my $targets = $package->{targets}; my $docs = $target->{installed_docs}; my $buildfullname = $build->{package_name} . '-' . $package->{version}; my $docdir = "%{_topdir}/%{prefix}/doc/" . join ('-', $package->{name}, $package->{version}, $package->{release}); # the union of all source docs for this build. my %source_docs = (); # the union of all installed docs for this build. my %installed_docs = (); for my $target (@$targets) { # skip unrelated targets. next unless $target->{build} == $build; my $doc_list; $doc_list = $target->{source_docs}; for (@$doc_list) { $source_docs{$_} = 1 } $doc_list = $target->{installed_docs}; for (@$doc_list) { $installed_docs{$_} = 1 } } # if there is no documentation to install, skip out rather than make # an empty doc directory. if (scalar(keys(%source_docs)) == 0 && scalar(keys(%installed_docs)) == 0) { return; } # mkdir -p isn't generally portable, but it works under redhat. hmm... push @cmds, "test -d $docdir || mkdir -p $docdir\n"; for my $doc (sort keys %source_docs) { # Produce commands to copy $src_doc from the unpacked tarball # to the $docdir. my $base; $doc =~ m,([^/]+/?)$,; $base = $1; if ($doc =~ m,/$,) { # directory push @cmds, "rm -rf $docdir/$base\n", "cp -dpr %{_builddir}/$buildfullname/$doc $docdir/$base\n"; } else { # file. push @cmds, "cp -dpf %{_builddir}/$buildfullname/$doc $docdir/\n"; } } for my $doc (sort keys %installed_docs) { # Produce commands to copy $installed_doc from the installed # area to the $docdir. my $base; $doc =~ m,([^/]+/?)$,; $base = $1; # Try to avoid copying a file over itself. my $srcpath = "%{_topdir}/$doc"; my $dstpath = "$docdir/$base"; $srcpath =~ s,/+$,,; $srcpath =~ s,//+,/,; $dstpath =~ s,/+$,,; $dstpath =~ s,//+,/,; next if $srcpath eq $dstpath; # Write the script if needed. if ($doc =~ m,/$,) { # directory push @cmds, "rm -rf $docdir/$base\n", "cp -r %{_topdir}/$doc $docdir/$base\n"; } else { # file. push @cmds, "cp -dpf %{_topdir}/$doc $docdir/\n"; } } return @cmds; } # output a list of file including their path. sub redhat_make_doc_section_list ($$$) { my ($fh, $package, $target) = @_; my $docs; my $docdir = "%{prefix}/doc/" . join ('-', $package->{name}, $package->{version}, $package->{release}); $docs = $target->{installed_docs}; for (@$docs) { next unless m/([^\/]+\/?)$/; push @docs, "$docdir/$1"; } $docs = $target->{source_docs}; for (@$docs) { next unless m/([^\/]+\/?)$/; push @docs, "$docdir/$1"; } return @docs; } # Print either an opening or closing architecture conditional # for a certain target. sub print_arch_conditional ($$$) { my ($fh, $target, $is_open) = @_; my $arch_indep = $target->{arch_indep}; if ($is_open) { print $fh ($arch_indep ? "%ifarch noarch\n" : "%ifnarch noarch\n"); } else { print $fh "%endif # ", ($arch_indep ? "noarch" : "!noarch"), "\n"; } } sub make_redhat_specfile($$$) { my ($package, $build, $spec_file_out) = @_; open SPECFILE, ">$spec_file_out" or die "could not create $spec_file_out: $!"; my $rh_requires = compute_redhat_requires ($package); my $download_url = $package->{url}; print SPECFILE "\%define prefix /usr\n"; # For now, disable this "fascist" option. # For some reason, our .tar.gz winds up in the list of # files, which kills us. print SPECFILE "\%define _unpackaged_files_terminate_build 0\n"; write_entries ('SPECFILE', $build, [qw(Name)], [qw(package_name)]); write_entries ('SPECFILE', $package, [qw(Version Release Copyright Vendor URL Group Summary Provides License)], [qw(version release copyright vendor home_page group summary output_name license)]); # Table of all the manpages we will need to gzip. my %build_manpages = (); # The primary target, that is, the target whose name is the # build's name (the same as the .src.rpm will assume). my $primary_target; # Compute the primary target and build_manpages. my $targets = $package->{targets}; for my $target (@$targets) { next unless $target->{build} == $build; if ($target->{name} eq $build->{name}) { $primary_target = $target; } my $manpages = $target->{manpages}; for my $manpage (@$manpages) { $build_manpages{$manpage} = 1; } } my $tarball = $package->{name} . '-' . $package->{version} . ".tar.gz"; print SPECFILE "Source: $tarball\n"; #print SPECFILE "Packager: $packager_id\n"; print SPECFILE "Prefix: /usr\n"; print SPECFILE "BuildRoot: %{_topdir}\n"; # Print flags that actually pertain to the primary target. my $needs_arch_conditionals = 0; if ($package->{needs_noarch}) { if ($package->{needs_arch_specific}) { print SPECFILE "BuildArch: noarch $default_redhat_archs\n"; $needs_arch_conditionals = 1; } else { print SPECFILE "BuildArch: noarch\n"; } } if (defined ($primary_target)) { # Print dependencies and conflicts. my $rh_requires = compute_redhat_requires ($primary_target); print SPECFILE "Requires: $rh_requires\n" if ($rh_requires ne ''); my $rh_conflicts = compute_redhat_conflicts ($primary_target); print SPECFILE "Conflicts: $rh_conflicts\n" if ($rh_conflicts ne ''); } print SPECFILE "%description\n", make_debian_description ($package->{description}), "\n"; my $config_flags; $config_flags = $redhat_config_flags . " " . (defined ($build->{configure_flags}) ? $build->{configure_flags} : ''); my $env_settings = (defined ($build->{configure_envars}) ? "$build->{configure_envars} " : ""); my $make_flags = defined ($build->{make_flags}) ? $build->{make_flags} : ''; my $build_flags = defined ($build->{build_flags}) ? $build->{build_flags} : ''; my $install_flags = defined ($build->{install_flags}) ? $build->{install_flags} : ''; $build_flags .= " $make_flags"; $install_flags .= " $make_flags"; my $full_main_package = "$package->{name}-$package->{version}"; my $full_target_package = "$build->{package_name}-$package->{version}"; print SPECFILE "%prep\n", "rm -rf \$RPM_BUILD_DIR/$full_main_package\n", "rm -rf \$RPM_BUILD_DIR/$full_target_package\n", "zcat \$RPM_SOURCE_DIR/$full_main_package.tar.gz | tar -xvf -\n", ($full_main_package eq $full_target_package ? '' : "mv $full_main_package $full_target_package\n"), "%build\n", "test -d \$RPM_BUILD_DIR || mkdir -p \$RPM_BUILD_DIR\n", "cd \$RPM_BUILD_DIR/$full_target_package\n", "$env_settings ./configure $config_flags\n", "make PREFIX=/usr $build_flags\n\n"; my $make_targets = $build->{extra_build_targets}; for (@$make_targets) { print SPECFILE "make $_ PREFIX=/usr $build_flags\n"; } print SPECFILE "%install\n", "cd \$RPM_BUILD_DIR/$full_target_package\n", "make install PREFIX=/usr DESTDIR=%{_topdir} $install_flags\n"; $make_targets = $build->{extra_install_targets}; for (@$make_targets) { print SPECFILE "make $_ PREFIX=/usr DESTDIR=%{_topdir} $install_flags\n"; } print SPECFILE redhat_make_install_doc_section ($package, $build); for my $manpage (keys %build_manpages) { my $man_section = get_manpage_section ($manpage); print SPECFILE "gzip -9 -f %{_topdir}/usr/man/man$man_section/$manpage\n"; } print SPECFILE "\n"; print SPECFILE "%clean\n", "rm -rf %{_builddir}\n", "mkdir %{_builddir}\n", # without the mkdir, this doesn't run twice... "\n\n"; if (defined ($primary_target)) { if ($needs_arch_conditionals) { print_arch_conditional ('SPECFILE', $primary_target, 1) } if ($primary_target->{needs_ldconfig}) { # This is from the gtk+.spec file. # Usually they are all pretty godly, but i'll be damned # if this works :) Furthermore all documentation alludes # to the next method; -p is wholy undocumented as far as i can tell. #print SPECFILE "%post -p /sbin/ldconfig\n\n", # "%postun -p /sbin/ldconfig\n\n"; print SPECFILE "%post\n", "/sbin/ldconfig\n\n", "%postun\n", "/sbin/ldconfig\n\n", } write_redhat_files_section ('SPECFILE', $primary_target); if ($needs_arch_conditionals) { print_arch_conditional ('SPECFILE', $primary_target, 0) } } for my $target (@$targets) { my $rh_requires = compute_redhat_requires ($target); my $target_name = $target->{package_name}; # Only process $target if it pertains to the current $build. next if $target->{build} != $build; # For the main package, the remaining data are # handled in the main preamble. next if ($target->{name} eq $build->{name}); if ($needs_arch_conditionals) { print_arch_conditional ('SPECFILE', $target, 1); } # Various standard fields for the non-major package. # XXX: should probably try to avoid needless `-n' flags. print SPECFILE "%package -n $target_name\n"; write_entries ('SPECFILE', $target, [qw(Group)], [qw(group)]); print SPECFILE "Requires: $rh_requires\n" if ($rh_requires ne ''); my $rh_conflicts = compute_redhat_conflicts ($target); print SPECFILE "Conflicts: $rh_conflicts\n" if ($rh_conflicts ne ''); # Summary is required for Redhat packages, # so we checked the availability of the Synopsis: # field on input, so an undef'd $summary should never occur. my $summary = $target->{summary}; die unless defined $summary; print SPECFILE "Summary: $summary\n"; if ($target->{needs_ldconfig}) { print SPECFILE "%post -n $target_name -p /sbin/ldconfig\n\n", "%postun -n $target_name -p /sbin/ldconfig\n\n"; } # Likewise, Description is mandatory. my $desc = $target->{description}; if (!defined($desc)) { $desc = $package->{description}; } die unless defined $desc; print SPECFILE "%description -n $target_name\n$desc\n"; # Print the %files section (Based on Files: in the pkgwriteinfo file.) write_redhat_files_section ('SPECFILE', $target); if ($needs_arch_conditionals) { print_arch_conditional ('SPECFILE', $target, 0); } print SPECFILE "\n\n"; } # If there is a changelog, include it in the specfile. # This is annoying b/c there is not necessarily any unpacked # source code around... my $changelog = $package->{changelog}; if (defined ($changelog)) { my $cl_file; if ($package->{package_source_dir}) { $cl_file = $package->{package_source_dir} . "/$changelog"; } else { # perform the necessary `tar' command. $cl_file = "$gunzip < " . $package->{package_tarball} . " | tar $untar_to_stdout - " . $package->{upstream_fullname} . "/$changelog |"; } my $cp = changelog_parser_new ($cl_file); print SPECFILE "\n%changelog\n"; my $first_time = 1; while (changelog_parser_advance ($cp)) { if ($first_time) { my $ver = $package->{version} . '-' . $package->{release}; if ($strict_changelog_checking && $cp->{version} ne $ver) { die "package version in changelog (" . $cp->{version} . ")" . " and in pkgwriteinfo file ($ver) do not match!"; } $first_time = 0; } changelog_write_redhat_style ($cp, 'SPECFILE'); } changelog_parser_destroy ($cp); } close SPECFILE; } sub write_redhat_files_section($$) { my ($fh, $target) = @_; print $fh '%files -n ', $target->{package_name}, "\n"; my $files_list = $target->{files}; if (defined($files_list)) { print $fh '%defattr(-, root, root)', "\n"; for my $wildcard (@$files_list) { my $tmp = $wildcard; $tmp =~ s,^/usr/,%{prefix}/,; print $fh "$tmp\n"; } } my $manpages = $target->{manpages}; for my $manpage (@$manpages) { my $section = get_manpage_section ($manpage); print $fh "%{prefix}/man/man$section/$manpage.gz\n" } for my $doc (redhat_make_doc_section_list ($fh, $target->{package}, $target)) { print $fh "%doc $doc\n"; } } # --- print canned rpmrc --- # This is based on the spec file distributed with rpm 4.0. # See comments in the legal section of pkgwrite. sub print_canned_rpmrc ($) { my $fh = $_[0]; for (qw(i386 i486 i586 i686 athlon)) { print $fh "optflags: $_ -O2 -march=$_\n" } for (qw(ia64 mipseb mipsel ia64)) { print $fh "optflags: $_ -O2\n" } print $fh "optflags: alpha -O2 -mieee\n"; for (qw(ev5 ev56 pca56 ev6 ev67)) { print $fh "optflags: alpha$_ -O2 -mieee -mcpu=$_\n" } print $fh "optflags: sparc -O2 -m32 -mtune=ultrasparc\n"; print $fh "optflags: sparcv9 -O2 -m32 -mcpu=ultrasparc\n"; print $fh "optflags: sparc64 -O2 -m64 -mcpu=ultrasparc\n"; print $fh "optflags: ppc -O2 -fsigned-char\n"; for (qw(parisc hppa1.0 hppa1.1 hppa1.2 hppa2.0)) { print $fh "optflags: $_ -O2 -mpa-risc-1-0\n" } for (qw(armv4b armv4l)) { print $fh "optflags: $_ -O2 -fsigned-char -fomit-frame-pointer\n" } for (qw(m68k atarist atariste ataritt falcon atariclone milan hades)) { print $fh "optflags: $_ -O2 -fomit-frame-pointer\n" } for (qw(athlon i686 i586 i486 i386)) { print $fh "arch_canon: $_: $_ 1\n" } for (qw(alpha alphaev5 alphaev56 alphapca56 alphaev6 alphaev67)) { print $fh "arch_canon: $_: $_ 2\n" } for (qw(alpha alphaev5 alphaev56 alphapca56 alphaev6 alphaev67)) { print $fh "arch_canon: $_: sparc 3\n" } for (qw(sparcv9)) { print $fh "arch_canon: $_: $_ 3\n" } print $fh <<'EOF'; arch_canon: mipseb: mipseb 4 arch_canon: ppc: ppc 5 arch_canon: m68k: m68k 6 arch_canon: IP: sgi 7 arch_canon: rs6000: rs6000 8 arch_canon: ia64: ia64 9 arch_canon: sparc64:sparc64 10 arch_canon: sun4u: sparc64 10 arch_canon: mipsel: mipsel 11 arch_canon: armv4b: armv4b 12 arch_canon: armv4l: armv4l 12 EOF for (qw(atarist atariste ataritt falcon atariclone milan hades)) { print $fh "arch_canon: $_: m68kmint 13\n" } for (qw(s398 i370)) { print $fh "arch_canon: $_: $_ 14\n" } print $fh <<'EOF'; # Canonical OS names and numbers os_canon: Linux: Linux 1 os_canon: IRIX: Irix 2 # This is wrong os_canon: SunOS5: solaris 3 os_canon: SunOS4: SunOS 4 os_canon: AmigaOS: AmigaOS 5 os_canon: AIX: AIX 5 os_canon: HP-UX: hpux10 6 os_canon: OSF1: osf1 7 os_canon: osf4.0: osf1 7 os_canon: osf3.2: osf1 7 os_canon: FreeBSD: FreeBSD 8 os_canon: SCO_SV: SCO_SV3.2v5.0.2 9 os_canon: IRIX64: Irix64 10 os_canon: NEXTSTEP: NextStep 11 os_canon: BSD/OS: BSD_OS 12 os_canon: machten: machten 13 os_canon: CYGWIN32_NT: cygwin32 14 os_canon: CYGWIN32_95: cygwin32 15 os_canon: UNIX_SV: MP_RAS: 16 os_canon: MiNT: FreeMiNT 17 os_canon: OS/390: OS/390 18 os_canon: VM/ESA: VM/ESA 19 os_canon: Linux/390: OS/390 20 os_canon: Linux/ESA: VM/ESA 20 EOF for (qw(s398 i370)) { print $fh "arch_canon: $_: $_ 14\n" } for (qw(osfmach3_i686 osfmach3_i586 osfmach3_i486 osfmach3_i386 athlon i686 i586 i486 i386)) { print $fh "buildarchtranslate: $_: i386\n" } for (qw(ia64)) { print $fh "buildarchtranslate: $_: ia64\n" } for (qw(osfmach3_ppc powerpc powerppc)) { print $fh "buildarchtranslate: $_: ppc\n" } for (qw(alphaev5 alphaev56 alphapca56 alphaev6 alphaev67)) { print $fh "buildarchtranslate: $_: alpha\n" } for (qw(sun4c sun4d sun4m sparcv9)) { print $fh "buildarchtranslate: $_: sparc\n" } for (qw(sun4u)) { print $fh "buildarchtranslate: $_: sparc64\n" } for (qw(atarist atariste ataritt falcon atariclone milan hades)) { print $fh "buildarchtranslate: $_: m68kmint\n" } for ('alphaev67: alphaev6', 'alphaev6: alphapca56', 'alphapca56: alphaev56', 'alphaev56: alphaev5', 'alphaev5: alpha', 'alpha: axp noarch', 'ia64: noarch', 'athlon: i686', 'i686: i586', 'i586: i486', 'i486: i386', 'i386: noarch', 'osfmach3_i686: i686 osfmach3_i586', 'osfmach3_i586: i586 osfmach3_i486', 'osfmach3_i486: i486 osfmach3_i386', 'osfmach3_i386: i486', 'osfmach3_ppc: ppc', 'powerpc: ppc', 'powerppc: ppc', 'sun4c: sparc', 'sun4d: sparc', 'sun4m: sparc', 'sun4u: sparc64', 'sparc64: sparcv9', 'sparcv9: sparc', 'sparc: noarch', 'ppc: rs6000', 'rs6000: noarch', 'mipseb: noarch', 'mipsel: noarch', 'hppa2.0: hppa1.2', 'hppa1.2: hppa1.1', 'hppa1.1: hppa1.0', 'hppa1.0: parisc', 'parisc: noarch', 'armv4b: noarch', 'armv4l: noarch', 'atarist: m68kmint noarch', 'atariste: m68kmint noarch', 'ataritt: m68kmint noarch', 'falcon: m68kmint noarch', 'atariclone: m68kmint noarch', 'milan: m68kmint noarch', 'hades: m68kmint noarch', 's390: i370', 'i370: noarch', 'ia64: noarch') { print $fh "arch_compat: $_\n" } print $fh <<'EOF'; os_compat: IRIX64: IRIX os_compat: solaris2.7: solaris2.3 solaris2.4 solaris2.5 solaris2.6 os_compat: solaris2.6: solaris2.3 solaris2.4 solaris2.5 os_compat: solaris2.5: solaris2.3 solaris2.4 os_compat: solaris2.4: solaris2.3 os_compat: hpux11.00: hpux10.30 os_compat: hpux10.30: hpux10.20 os_compat: hpux10.20: hpux10.10 os_compat: hpux10.10: hpux10.01 os_compat: hpux10.01: hpux10.00 os_compat: hpux10.00: hpux9.07 os_compat: hpux9.07: hpux9.05 os_compat: hpux9.05: hpux9.04 os_compat: osf4.0: osf3.2 osf1 os_compat: ncr-sysv4.3: ncr-sysv4.2 os_compat: FreeMiNT: mint MiNT TOS os_compat: MiNT: FreeMiNT mint TOS os_compat: mint: FreeMiNT MiNT TOS os_compat: TOS: FreeMiNT MiNT mint buildarch_compat: ia64: noarch buildarch_compat: athlon: i686 buildarch_compat: i686: i586 buildarch_compat: i586: i486 buildarch_compat: i486: i386 buildarch_compat: i386: noarch buildarch_compat: sun4c: noarch buildarch_compat: sun4d: noarch buildarch_compat: sun4m: noarch buildarch_compat: sun4u: noarch buildarch_compat: sparc64: noarch buildarch_compat: sparcv9: sparc buildarch_compat: sparc: noarch buildarch_compat: alphaev67: alphaev6 buildarch_compat: alphaev6: alphapca56 buildarch_compat: alphapca56: alphaev56 buildarch_compat: alphaev56: alphaev5 buildarch_compat: alphaev5: alpha buildarch_compat: alpha: noarch buildarch_compat: m68k: noarch buildarch_compat: ppc: noarch buildarch_compat: mipsel: noarch buildarch_compat: mipseb: noarch buildarch_compat: armv4b: noarch buildarch_compat: armv4l: noarch buildarch_compat: parisc: noarch buildarch_compat: atarist: m68kmint noarch buildarch_compat: atariste: m68kmint noarch buildarch_compat: ataritt: m68kmint noarch buildarch_compat: falcon: m68kmint noarch buildarch_compat: atariclone: m68kmint noarch buildarch_compat: milan: m68kmint noarch buildarch_compat: hades: m68kmint noarch buildarch_compat: ia64: noarch buildarch_compat: s390: noarch EOF } # --- make redhat dir --- # # Make a bunch of files needed to produce an rpm # and writes them in $dir, which it creates. # # Return a list of commands that should be run to build # the RPM given this directory. # # Also needs a distribution tarball (made by `make dist') # and an architecture. sub make_redhat_dir ($$$$) { my ($package, $dir, $tarball, $arch) = @_; run ("rm -rf $dir"); safe_mkdir ("$dir"); safe_mkdir ("$dir/rpm-tmp"); safe_mkdir ("$dir/rpm-tmp/usr"); safe_mkdir ("$dir/rpm-tmp/usr/src"); safe_mkdir ("$dir/rpm-tmp/usr/src/redhat"); safe_mkdir ("$dir/tmp"); for (qw(SOURCES SPECS BUILD RPMS SRPMS)) { safe_mkdir ("$dir/rpm-tmp/usr/src/redhat/$_"); } run ("cp $tarball $dir/rpm-tmp/usr/src/redhat/SOURCES"); chdir ($dir) or die; $dir = `pwd`; chomp($dir); #$REDHAT_DIR = $dir; $BUILD_TOP = "$dir/tmp"; $STAGING_TOP = "$dir/rpm-tmp"; my $tmp_rpm_macros_fname = "$dir/rpmmacros.tmp"; my $tmp_rpm_rc_fname = "$dir/rpmrc.tmp"; open T, ">$tmp_rpm_macros_fname" or die "couldn't create $tmp_rpm_macros_fname"; print T <<"EOF"; %_builddir ${BUILD_TOP} %_buildshell /bin/sh %_dbpath %{_var}/lib/rpm %_defaultdocdir %{_usr}/doc %_instchangelog 5 %_rpmdir ${STAGING_TOP}/usr/src/redhat/RPMS %_rpmfilename %%{NAME}-%%{VERSION}-%%{RELEASE}.%%{ARCH}.rpm %_signature none %_sourcedir ${STAGING_TOP}/usr/src/redhat/SOURCES %_specdir ${STAGING_TOP}/usr/src/redhat/SPECS %_srpmdir ${STAGING_TOP}/usr/src/redhat/SRPMS %_srcrpmdir ${STAGING_TOP}/usr/src/redhat/SRPMS %_tmppath /tmp %_topdir ${STAGING_TOP} EOF close T; open (RPMRC, ">$tmp_rpm_rc_fname") or die "couldn't create $tmp_rpm_rc_fname"; print RPMRC "macrofiles: ", join (':', '/usr/lib/rpm/macros', '/usr/lib/rpm/%{_target}/macros', '/etc/rpm/macros', '/etc/rpm/%{_target}/macros', $tmp_rpm_macros_fname); print RPMRC "\n\n\n"; # If available, include the system-installed version # (w/o its `macrofiles:' lines), instead of the "canned" one; # (which actually just comes from rpm 4.0, see above); # the system version should be /var/lib/rpm/rpmrc. if (-r $system_rpmrc_file) { open SYSRPMRC, $system_rpmrc_file or die "internal error: " . "couldn't open $system_rpmrc_file"; while () { next if /^\s*macrofiles:/i; print RPMRC $_; } close SYSRPMRC; } else { print_canned_rpmrc ('RPMRC'); } close RPMRC; my $builds = $package->{builds}; my @commands = (); my $targets = $package->{targets}; for my $build (@$builds) { my $tmp_specfile_name; if ($build->{name} eq '{MAIN}') { $tmp_specfile_name = "$dir/" . $package->{name} . ".spec"; } else { $tmp_specfile_name = "$dir/" . $package->{name} . '-' . $build->{name} . ".spec"; } make_redhat_specfile($package, $build, $tmp_specfile_name); push @commands, "test -d $BUILD_TOP || mkdir $BUILD_TOP"; my $cmd = join (' ', "rpmbuild", "--target=$arch", "--rcfile $tmp_rpm_rc_fname", "-ba", "$tmp_specfile_name"); push @commands, $cmd; } return @commands; } # --- Automatic Depedency Conversions (Guessing involved) --- sub deb_to_rh_package_spec_list ($) { my $depends = $_[0]; my @pieces = (); for (split /,/, $depends) { s/^\s+//; s/\s+$//; s/[()]//g; push @pieces, $_; } return join(', ', @pieces); } # # convert debian-style dependencies to redhat-style. # (redhat calls the line `Requires') # debian/pkgwrite format: #Depends: libglade0, libglib1.2 (>= 1.2.0), libgtk1.2 (>= 1.2.5), libxml1, libz1, xlib6g, mpg123 #Requires: libglade >= 0.11, gtk+ >= 1.2, libxml >= 1.7, mpg123 # As you can see, this cannot necessarily be automated, # so we support Redhat-Requires: for override purposes. sub compute_redhat_requires($) { my $object = $_[0]; if (defined($object->{redhat_requires})) { return $object->{redhat_requires}; } elsif (defined($object->{depends})) { return deb_to_rh_package_spec_list ($object->{depends}); } else { return ''; } } sub compute_redhat_conflicts($) { my $object = $_[0]; if (defined($object->{redhat_conflicts})) { return $object->{redhat_conflicts}; } elsif (defined($object->{conflicts})) { return deb_to_rh_package_spec_list ($object->{conflicts}); } else { return ''; } } #===================================================================== # Section 6: Debian tape. #===================================================================== sub copy_docs ($$$$) { my ($fh, $basedir, $list, $targetdocdir) = @_; my @rv = (); for my $doc (@$list) { my $docbase; next unless $doc =~ m,([^/]+)/?$,; $docbase = $1; if ($doc =~ /\/$/) { print $fh "\t( cd $basedir/$doc/.. && \\\n", "\t tar cf - $docbase | \\\n", "\t $gzip || exit 1 \\\n", "\t) > $targetdocdir/$docbase.tar.gz\n"; push @rv, $docbase; } elsif ($doc =~ /\.gz$/) { print $fh "\tcp -dp $basedir/$doc $targetdocdir\n"; push @rv, $docbase; } else { print $fh "\t$gzip < $basedir/$doc > $targetdocdir/$docbase.gz\n"; push @rv, "$docbase.gz"; } } } # debian_docs_from_list: return a list of full paths to documentation. sub debian_docs_from_list ($) { my $list = $_[0]; # Treat directories, gzipped and non-gzipped files differently. return map { my $base; if (/\//) { $base = $_; } elsif (/\.gz$/) { s/^.*\///; $base = $_; } else { s/^.*\///; $base = "$_.gz"; } "/usr/share/doc/" . $target->{package_name} . "/$base"; } @$list; } # --- Create a debian `rules' file. --- sub write_rules_file ($$) { my ($fname, $package) = @_; open RULES, ">$fname" or die "couldn't create rules file ($fname)"; print RULES <<'EOF'; #!/usr/bin/make -f EOF print RULES "CONFIG_OPTS = $debian_config_flags\n"; print RULES <<'EOF'; # --- make the configure script itself (only needed from CVS) --- configure: if test -x configure ; then \ true ; \ else \ if test -x bootstrap ; then \ ./bootstrap ; \ elif test -x autogen.sh ; then \ ./autogen.sh ; \ fi \ fi test -x configure EOF # Different "builds" -- these are completely rebuilt versions # of the source code, usually with just different configure flags, etc. my $builds = $package->{builds}; my $install_targets = ''; my $binary_package_targets = ''; for my $build (@$builds) { my $suffix; my $path; if ($build->{name} eq '{MAIN}') { $suffix = ''; $path = 'MAIN'; } else { $path = $build->{name}; $suffix = "-$path"; } my $cfg_envars = $build->{configure_envars}; my $cfg_flags = $build->{configure_flags}; print RULES '#', ('='x69), "\n", '# Methods for building', $build->{name}, "\n", '#', ('='x69), "\n"; # figure out how to run configure. print RULES <<"EOF"; configured$suffix: configured$suffix.pkgwrite-stamp configured$suffix.pkgwrite-stamp: configure EOF $has_configure = 1; if ($has_configure) { print RULES "\ttest -d debian/BUILDS || mkdir debian/BUILDS\n"; print RULES "\trm -rf debian/BUILDS/$path\n"; print RULES "\tmkdir debian/BUILDS/$path\n"; print RULES "\tcd debian/BUILDS/$path && \\\n"; print RULES "\t$cfg_envars \\\n" if defined $cfg_envars; $cfg_flags = '' unless defined ($cfg_flags); $cfg_flags .= " $debian_config_flags"; print RULES "\t../../../configure $cfg_flags\n"; print RULES "\ttouch configured$suffix.pkgwrite-stamp\n"; } print RULES "\n"; # figure out how to build. my $build_flags = join (' ', $build->{make_flags} || '', $build->{build_flags} || ''); print RULES <<"EOF"; build$suffix: build$suffix.pkgwrite-stamp build$suffix.pkgwrite-stamp: configured$suffix.pkgwrite-stamp cd debian/BUILDS/$path && \$(MAKE) PREFIX=/usr $build_flags EOF my $make_targets = $build->{extra_build_targets}; for (@$make_targets) { print RULES "\tcd debian/BUILDS/$path && \\\n", "\t\t\$(MAKE) PREFIX=/usr $_ $build_flags\n"; } # figure out how to install. my $make_flags = $build->{make_flags}; my $install_flags = $build->{install_flags}; $install_flags = '' unless defined $install_flags; $install_flags .= " $make_flags" if defined $make_flags; print RULES <<"EOF"; install$suffix: install$suffix.pkgwrite-stamp install$suffix.pkgwrite-stamp: build$suffix.pkgwrite-stamp test -d debian/INSTALLS || mkdir debian/INSTALLS test -d debian/INSTALLS/$path || mkdir debian/INSTALLS/$path cd debian/BUILDS/$path && \\ \$(MAKE) PREFIX=/usr DESTDIR=`pwd`/../../INSTALLS/$path \\ $install_flags install EOF $make_targets = $build->{extra_install_targets}; for (@$make_targets) { print RULES "\tcd debian/BUILDS/$path && \\\n", "\t\t\$(MAKE) PREFIX=/usr \\\n", "\t\tDESTDIR=`pwd`/../../INSTALLS/$path \\\n", "\t\t$install_flags $_\n"; } print RULES <<"EOF"; touch install$suffix.pkgwrite-stamp rm -f target-dist.pkgwrite-stamp EOF $install_stamp_targets .= " install$suffix.pkgwrite-stamp"; $install_targets .= " install$suffix"; } print RULES '#', ('='x69), "\n", "# Copying files into per-target directories.\n", '#', ('='x69), "\n", "target-dist: target-dist.pkgwrite-stamp\n", "target-dist.pkgwrite-stamp: $install_stamp_targets\n"; my $targets = $package->{targets}; my %MADE_DIRS = (); for my $target (@$targets) { my $suffix = ''; my $pname = $target->{package_name}; # Move file from the build area to a target directory. my $files = $target->{files}; # figure out the target's build's directory name. my $buildname = $target->{build}->{name}; if ($buildname eq '{MAIN}') { $buildname = 'MAIN'; } # find the string to suffix makefile targets with. if ($target->{name} ne '{MAIN}') { $suffix = "-" . $target->{name}; } for my $pattern (@$files) { my $dir = $pattern; my $cp_command = 'cp -dp'; $cp_command = 'cp -dpr' if $dir =~ s,/$,,; # Are there any wild-cards in the directory part # of the pattern: they will require a different # strategy. if ($pattern =~ /.*[\?\*].*\/.*/) { print RULES "\tset -e ; (cd debian/INSTALLS/$buildname ; tar cf - ./$pattern) | ( cd debian/TARGETS/$pname ; tar xf -)\n"; next; } $dir =~ s,/[^/]+$,,; maybe_print_make_dirs (\%MADE_DIRS, 'RULES', "debian/TARGETS/$pname/$dir"); print RULES "\t$cp_command debian/INSTALLS/$buildname/$pattern debian/TARGETS/$pname/$dir\n"; } my $manpages = $target->{manpages}; for my $manpage (@$manpages) { my $section = get_manpage_section ($manpage); maybe_print_make_dirs (\%MADE_DIRS, 'RULES', "debian/TARGETS/$pname/usr/share/man/man$section"); my $syspath = "usr/share/man/man$section/$manpage"; print RULES "\tgzip -9 -c < debian/INSTALLS/$buildname/$syspath > debian/TARGETS/$pname/$syspath.gz\n"; } my $inst_doc_dir = "debian/INSTALLS/$buildname/usr/share/doc"; my $target_doc_dir = "debian/TARGETS/$pname/usr/share/doc"; $target_doc_dir .= "/" . $target->{package_name}; maybe_print_make_dirs (\%MADE_DIRS, 'RULES', $target_doc_dir); copy_docs ('RULES', "debian/INSTALLS/$buildname", $target->{installed_docs}, $target_doc_dir); copy_docs ('RULES', ".", $target->{source_docs}, $target_doc_dir); # Copy the Changelog, if any, and add it to the list # of files for this target. print RULES "\tgzip -9 -c < debian/changelog > ", "$target_doc_dir/", $package->{changelog_file}, "\n"; $binary_package_targets .= " binary-package-target$suffix"; } print RULES "\ttouch target-dist.pkgwrite-stamp\n"; print RULES "\trm -f $binary_package_targets\n"; print RULES "\n\n"; print RULES '#', ('='x69), "\n", "# Methods for creating binary packages.\n", '#', ('='x69), "\n"; # I don't think there's ever any reason to build # the arch-indep files separately, but someday we # might conceivable support a Platform-Independent flag # for builds; then they could be placed here. print RULES "# Build architecture-independent files here.\n", "binary-indep:\n", "\ttrue\n\n"; print RULES "# Build architecture-dependent files here.\n"; for my $target (@$targets) { my $pname = $target->{package_name}; my $build = $target->{build}; $pname = 'MAIN' if $pname eq '{MAIN}'; my $lcpname = lc($pname); my $suffix = ''; $suffix = ("-" . $target->{name}) if ($target->{name} ne '{MAIN}'); # build this binary package. print RULES <<"EOF"; binary-package-target$suffix: binary-package-target$suffix.pkgwrite-stamp binary-package-target$suffix.pkgwrite-stamp: target-dist.pkgwrite-stamp # Compose DEBIAN directory (in debian/TARGETS/$pname) test -d debian/TARGETS/$pname/DEBIAN || mkdir debian/TARGETS/$pname/DEBIAN chmod o-w debian/TARGETS/$pname/DEBIAN dpkg-gencontrol -p$lcpname -Pdebian/TARGETS/$pname EOF my $ddata = $target->{debian_data}; # copy various worker scripts into the DEBIAN directory. for my $variant (qw(preinst postinst prerm postrm)) { if (defined ($ddata->{"needs_" . $variant})) { my $script = $target->{package_name} . ".$variant"; print RULES "\tcp debian/$script debian/TARGETS/$pname/DEBIAN\n"; print RULES "\tchmod +x debian/TARGETS/$pname/DEBIAN/$script\n"; } } print RULES <<"EOF"; # Build the package. dpkg-deb --build debian/TARGETS/$pname .. touch binary-package-target$suffix.pkgwrite-stamp EOF } print RULES "# Debian standard targets.\n"; print RULES "binary-package: $binary_package_targets\n"; print RULES "binary-arch: $binary_package_targets\n"; print RULES "binary: binary-indep binary-arch\n\n"; print RULES "# these files may not be created by targets of their name.\n"; print RULES ".PHONY: build clean binary-indep binary-arch binary\n"; print RULES ".PHONY:$binary_package_targets\n"; print RULES ".PHONY:$install_targets\n"; close (RULES); chmod (0755, $fname) or die "could not make `$fname' executable: $!"; } sub make_debian_description($) { my @new_desc = (); my $old_desc = $_[0]; for (split /\n/, $old_desc) { if (/^\S/) { push @new_desc, " $_" } elsif (/\S/) { push @new_desc, $_ } else { push @new_desc, " ." } } return join ("\n", @new_desc); } sub make_debian_directory($$) { my ($package, $source_dir) = @_; my $output_dir = "$source_dir/debian"; mkdir("$output_dir", 0755) or die "couldn't make the directory `$output_dir': $!"; # --- Create control file --- open CONTROL, ">$output_dir/control" or die "couldn't create control file"; write_entries ('CONTROL', $package, [qw(Source Section Priority)], [qw(lcname section priority)]); if (defined($package->{authors})) { my $author0 = $package->{authors}->[0]; print CONTROL "Maintainer: $author0\n"; } print CONTROL "Standards-Version: 3.0.1\n\n"; my $targets = $package->{targets}; for my $target (@$targets) { my $target_name = $target->{package_name}; my $deb_description; if (defined($target->{description})) { $deb_description = make_debian_description ($target->{description}); } else { $deb_description = make_debian_description ($package->{description}); } my $target_arch = 'any'; $target_arch = 'all' if $target->{arch_indep}; print CONTROL "Package: " . lc($target_name) . "\n", "Architecture: ", ($target->{arch_indep} ? "all" : "any"), "\n"; my $depends = $target->{depends}; print CONTROL "Depends: $depends\n" if defined $depends; my $conflicts = $target->{conflicts}; print CONTROL "Conflicts: $conflicts\n" if defined $conflicts; print CONTROL "Description: $deb_description\n\n"; } close CONTROL; for my $target (@$targets) { my $target_name = $target->{package_name}; my $subname_dot; if ($target->{name} eq '{MAIN}') { $subname_dot = ""; } else { $subname_dot = "$target_name."; } # Create the list of all installed files (including docs). my $list = $target->{files}; my $docdir = "/usr/share/doc/" . $target->{package_name}; $list = [] unless defined $list; my @files = ( @$list, debian_docs_from_list ($target->{source_docs}), debian_docs_from_list ($target->{installed_docs}), "$docdir/" . $package->{changelog_file} ); # --- Create the .files files --- write_list_to_file (\@files, "$output_dir/$target_name.files"); if (defined $target->{conffiles}) { # --- Create the .conffile files --- write_list_to_file ($target->{conffiles}, "$output_dir/$target_name.conffiles"); } # --- If ldconfig is needed, create .prerm and .postinst files. --- # XXX: i gotta learn if prerm is really correct. if ($target->{needs_ldconfig}) { my $do_ldconfig_script = <<'EOF'; #! /bin/sh if test -x /sbin/ldconfig ; then /sbin/ldconfig else ldconfig fi EOF make_file ("$output_dir/$target_name.postinst", $do_ldconfig_script); make_file ("$output_dir/$target_name.prerm", $do_ldconfig_script); $target->{debian_data}->{needs_prerm} = 1; $target->{debian_data}->{needs_postinst} = 1; } } my $prefab_entry; { my $package_name = $package->{name}; my $version = $package->{version}; my $release = $package->{release}; my $packager = $package->{packager}; my $packager_email = $package->{packager_email}; my $date = `date -R` ; chomp ($date); die unless defined $package_name; die unless defined $version; die unless defined $release; die unless defined $packager; die unless defined $packager_email; $prefab_entry = "$package_name ($version-$release) $debian_dist; urgency=low\n\n" . " * packaged by pkgwrite\n" . "\n" . " -- $packager <$packager_email> $date\n"; } $changelog = $package->{changelog}; if (defined($changelog)) { $changelog = "$source_dir/$changelog"; my $cp = changelog_parser_new ($changelog); die "couldn't read $changelog" unless defined $cp; my $got_first = 0; open OCL, ">$output_dir/changelog" or die "couldn't create changelog"; while (changelog_parser_advance ($cp)) { # Verify that the changelog matches package/version. unless ($got_first) { if ($cp->{package} ne $package->{name}) { die "package name from changelog (" . $cp->{package} . ") " . "and according to the pkgwriteinfo " . "(" . $package->{name} . ")" . " do not match!"; } my $ver = $package->{version} . '-' . $package->{release}; if ($cp->{version} ne $ver) { if ($strict_changelog_checking) { die "package version in changelog (".$cp->{version}.")" . " and in pkgwriteinfo file ($ver) do not match!"; } else { print OCL $prefab_entry; } } $got_first = 1; } changelog_write_debian_style ($cp, 'OCL'); } close OCL; changelog_parser_destroy ($cp); } else { make_file ("$output_dir/changelog", $prefab_entry); } # --- Create rules file --- write_rules_file ("$output_dir/rules", $package); } #===================================================================== # Section 7: Make a package from a tarball. #===================================================================== sub make_package($$$$$) { my ($package, $tarball, $vendor, $arch, $output_dir) = @_; my $workdir = get_work_dir (); chdir ($workdir) or die "couldn't cd $workdir"; # Assert: Various paths cannot be relative. die unless $tarball =~ m,^/,; die unless $output_dir =~ m,^/,; # Make the packages. if ($vendor eq 'redhat') { my $rhdir = "$workdir/redhat"; my @rpm_commands = make_redhat_dir ($package, $rhdir, $tarball, $arch); chdir "$rhdir" or die "couldn't cd to $rhdir"; for my $rpm_command (@rpm_commands) { run ("$rpm_command"); } my $rpmdir = "$workdir/redhat/rpm-tmp/usr/src/redhat"; run ("cp $rpmdir/SRPMS/*.rpm $rpmdir/RPMS/*.rpm $output_dir"); } elsif ($vendor eq 'debian') { my $ddir = "$workdir/debian"; mkdir ($ddir, 0775) or die "couldn't make the directory $ddir"; # Untar. chdir ($ddir) or die "couldn't cd to $ddir"; run ("zcat $tarball | tar xf -"); # Make the packaging directory. my $dir; $dir = "$ddir/" . $package->{name} . '-' . $package->{version}; make_debian_directory ($package, "$dir"); chdir ($dir) or die "couldn't cd to $dir"; run ("cd $dir && dpkg-buildpackage -rfakeroot -uc -us"); run ("mv $ddir/*.deb $output_dir"); my $dprefix = $package->{name} . "_" . $package->{version} . "-" . $package->{release}; # Move the debian source package. run ("mv $ddir/$dprefix.tar.gz $output_dir"); run ("mv $ddir/$dprefix*.changes $output_dir"); run ("mv $ddir/$dprefix*.dsc $output_dir"); } else { die "i can only make `redhat' and `debian' packages"; } } #===================================================================== # Section 8: Usage message. #===================================================================== sub usage { print STDERR <<"EOF"; usage: pkgwrite (--tarball=TARBALL | --srcdir=SRCDIR) [--pkgwriteinfo-file=pkgwriteinfo] [--no-cleanup] [--no-strict-changelog] [--debian-dist=DIST] --format=(redhat|debian|all) --output=OUTPUT --arch=ARCH Make either redhat or debian packages for source code and a pkgwriteinfo file. (Run pkgwrite --extra-help for unusual command-line flags.) EOF print STDERR "The system supports .rpm building.\n" if $has_rpm_support; print STDERR "The system supports .deb building.\n" if $has_dpkg_support; exit (1); } sub extra_usage { print STDERR <<"EOF"; usage: pkgwrite [flags] Querying hardcoded lists of values in pkgwrite: pkgwrite --query-list={deb-sections,rpm-groups,deb-priorities} EOF exit (1); } sub version { print "This is pkgwrite, version $PKGWRITE_VERSION.\n"; exit 0; } #===================================================================== # Section 9: Main program. #===================================================================== my $pkg_tarball; my $pkg_sourcedir; my $pkgwriteinfo_file; my $pkg_format; my $pkg_arch; my $output_dir; # --- Process arguments --- while (defined($arg=shift(@ARGV))) { # Arguments that cause us to print something and exit. if ($arg eq '--help') { usage () } if ($arg eq '--extra-help') { extra_usage () } if ($arg eq '--version') { version () } if ($arg =~ s/--query-list=//) { dump_list ($arg); } # Other flags. if ($arg eq '--no-strict-changelog') { $strict_changelog_checking = 0; } elsif ($arg eq '--skip-sanity-check') { $do_sanity_check = 0; } elsif ($arg eq '--no-cleanup') { $do_cleanup = 0; } elsif ($arg =~ s/--tarball=//) { $pkg_tarball = $arg; } elsif ($arg =~ s/--source-dir=//) { $pkg_sourcedir = $arg; } elsif ($arg =~ s/--output=//) { $output_dir = $arg; } elsif ($arg =~ s/--pkgwriteinfo-file=//){ $pkgwriteinfo_file = $arg; } elsif ($arg =~ s/--debian-dist=//) { $debian_dist = $arg; } elsif ($arg =~ s/--arch=//) { $pkg_arch = $arg; } elsif ($arg =~ s/--format=//) { $pkg_format = $arg; } elsif (($arg eq '--tarball') || ($arg eq '--source-dir') || ($arg eq '--output') || ($arg eq '--pkgwriteinfo-file') || ($arg eq '--format') || ($arg eq '--arch') || ($arg eq '--debian-dist') || ($arg eq '--query-list')) { my $newarg = shift(@ARGV); die "$arg requires a parameter" unless defined $newarg; if ($arg eq '--tarball') { $pkg_tarball = $newarg; } elsif ($arg eq '--source-dir') { $pkg_sourcedir = $newarg; } elsif ($arg eq '--pkgwriteinfo-file'){ $pkgwriteinfo_file = $newarg; } elsif ($arg eq '--output') { $output_dir = $newarg; } elsif ($arg eq '--arch') { $pkg_arch = $newarg; } elsif ($arg eq '--debian-dist') { $debian_dist = $newarg; } elsif ($arg eq '--format') { $pkg_format = $newarg; } elsif ($arg eq '--query-list') { dump_list ($newarg); } else { die "internal error" } } else { warn "unrecognized argument: $arg"; usage (); } } unless (defined($pkg_tarball) || defined($pkg_sourcedir)) { die "either --tarball or --source-dir must be specified" } unless (defined ($pkg_format)) { die "--format must be specified"; } unless (defined ($output_dir)) { die "--output must be specified"; } unless (defined ($pkg_arch)) { die "--arch must be specified"; } if ($pkg_format ne 'all' && $pkg_format ne 'debian' && $pkg_format ne 'redhat') { my $valid = join (', ', qw(all debian redhat)); die "format `$pkg_format' was invalid: only $valid are known"; } if (($pkg_format eq 'all' || $pkg_format eq 'redhat') && !$has_rpm_support) { die "cannot make RPMs on this system"; } if (($pkg_format eq 'all' || $pkg_format eq 'debian') && !$has_dpkg_support) { die "cannot make Debian packages on this system"; } # Make all paths absolute. # # We are about to `chdir' all over the place. # While technically `make_absolute' is cheesy # (b/c eg it doesn't work if `pwd` has been deleted), # it least it works in practice, # and makes the programming much easier. if (defined($pkg_tarball)) { $pkg_tarball = make_absolute ($pkg_tarball) } if (defined($pkg_sourcedir)) { $pkg_sourcedir = make_absolute ($pkg_sourcedir) } if (defined($pkgwriteinfo_file)) { $pkgwriteinfo_file = make_absolute ($pkgwriteinfo_file) } if (defined($output_dir)) { $output_dir = make_absolute ($output_dir); run ("mkdir -p $output_dir"); } if (defined($debian_changelog)) { $debian_changelog = make_absolute ($debian_changelog) } # Create pkgwriteinfo_file if necessary. if (!defined($pkgwriteinfo_file)) { # Build a temporary working area to monkey with the source code. my $workdir = get_work_dir (); my $edir = "$workdir/pkgwriteinfo-tmp-extract"; mkdir ($edir, 0755) or die; my $tmp_source_dir; # Extract the source code, to (hopefully) find a pkgwriteinfo{,.in} file. if (defined($pkg_tarball)) { run ("cd $edir ; $gunzip < $pkg_tarball | tar xf -"); # find the tmp source directory inside $edir. opendir X, "$edir" or die "error scanning $edir"; for (readdir X) { next if $_ eq '.'; next if $_ eq '..'; next unless -d "$edir/$_"; $tmp_source_dir = "$edir/$_"; last; } closedir X; } else { $tmp_source_dir = $pkg_sourcedir; } die "could not find directory in tarball" unless defined $tmp_source_dir; # If there isn't a pkgwriteinfo file, try running configure. if (!-e "$tmp_source_dir/pkgwriteinfo") { if (-e "$tmp_source_dir/pkgwriteinfo.in") { if (! -x "$tmp_source_dir/configure") { # Uh, maybe `bootstrap' or `autogen.sh' will help? if (-x "$tmp_source_dir/bootstrap") { run ("cd $tmp_source_dir; ./bootstrap"); run ("cd $tmp_source_dir; ./configure --quiet"); } elsif (-x "$tmp_source_dir/autogen.sh") { run ("cd $tmp_source_dir; ./autogen.sh --quiet"); } } else { # Excellent: configure it. run ("cd $tmp_source_dir; ./configure --quiet"); } unless (-e "$tmp_source_dir/pkgwriteinfo.in") { warn "pkgwriteinfo is probably needed in AC_OUTPUT"; } } else { die "could not find pkgwriteinfo{.in} in the tarball"; } } # If there isn't a pkgwriteinfo file, it's an error. if (!-e "$tmp_source_dir/pkgwriteinfo") { die "couldn't make pkgwriteinfo file"; } # Copy the pkgwriteinfo file about and remove $edir. $pkgwriteinfo_file = "$workdir/pkgwriteinfo"; run ("cp $tmp_source_dir/pkgwriteinfo $pkgwriteinfo_file"); run ("rm -rf $edir"); } # --- Build the package(s) --- my $package = parse_pkgwriteinfo_file ($pkgwriteinfo_file); die "couldn't parse package from $pkgwriteinfo_file" unless defined $package; # Sanity check the package. sanity_check_package ($package) if ($do_sanity_check); $package->{package_tarball} = $pkg_tarball; $package->{package_source_dir} = $pkg_sourcedir; # Produce a list of formats. my @format_list; if ($pkg_format eq 'all') { @format_list = qw(debian redhat) } else { @format_list = ( $pkg_format ); } # Make all the desired formats. for my $format (@format_list) { make_package ($package, $pkg_tarball, $format, $pkg_arch, $output_dir); } # Clean up. remove_work_dir (); exit (0); # --- Miscellaneous "main" helper functions --- # dump_table: Print the values of a hash-table reference to standard-output. sub dump_table ($) { my $table = $_[0]; for (sort keys %$table) { print $table->{$_}, "\n"; } exit (0); } # dump_list: dump one of the standard builtin hashtables to standard output. sub dump_list ($) { my $list = $_[0]; if ($list eq 'deb-sections') { dump_table (\%DPKG_SECTIONS); } elsif ($list eq 'deb-priorities') { dump_table (\%DPKG_PRIORITY_LEVELS); } elsif ($list eq 'rpm-groups') { dump_table (\%RPM_GROUPS); } else { die "unknown list to dump (to --query-list): $list" } } #===================================================================== # Section 10: POD Documention. #===================================================================== =pod =head1 NAME pkgwrite - Make RedHat and Debian packages from the same source. =head1 SYNOPSIS pkgwrite (--tarball=TARBALL | --srcdir=SRCDIR) \ [--pkgwriteinfo-file=pkgwriteinfo] \ --arch=ARCH \ --format={redhat,debian} [options] pkgwrite --query-list=LISTNAME =head1 DESCRIPTION pkgwrite takes a standard automake package, either from a source directory or from a distributed tarball, and a C input file and makes either RedHat or Debian packages. The actual package source code must be specified either by directory (using --srcdir) or from a tarball created with `make dist' (using --tarball). Additional packaging information is taken from pkgwriteinfo. If --pkgwriteinfo-file is omitted, pkgwriteinfo from the source directory or tarball is taken instead. (after configure is run, so you might generally use a pkgwriteinfo.in). There are a few command-line parameters which affect the package-making: =over 4 =item --no-strict-changelog Don't force the user's changelog and pkgwriteinfo file to have the same version. (If the packaging system requires that the changelog's latest entry be equal to the package's version, then pkgwrite will generate a changelog entry. This happens under Debian.) =item --no-cleanup Don't remove the temporary directory (which will be C). Useful for debugging. =item --debian-dist=DIST Generate packaging for the given debian distribution: this mostly affects the changelog so setting DIST to C or C is recommended. =item --skip-sanity-check Disable the usual checks that the package is valid. The package may still partially work, even if a sanity-check would normally fail. =back =head1 TERMINOLOGY =over 4 =item package A family of packages for various distributions which all come from one tarball and one pkgwriteinfo file. =item build A compilation of the source code into binaries. Some packages require multiple builds, for example, to make debugging and nondebugging versions of a libraries. Normally you just use the C<{MAIN}> build. =item target A single set of installed files in a package. Simple packages only have a single target C<{MAIN}> because the package is an all-or-nothing proposition. Some packages contain many parts, not all applicable to all users. These packages should be broken in to different targets. For example, a client/server based application might be conveniently packaged C, C, C. That way, users without X can use the curses version without installing gtk+, often the clients and servers are run exclusively on different machines, so installing both is a waste of disk space. =back The resulting system-dependent binary's name is just the main C name if the C is C<{MAIN}>; otherwise it will be the C and C separated by a hyphen (C<->). =head1 MAINTAINING CHANGELOGS We recommend that you maintain a changelog in debian format, here is an example: gdam (0.934-1) unstable; urgency=low * many bug fixes * split into many packages -- David Benson Wed, 17 Jan 2000 13:09:36 -0800 (No spaces for each version banner; 2 spaces on each bullet; 1 space before the packager byline.) If you don't maintain a changelog, we will generate a changelog with just this version of the package in it. You should specify the changelog using the C directive. =head1 EXAMPLES Here are a few examples of common types of packages. The pkgwrite distribution includes these packages inside the C directory. =head2 EXAMPLE: SINGLE-TARGET PACKAGE The most common type of package has one set of files it installs or uninstalls: there are no packaged bits or pieces. (A Target in pkgwrite terminology is the installed set of files.) Here is the pkgwrite file from the single-target example included with the pkgwrite distribution: Package: aa Section: text Group: Applications/Text Priority: low Home-Page: NONE Source-Url: NONE Author: David Benson Version: 0.0.8 Release: 1 Synopsis: test package aa Packager: daveb Packager-Email: daveb@ffem.org License: NONE Description: test package (aa). Build: {MAIN} Target: {MAIN} Files: /usr/bin/dummy-* Synopsis: test a (single-target package) This package's name is C; this file will produce a binary RPM named C. =over 4 =item * we wanted to name this C, but debian packages must be at least two letters. =item * $ARCH is the target architecture, for example C, C, or C. =item * The Target C<{MAIN}> is special, it means "don't use any suffix" -- the package's name is to be C. For any other Target line, if STRING was specified, the resulting RPM or deb would have the name C. =item * Each wildcard from Files lines describe a file or files to move into that target. =item * Unlisted files will not wind up in any binary package. =back =head2 EXAMPLE: MULTI-TARGET PACKAGE A multi-target, single-build package is a package that need only be compiled once, but which must be separated into several system packages, because the targets appeal to different users or have different dependencies. Here is the pkgwriteinfo file from the example multi-target single-build package: Package: bb Section: text Group: Applications/Text Priority: low Home-Page: NONE Source-Url: NONE Author: David Benson Version: 0.0 Release: 1 Synopsis: test package bb Packager: daveb Packager-Email: daveb@ffem.org License: NONE Description: test package (bb). Build: {MAIN} Target: a Files: /usr/bin/bb-a Synopsis: part a of package bb Description: whatever (bb-a) Target: b Files: /usr/bin/bb-b Synopsis: part b of package bb Description: whatever (bb-b) In this package, only a single default Build: is required. Some packages may require the C or C fields in order to compile correctly. By default, all the targets use the C<{MAIN}> Build. Then each package contains a default file list, a description and a synopsis. =head2 EXAMPLE: MULTI-BUILD PACKAGE The most complex type of package must be built multiple times, with different configure or make flags. Each target must then refer to the build from which it was produced, using the C field (the default is C<{MAIN}>). Here is the example of such a package from the C distribution: Package: cc Section: text Group: Applications/Text Priority: low Home-Page: NONE Source-Url: NONE Author: David Benson Version: 0.0 Release: 1 Synopsis: test package cc Packager: daveb Packager-Email: daveb@ffem.org License: NONE Description: test package (cc). Build: nond Configure-Flags: --program-suffix=-nondebug Build: d Configure-Flags: --program-suffix=-debug Target: nondebug Which-Build: nond Files: /usr/bin/test-nondebug Synopsis: nondebug package cc Description: whatever (cc-nondebug) Target: debug Which-Build: d Files: /usr/bin/test-debug Synopsis: debug package cc Description: whatever (cc-debug) Each Build section corresponds to a complete configure, build, install phase. In this package, the C build just wants configure to be run configure --program-suffix=-nondebug ... whereas for the C build, configure --program-suffix=-debug ... (Note that the ... will be somewhat different from distribution to distribution) Also, it is often convenient to use the same names for the builds and the targets. We would rename C as C and C as C if this were a real package -- we did this to discuss it more conveniently. It is perfectly possible to have more than one Target pointing to the same Build, just as multi-target single-build packages do. But the opposite is not allowed: a Target must specify exactly one Build. =head1 HARDCODED VALUES Many lists and values are hardcoded into pkgwrite. You may query these lists through the --query-list flag. Here are the lists you may obtain in this manner: =over 4 =item deb-sections Known allowed Section: fields for debian packages. =item rpm-groups Known allowed Group: fields for redhat packages. =item deb-priority Known allowed Priority: fields for debian packages. =back For example to get a list of allowed values for the Section: field, use C. =head1 PKGWRITE'S pkgwriteinfo FORMAT This (long) section describes the file that describes the targets to build from a tarball. This description file is called a C file. The C file consists of one package description part, then a number of Build sections, then a number of Target sections. =head2 PER-PACKAGE INFO The package file should begin with a section that describes the overall source code of the package: Package: gdam Section: sound Group: Multimedia/Sound Priority: optional Home-Page: http://ffem.org/gdam Source-Url: http://ffem.org/gdam/downloads/gdam-0.0.930.tar.gz Version: 0.0.930 Release: 1 Author: David Benson Here is a description of each allowed field: =over 4 =item Package Name of the source package. =item Output-Package Sometimes, all packages from a tarball use a somewhat different name than the tarball itself. This is used as a bit of a hack to support co-installation of multiple versions of a package. This is like gtk, which has gtk1.2 and gtk2.0 packages, which can be installed concurrently. =item Version The version number given to this version of the package by its maintainer. =item Release Increment this each time a new package is released without a corresponding upstream version-number change. =item Section The debian section this package belongs in. =item Group The redhat group this package belongs in. =item Priority Priority of this package (debian-style). =item Home-Page A URL giving the home page for this package or project. =item Source-Url A URL describing how to download this package. =item Author An author of this package, with email optional. =item Synopsis Under one line summary of this target. =item Description Multiple-line description of this target. =item Packager Full name of the person who made this packaging. =item Packager-Email Email address at which to reach the packager. =item Changelog Specify the location of a Debian format changelog to include with the package (it will be converted to another standard format, if needed) =item Upstream-is-Packager Whether the packager (the person running C) is the same as the upstream maintainer of a package. Right now, this only affects the filename used for the changelog, it will either be C if they are the same person, or C if they are not. =back =head2 PER-TARGET INFO For each output binary package there must be a "target" section: Target: xmms-plugins Depends: gdam-clients-gtk, gdam-server, xmms Synopsis: GDAM XMMS plugin support Description: use XMMS visualization plugins with GDAM. Files: /usr/bin/gdamxmmsvishelper =over 4 =item Target Name of this target. The name of the package that results will be prepended with SOURCE-; in this example the package's name is C. =item Platform-Independent Set this to C if this package will be installable on any architecture (it contains no system-specific or compiled code). Set this to C for packages containing compiled, architecture-specific binaries. =item Depends Debian-formatted dependency lists for this package. =item Redhat-Requires Specify the redhat packages that this one depends on. (We will try to compute this from the C lines by default; this is just in case we cannot guess correctly.) =item Conflicts Debian-formatted list of packages that conflict with this one. =item Redhat-Conflicts Redhat-formatted list of packages that conflict with this one. Computed from C by default. =item Synopsis Under one line summary of this target. =item Man-Page The basename of a man page, for example C. It will automatically be installed into the correct section directory based on its extension. =item Doc Miscellaneous documentation. Each path is assumed to be inside the installed area. It will be always be copied into the distribution's documentation area, and it will be gzip'd if that is needed. Also, whole directories will be recursively copied, if the entry ends with a /, for example, Doc: /usr/share/doc/gdam/example-configs/ =item Source-Doc Miscellaneous documentation that is not normally installed by this package's makefile: These must be files directly from the distributed tarball. They will be always be copied into the distribution's documentation area and will be gzip'd if that is needed. Whole directories will be recursively copied, if the entry ends with a /. =item Description Multiple-line description of this target. =item Which-Build Name of the build whose files should be used. (Defaults to C<{MAIN}>). =item Files A wildcard matching ordinary files to be distributed with this target. =back =head2 PER-BUILD INFO =over 4 =item Build The name of this build. The default build should be named C<{MAIN}>. =item Configure-Flags Options to be passed to the C script. =item Configure-Envars Space-separated environment variables to add when configuring. =item Make-Flags Extra parameters to the C program during both the build and the install phase. =item Build-Flags Extra parameters to the C program during just the build phase. =item Install-Flags Extra parameters to the C program during just the install phase. =item Extra-Build-Targets Another C target that is necessary to build the package, that is not run by the default target. This must not require root priviledges. (You may specify any number of C lines.) =item Extra-Install-Targets Another C target that is necessary to install the package, that is not run by the default target. On Debian systems, these commands may require root or fakeroot. (You may specify any number of C lines.) =back =head1 DEBUGGING If you have problems, here are some hints: =over 4 =item * If you are familiar with one of the packaging systems (Redhat or Debian) that is not working, try building that with either the C<--no-cleanup> flag or equivalently have the C environment variable set to C<0>. (You can find the directory where work was done by running: C) =item * Otherwise, redirect the output to a log file and read the whole thing. Some packaging systems output a log of messages even after a fatal error. =item * Then, try and cut out pieces of the C file until you locate the problem. Report a bug if the problem is clear. =back =head1 COMMON PROBLEMS Here are some trivial mistakes made often: =over 4 =item * C is generated by C from C. It is easy to forget to rerun C and very slow. I don't know of any easy solution to forgetting at the moment, but you may just run C instead, in order save time. =back =head1 RELEASING PACKAGES Of course, you can and should work however you want, but for your information, I will write the testing process I use for releasing packages. I always make C packages that use C inside the tarball. It is important to note that my packages always support C and C using C, and that these targets only C if the tarball isn't present! =over 4 =item 1 Check out the package from CVS. Then either use whichever bootstrap script is provided: my recent packages use C (as recommended by the C authors), but many packages use C<./autogen.sh>, which traditionally also runs C<./configure>. If you used C, you will need to run C<./configure>. Then make the tarball using C. =item 2 On a RedHat machine and a Debian machine, untar the tarball and copy that same tarball into the PACKAGE-VERSION directory that was created. (This way, the exact same tarball will be reused). =item 3 On each system, run C<./configure>, then C and C, respectively. =item 4 Copy all the returned packages, the C tarball, into a directory which you will upload. =item 5 Test install those packages on machines. I also inspect them with the following commands: System| RedHat Debian Action | --------------+------------------------------------------------ List of files | rpm -qpl *.rpm dpkg-deb -c *.deb General data | rpm -qpi *.rpm dpkg-deb -e *.deb =back =head1 EXAMPLE AUTOMAKE FILES TODO =head1 AUTHOR Written by Dave Benson . =cut protobuf-c-0.15/scripts/.svn/props/0000777000175000017500000000000011332660134014241 500000000000000protobuf-c-0.15/scripts/.svn/entries0000444000175000017500000000102711536221040014377 0000000000000010 dir 276 https://protobuf-c.googlecode.com/svn/trunk/scripts https://protobuf-c.googlecode.com/svn 2010-09-17T14:17:41.941478Z 262 lahiker42 00440858-1255-0410-a3e6-75ea37f81c3a get-structure-packing-info file 2010-11-01T18:36:30.000000Z 4411df76ff57102b8682b67031e2dca9 2010-09-17T14:17:41.941478Z 262 lahiker42 has-props 3959 pkgwrite file 2010-02-05T00:03:40.000000Z 9a3ceb82a591135495732d28da1576ee 2008-10-01T00:29:30.708337Z 69 lahiker42 has-props 106067 protobuf-c-0.15/ChangeLog0000644000175000017500000001154011536220743012216 000000000000000.15: - make protobuf_c_message_init() into a function (Issue #49, daveb) - Fix for freeing memory after unpacking bytes w/o a default-value. (Andrei Nigmatulin) - minor windows portability issues (use ProtobufC_FD) (Pop Stelian) - --with-endianness={little,big} (Pop Stelian) - bug setting up values of has_idle in public dispatch, make protobuf_c_dispatch_run() use only public members (daveb) - provide cmake support and some Windows compatibility (Nikita Manovich) 0.14: - build fix (missing dependency in test directory) - add generation / installation of pkg-config files. (Bobby Powers) - support for packed repeated fields (Dave Benson) - bug in protobuf_c_dispatch_close_fd(), which usually only showed up in later function calls. - support for deprecated fields -- enable a GCC warning if a field has the "deprecated" option enabled. (Andrei Nigmatulin) - hackery to try to avoid touching inttypes.h on windows (Issue #41) - fix for protobuf_c_message_unpack() to issue error if any "required" field is missing in input stream. (Andrei Nigmatulin) 0.13: - Fix for when the number of connections gets too great in RPC. (Leszek Swirski) (issue #32) - Add --disable-protoc to only build libprotobuf-c (daveb) - Bug fixes for protobuf_c_enum_descriptor_get_value_by_name() and protobuf_c_service_descriptor_get_method_by_name() - if descriptor->message_init != NULL, use it from unpack() as an optimization (daveb) - implement protobuf_c_{client,server}_set_error_handler() 0.12: - for field names which are reserved words, use the real name given in the protobuf-c file, not the mangled name which is the name of the member in the C structure. (Andrei Nigmatulin) - add protobuf_c_message_init() function; add virtual function that implements it efficiently. (Andrei Nigmatulin) - bug fix for sfixed32, fixed32, float wire-types on big-endian platforms (Robert Edmonds) - compile with the latest protobuf (the header file wire_format_inl.h is now wire_format.h) (Robert Edmonds) 0.11: - allow CFLAGS=-DPRINT_UNPACK_ERRORS=0 to suppress unpack warnings from being printed at compile time (Andrei Nigmatulin) - give error if an unknown wire-type is encountered (Andrei Nigmatulin) - fix technically possible overflows during unpack of very large messages (Andrei Nigmatulin) - [UNFINISHED] windows RPC work - use automake's "foreign" mode from within configure.ac and add version information to the library (Robert Edmonds) - ProtobufCServiceDescriptor::method_indices_by_name: missing const. (Issue 21) - Update to support new UnknownFields API. (fix by dcreager) (Issue 20) 0.10: - build issue on platforms which don't compute library dependencies automatically. - fix for certain types of corrupt messages (Landon Fuller) (issue 16) 0.9: - build issue: needed $(EXEEXT) in dependency lists for cygwin - bug fix: protobuf_c_service_get_method_by_name() was not correct b/c the service's methods were not sorted by name (the header file used to incorrectly state that they were). Now we correctly implement protobuf_c_service_get_method_by_name() (using a bsearch indexed by separate array). - generated source incompatibility: we added a new member to ProtobufCServiceDescriptor (method_indices_by_name). You will have to run the latest protobuf to generate those structures. - rename rpc-client's "autoretry" mechanism to "autoreconnect". - bug fixes using TCP clients with the RPC system. - handle allocation failures more gracefully (Jason Lunz) (issue 15) 0.8: - Destroy function typedef for Services was omitting a "*" - service_machgen_invoke was broken. (issue 12) - add RPC system (BETA) - don't segfault when packing NULL strings and messages. (issue 13) 0.7: - memory leak: unknown fields were not being freed by free_unpacked() - lowercase field names consistently when composing default_value names. (issue 11) - remove spurious semicolon (issue 10) 0.6: - Warning suppression for -Wcast-qual and -Wshadow. - Support for default values of all types allowed by core protobuf. - Generate message__init functions, for when the static initializer isn't convenient. - add some reserved fields at the end of the various descriptors 0.5: - License now included in major files. - Use little-endian optimizations; fix a bug therein. - Include 'make deb' target. 0.4: - Update to work with protobuf 2.0.1. 0.2: 0.3: - Minor pedantic concerns about generated code. 0.1: - Lots of test code (and bug fixes). 0.0: - Initial release. protobuf-c-0.15/install-sh0000755000175000017500000003246411170314110012442 00000000000000#!/bin/sh # install - install a program, script, or datafile scriptversion=2006-12-25.00 # This originates from X11R5 (mit/util/scripts/install.sh), which was # later released in X11R6 (xc/config/util/install.sh) with the # following copyright and license. # # Copyright (C) 1994 X Consortium # # 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 # X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN # AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNEC- # TION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # # Except as contained in this notice, the name of the X Consortium shall not # be used in advertising or otherwise to promote the sale, use or other deal- # ings in this Software without prior written authorization from the X Consor- # tium. # # # FSF changes to this file are in the public domain. # # Calling this script install-sh is preferred over install.sh, to prevent # `make' implicit rules from creating a file called install from it # when there is no Makefile. # # This script is compatible with the BSD install script, but was written # from scratch. nl=' ' IFS=" "" $nl" # set DOITPROG to echo to test this script # Don't use :- since 4.3BSD and earlier shells don't like it. doit=${DOITPROG-} if test -z "$doit"; then doit_exec=exec else doit_exec=$doit fi # Put in absolute file names if you don't have them in your path; # or use environment vars. chgrpprog=${CHGRPPROG-chgrp} chmodprog=${CHMODPROG-chmod} chownprog=${CHOWNPROG-chown} cmpprog=${CMPPROG-cmp} cpprog=${CPPROG-cp} mkdirprog=${MKDIRPROG-mkdir} mvprog=${MVPROG-mv} rmprog=${RMPROG-rm} stripprog=${STRIPPROG-strip} posix_glob='?' initialize_posix_glob=' test "$posix_glob" != "?" || { if (set -f) 2>/dev/null; then posix_glob= else posix_glob=: fi } ' posix_mkdir= # Desired mode of installed file. mode=0755 chgrpcmd= chmodcmd=$chmodprog chowncmd= mvcmd=$mvprog rmcmd="$rmprog -f" stripcmd= src= dst= dir_arg= dst_arg= copy_on_change=false no_target_directory= usage="\ Usage: $0 [OPTION]... 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See the # GNU General Public License for more details. # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA # 02110-1301, USA. # As a special exception to the GNU General Public License, if you # distribute this file as part of a program that contains a # configuration script generated by Autoconf, you may include it under # the same distribution terms that you use for the rest of that program. # Originally written by Alexandre Oliva . case $1 in '') echo "$0: No command. Try \`$0 --help' for more information." 1>&2 exit 1; ;; -h | --h*) cat <<\EOF Usage: depcomp [--help] [--version] PROGRAM [ARGS] Run PROGRAMS ARGS to compile a file, generating dependencies as side-effects. Environment variables: depmode Dependency tracking mode. source Source file read by `PROGRAMS ARGS'. object Object file output by `PROGRAMS ARGS'. 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*) lt_cv_deplibs_check_method='file_magic (s[[0-9]][[0-9]][[0-9]]|PA-RISC[[0-9]].[[0-9]]) shared library' lt_cv_file_magic_test_file=/usr/lib/libc.sl ;; esac ;; interix[[3-9]]*) # PIC code is broken on Interix 3.x, that's why |\.a not |_pic\.a here lt_cv_deplibs_check_method='match_pattern /lib[[^/]]+(\.so|\.a)$' ;; irix5* | irix6* | nonstopux*) case $LD in *-32|*"-32 ") libmagic=32-bit;; *-n32|*"-n32 ") libmagic=N32;; *-64|*"-64 ") libmagic=64-bit;; *) libmagic=never-match;; esac lt_cv_deplibs_check_method=pass_all ;; # This must be Linux ELF. linux* | k*bsd*-gnu) lt_cv_deplibs_check_method=pass_all ;; netbsd*) if echo __ELF__ | $CC -E - | $GREP __ELF__ > /dev/null; then lt_cv_deplibs_check_method='match_pattern /lib[[^/]]+(\.so\.[[0-9]]+\.[[0-9]]+|_pic\.a)$' else lt_cv_deplibs_check_method='match_pattern /lib[[^/]]+(\.so|_pic\.a)$' fi ;; newos6*) lt_cv_deplibs_check_method='file_magic ELF [[0-9]][[0-9]]*-bit [[ML]]SB (executable|dynamic lib)' lt_cv_file_magic_cmd=/usr/bin/file lt_cv_file_magic_test_file=/usr/lib/libnls.so ;; *nto* | *qnx*) lt_cv_deplibs_check_method=pass_all ;; openbsd*) if test -z "`echo __ELF__ | $CC -E - | $GREP __ELF__`" || test "$host_os-$host_cpu" = "openbsd2.8-powerpc"; then lt_cv_deplibs_check_method='match_pattern /lib[[^/]]+(\.so\.[[0-9]]+\.[[0-9]]+|\.so|_pic\.a)$' else lt_cv_deplibs_check_method='match_pattern /lib[[^/]]+(\.so\.[[0-9]]+\.[[0-9]]+|_pic\.a)$' fi ;; osf3* | osf4* | osf5*) lt_cv_deplibs_check_method=pass_all ;; rdos*) lt_cv_deplibs_check_method=pass_all ;; solaris*) lt_cv_deplibs_check_method=pass_all ;; sysv5* | sco3.2v5* | sco5v6* | unixware* | OpenUNIX* | sysv4*uw2*) lt_cv_deplibs_check_method=pass_all ;; sysv4 | sysv4.3*) case $host_vendor in motorola) lt_cv_deplibs_check_method='file_magic ELF [[0-9]][[0-9]]*-bit [[ML]]SB (shared object|dynamic lib) M[[0-9]][[0-9]]* Version [[0-9]]' lt_cv_file_magic_test_file=`echo /usr/lib/libc.so*` ;; ncr) lt_cv_deplibs_check_method=pass_all ;; sequent) lt_cv_file_magic_cmd='/bin/file' lt_cv_deplibs_check_method='file_magic ELF [[0-9]][[0-9]]*-bit [[LM]]SB (shared object|dynamic lib )' ;; sni) lt_cv_file_magic_cmd='/bin/file' lt_cv_deplibs_check_method="file_magic ELF [[0-9]][[0-9]]*-bit [[LM]]SB dynamic lib" lt_cv_file_magic_test_file=/lib/libc.so ;; siemens) lt_cv_deplibs_check_method=pass_all ;; pc) lt_cv_deplibs_check_method=pass_all ;; esac ;; tpf*) lt_cv_deplibs_check_method=pass_all ;; esac ]) file_magic_cmd=$lt_cv_file_magic_cmd deplibs_check_method=$lt_cv_deplibs_check_method test -z "$deplibs_check_method" && deplibs_check_method=unknown _LT_DECL([], [deplibs_check_method], [1], [Method to check whether dependent libraries are shared objects]) _LT_DECL([], [file_magic_cmd], [1], [Command to use when deplibs_check_method == "file_magic"]) ])# _LT_CHECK_MAGIC_METHOD # LT_PATH_NM # ---------- # find the pathname to a BSD- or MS-compatible name lister AC_DEFUN([LT_PATH_NM], [AC_REQUIRE([AC_PROG_CC])dnl AC_CACHE_CHECK([for BSD- or MS-compatible name lister (nm)], lt_cv_path_NM, [if test -n "$NM"; then # Let the user override the test. lt_cv_path_NM="$NM" else lt_nm_to_check="${ac_tool_prefix}nm" if test -n "$ac_tool_prefix" && test "$build" = "$host"; then lt_nm_to_check="$lt_nm_to_check nm" fi for lt_tmp_nm in $lt_nm_to_check; do lt_save_ifs="$IFS"; IFS=$PATH_SEPARATOR for ac_dir in $PATH /usr/ccs/bin/elf /usr/ccs/bin /usr/ucb /bin; do IFS="$lt_save_ifs" test -z "$ac_dir" && ac_dir=. tmp_nm="$ac_dir/$lt_tmp_nm" if test -f "$tmp_nm" || test -f "$tmp_nm$ac_exeext" ; then # Check to see if the nm accepts a BSD-compat flag. # Adding the `sed 1q' prevents false positives on HP-UX, which says: # nm: unknown option "B" ignored # Tru64's nm complains that /dev/null is an invalid object file case `"$tmp_nm" -B /dev/null 2>&1 | sed '1q'` in */dev/null* | *'Invalid file or object type'*) lt_cv_path_NM="$tmp_nm -B" break ;; *) case `"$tmp_nm" -p /dev/null 2>&1 | sed '1q'` in */dev/null*) lt_cv_path_NM="$tmp_nm -p" break ;; *) lt_cv_path_NM=${lt_cv_path_NM="$tmp_nm"} # keep the first match, but continue # so that we can try to find one that supports BSD flags ;; esac ;; esac fi done IFS="$lt_save_ifs" done : ${lt_cv_path_NM=no} fi]) if test "$lt_cv_path_NM" != "no"; then NM="$lt_cv_path_NM" else # Didn't find any BSD compatible name lister, look for dumpbin. AC_CHECK_TOOLS(DUMPBIN, ["dumpbin -symbols" "link -dump -symbols"], :) AC_SUBST([DUMPBIN]) if test "$DUMPBIN" != ":"; then NM="$DUMPBIN" fi fi test -z "$NM" && NM=nm AC_SUBST([NM]) _LT_DECL([], [NM], [1], [A BSD- or MS-compatible name lister])dnl AC_CACHE_CHECK([the name lister ($NM) interface], [lt_cv_nm_interface], [lt_cv_nm_interface="BSD nm" echo "int some_variable = 0;" > conftest.$ac_ext (eval echo "\"\$as_me:__oline__: $ac_compile\"" >&AS_MESSAGE_LOG_FD) (eval "$ac_compile" 2>conftest.err) cat conftest.err >&AS_MESSAGE_LOG_FD (eval echo "\"\$as_me:__oline__: $NM \\\"conftest.$ac_objext\\\"\"" >&AS_MESSAGE_LOG_FD) (eval "$NM \"conftest.$ac_objext\"" 2>conftest.err > conftest.out) cat conftest.err >&AS_MESSAGE_LOG_FD (eval echo "\"\$as_me:__oline__: output\"" >&AS_MESSAGE_LOG_FD) cat conftest.out >&AS_MESSAGE_LOG_FD if $GREP 'External.*some_variable' conftest.out > /dev/null; then lt_cv_nm_interface="MS dumpbin" fi rm -f conftest*]) ])# LT_PATH_NM # Old names: AU_ALIAS([AM_PROG_NM], [LT_PATH_NM]) AU_ALIAS([AC_PROG_NM], [LT_PATH_NM]) dnl aclocal-1.4 backwards compatibility: dnl AC_DEFUN([AM_PROG_NM], []) dnl AC_DEFUN([AC_PROG_NM], []) # LT_LIB_M # -------- # check for math library AC_DEFUN([LT_LIB_M], [AC_REQUIRE([AC_CANONICAL_HOST])dnl LIBM= case $host in *-*-beos* | *-*-cygwin* | *-*-pw32* | *-*-darwin*) # These system don't have libm, or don't need it ;; *-ncr-sysv4.3*) AC_CHECK_LIB(mw, _mwvalidcheckl, LIBM="-lmw") AC_CHECK_LIB(m, cos, LIBM="$LIBM -lm") ;; *) AC_CHECK_LIB(m, cos, LIBM="-lm") ;; esac AC_SUBST([LIBM]) ])# LT_LIB_M # Old name: AU_ALIAS([AC_CHECK_LIBM], [LT_LIB_M]) dnl aclocal-1.4 backwards compatibility: dnl AC_DEFUN([AC_CHECK_LIBM], []) # _LT_COMPILER_NO_RTTI([TAGNAME]) # ------------------------------- m4_defun([_LT_COMPILER_NO_RTTI], [m4_require([_LT_TAG_COMPILER])dnl _LT_TAGVAR(lt_prog_compiler_no_builtin_flag, $1)= if test "$GCC" = yes; then _LT_TAGVAR(lt_prog_compiler_no_builtin_flag, $1)=' -fno-builtin' _LT_COMPILER_OPTION([if $compiler supports -fno-rtti -fno-exceptions], lt_cv_prog_compiler_rtti_exceptions, [-fno-rtti -fno-exceptions], [], [_LT_TAGVAR(lt_prog_compiler_no_builtin_flag, $1)="$_LT_TAGVAR(lt_prog_compiler_no_builtin_flag, $1) -fno-rtti -fno-exceptions"]) fi _LT_TAGDECL([no_builtin_flag], [lt_prog_compiler_no_builtin_flag], [1], [Compiler flag to turn off builtin functions]) ])# _LT_COMPILER_NO_RTTI # _LT_CMD_GLOBAL_SYMBOLS # ---------------------- m4_defun([_LT_CMD_GLOBAL_SYMBOLS], [AC_REQUIRE([AC_CANONICAL_HOST])dnl AC_REQUIRE([AC_PROG_CC])dnl AC_REQUIRE([LT_PATH_NM])dnl AC_REQUIRE([LT_PATH_LD])dnl m4_require([_LT_DECL_SED])dnl m4_require([_LT_DECL_EGREP])dnl m4_require([_LT_TAG_COMPILER])dnl # Check for command to grab the raw symbol name followed by C symbol from nm. AC_MSG_CHECKING([command to parse $NM output from $compiler object]) AC_CACHE_VAL([lt_cv_sys_global_symbol_pipe], [ # These are sane defaults that work on at least a few old systems. # [They come from Ultrix. What could be older than Ultrix?!! ;)] # Character class describing NM global symbol codes. symcode='[[BCDEGRST]]' # Regexp to match symbols that can be accessed directly from C. sympat='\([[_A-Za-z]][[_A-Za-z0-9]]*\)' # Define system-specific variables. case $host_os in aix*) symcode='[[BCDT]]' ;; cygwin* | mingw* | pw32* | cegcc*) symcode='[[ABCDGISTW]]' ;; hpux*) if test "$host_cpu" = ia64; then symcode='[[ABCDEGRST]]' fi ;; irix* | nonstopux*) symcode='[[BCDEGRST]]' ;; osf*) symcode='[[BCDEGQRST]]' ;; solaris*) symcode='[[BDRT]]' ;; sco3.2v5*) symcode='[[DT]]' ;; sysv4.2uw2*) symcode='[[DT]]' ;; sysv5* | sco5v6* | unixware* | OpenUNIX*) symcode='[[ABDT]]' ;; sysv4) symcode='[[DFNSTU]]' ;; esac # If we're using GNU nm, then use its standard symbol codes. case `$NM -V 2>&1` in *GNU* | *'with BFD'*) symcode='[[ABCDGIRSTW]]' ;; esac # Transform an extracted symbol line into a proper C declaration. # Some systems (esp. on ia64) link data and code symbols differently, # so use this general approach. lt_cv_sys_global_symbol_to_cdecl="sed -n -e 's/^T .* \(.*\)$/extern int \1();/p' -e 's/^$symcode* .* \(.*\)$/extern char \1;/p'" # Transform an extracted symbol line into symbol name and symbol address lt_cv_sys_global_symbol_to_c_name_address="sed -n -e 's/^: \([[^ ]]*\) $/ {\\\"\1\\\", (void *) 0},/p' -e 's/^$symcode* \([[^ ]]*\) \([[^ ]]*\)$/ {\"\2\", (void *) \&\2},/p'" lt_cv_sys_global_symbol_to_c_name_address_lib_prefix="sed -n -e 's/^: \([[^ ]]*\) $/ {\\\"\1\\\", (void *) 0},/p' -e 's/^$symcode* \([[^ ]]*\) \(lib[[^ ]]*\)$/ {\"\2\", (void *) \&\2},/p' -e 's/^$symcode* \([[^ ]]*\) \([[^ ]]*\)$/ {\"lib\2\", (void *) \&\2},/p'" # Handle CRLF in mingw tool chain opt_cr= case $build_os in mingw*) opt_cr=`$ECHO 'x\{0,1\}' | tr x '\015'` # option cr in regexp ;; esac # Try without a prefix underscore, then with it. for ac_symprfx in "" "_"; do # Transform symcode, sympat, and symprfx into a raw symbol and a C symbol. symxfrm="\\1 $ac_symprfx\\2 \\2" # Write the raw and C identifiers. if test "$lt_cv_nm_interface" = "MS dumpbin"; then # Fake it for dumpbin and say T for any non-static function # and D for any global variable. # Also find C++ and __fastcall symbols from MSVC++, # which start with @ or ?. lt_cv_sys_global_symbol_pipe="$AWK ['"\ " {last_section=section; section=\$ 3};"\ " /Section length .*#relocs.*(pick any)/{hide[last_section]=1};"\ " \$ 0!~/External *\|/{next};"\ " / 0+ UNDEF /{next}; / UNDEF \([^|]\)*()/{next};"\ " {if(hide[section]) next};"\ " {f=0}; \$ 0~/\(\).*\|/{f=1}; {printf f ? \"T \" : \"D \"};"\ " {split(\$ 0, a, /\||\r/); split(a[2], s)};"\ " s[1]~/^[@?]/{print s[1], s[1]; next};"\ " s[1]~prfx {split(s[1],t,\"@\"); print t[1], substr(t[1],length(prfx))}"\ " ' prfx=^$ac_symprfx]" else lt_cv_sys_global_symbol_pipe="sed -n -e 's/^.*[[ ]]\($symcode$symcode*\)[[ ]][[ ]]*$ac_symprfx$sympat$opt_cr$/$symxfrm/p'" fi # Check to see that the pipe works correctly. pipe_works=no rm -f conftest* cat > conftest.$ac_ext <<_LT_EOF #ifdef __cplusplus extern "C" { #endif char nm_test_var; void nm_test_func(void); void nm_test_func(void){} #ifdef __cplusplus } #endif int main(){nm_test_var='a';nm_test_func();return(0);} _LT_EOF if AC_TRY_EVAL(ac_compile); then # Now try to grab the symbols. nlist=conftest.nm if AC_TRY_EVAL(NM conftest.$ac_objext \| $lt_cv_sys_global_symbol_pipe \> $nlist) && test -s "$nlist"; then # Try sorting and uniquifying the output. if sort "$nlist" | uniq > "$nlist"T; then mv -f "$nlist"T "$nlist" else rm -f "$nlist"T fi # Make sure that we snagged all the symbols we need. if $GREP ' nm_test_var$' "$nlist" >/dev/null; then if $GREP ' nm_test_func$' "$nlist" >/dev/null; then cat <<_LT_EOF > conftest.$ac_ext #ifdef __cplusplus extern "C" { #endif _LT_EOF # Now generate the symbol file. eval "$lt_cv_sys_global_symbol_to_cdecl"' < "$nlist" | $GREP -v main >> conftest.$ac_ext' cat <<_LT_EOF >> conftest.$ac_ext /* The mapping between symbol names and symbols. */ const struct { const char *name; void *address; } lt__PROGRAM__LTX_preloaded_symbols[[]] = { { "@PROGRAM@", (void *) 0 }, _LT_EOF $SED "s/^$symcode$symcode* \(.*\) \(.*\)$/ {\"\2\", (void *) \&\2},/" < "$nlist" | $GREP -v main >> conftest.$ac_ext cat <<\_LT_EOF >> conftest.$ac_ext {0, (void *) 0} }; /* This works around a problem in FreeBSD linker */ #ifdef FREEBSD_WORKAROUND static const void *lt_preloaded_setup() { return lt__PROGRAM__LTX_preloaded_symbols; } #endif #ifdef __cplusplus } #endif _LT_EOF # Now try linking the two files. mv conftest.$ac_objext conftstm.$ac_objext lt_save_LIBS="$LIBS" lt_save_CFLAGS="$CFLAGS" LIBS="conftstm.$ac_objext" CFLAGS="$CFLAGS$_LT_TAGVAR(lt_prog_compiler_no_builtin_flag, $1)" if AC_TRY_EVAL(ac_link) && test -s conftest${ac_exeext}; then pipe_works=yes fi LIBS="$lt_save_LIBS" CFLAGS="$lt_save_CFLAGS" else echo "cannot find nm_test_func in $nlist" >&AS_MESSAGE_LOG_FD fi else echo "cannot find nm_test_var in $nlist" >&AS_MESSAGE_LOG_FD fi else echo "cannot run $lt_cv_sys_global_symbol_pipe" >&AS_MESSAGE_LOG_FD fi else echo "$progname: failed program was:" >&AS_MESSAGE_LOG_FD cat conftest.$ac_ext >&5 fi rm -rf conftest* conftst* # Do not use the global_symbol_pipe unless it works. if test "$pipe_works" = yes; then break else lt_cv_sys_global_symbol_pipe= fi done ]) if test -z "$lt_cv_sys_global_symbol_pipe"; then lt_cv_sys_global_symbol_to_cdecl= fi if test -z "$lt_cv_sys_global_symbol_pipe$lt_cv_sys_global_symbol_to_cdecl"; then AC_MSG_RESULT(failed) else AC_MSG_RESULT(ok) fi _LT_DECL([global_symbol_pipe], [lt_cv_sys_global_symbol_pipe], [1], [Take the output of nm and produce a listing of raw symbols and C names]) _LT_DECL([global_symbol_to_cdecl], [lt_cv_sys_global_symbol_to_cdecl], [1], [Transform the output of nm in a proper C declaration]) _LT_DECL([global_symbol_to_c_name_address], [lt_cv_sys_global_symbol_to_c_name_address], [1], [Transform the output of nm in a C name address pair]) _LT_DECL([global_symbol_to_c_name_address_lib_prefix], [lt_cv_sys_global_symbol_to_c_name_address_lib_prefix], [1], [Transform the output of nm in a C name address pair when lib prefix is needed]) ]) # _LT_CMD_GLOBAL_SYMBOLS # _LT_COMPILER_PIC([TAGNAME]) # --------------------------- m4_defun([_LT_COMPILER_PIC], [m4_require([_LT_TAG_COMPILER])dnl _LT_TAGVAR(lt_prog_compiler_wl, $1)= _LT_TAGVAR(lt_prog_compiler_pic, $1)= _LT_TAGVAR(lt_prog_compiler_static, $1)= AC_MSG_CHECKING([for $compiler option to produce PIC]) m4_if([$1], [CXX], [ # C++ specific cases for pic, static, wl, etc. if test "$GXX" = yes; then _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_static, $1)='-static' case $host_os in aix*) # All AIX code is PIC. if test "$host_cpu" = ia64; then # AIX 5 now supports IA64 processor _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' fi ;; amigaos*) case $host_cpu in powerpc) # see comment about AmigaOS4 .so support _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC' ;; m68k) # FIXME: we need at least 68020 code to build shared libraries, but # adding the `-m68020' flag to GCC prevents building anything better, # like `-m68040'. _LT_TAGVAR(lt_prog_compiler_pic, $1)='-m68020 -resident32 -malways-restore-a4' ;; esac ;; beos* | irix5* | irix6* | nonstopux* | osf3* | osf4* | osf5*) # PIC is the default for these OSes. ;; mingw* | cygwin* | os2* | pw32* | cegcc*) # This hack is so that the source file can tell whether it is being # built for inclusion in a dll (and should export symbols for example). # Although the cygwin gcc ignores -fPIC, still need this for old-style # (--disable-auto-import) libraries m4_if([$1], [GCJ], [], [_LT_TAGVAR(lt_prog_compiler_pic, $1)='-DDLL_EXPORT']) ;; darwin* | rhapsody*) # PIC is the default on this platform # Common symbols not allowed in MH_DYLIB files _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fno-common' ;; *djgpp*) # DJGPP does not support shared libraries at all _LT_TAGVAR(lt_prog_compiler_pic, $1)= ;; interix[[3-9]]*) # Interix 3.x gcc -fpic/-fPIC options generate broken code. # Instead, we relocate shared libraries at runtime. ;; sysv4*MP*) if test -d /usr/nec; then _LT_TAGVAR(lt_prog_compiler_pic, $1)=-Kconform_pic fi ;; hpux*) # PIC is the default for 64-bit PA HP-UX, but not for 32-bit # PA HP-UX. On IA64 HP-UX, PIC is the default but the pic flag # sets the default TLS model and affects inlining. case $host_cpu in hppa*64*) ;; *) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC' ;; esac ;; *qnx* | *nto*) # QNX uses GNU C++, but need to define -shared option too, otherwise # it will coredump. _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC -shared' ;; *) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC' ;; esac else case $host_os in aix[[4-9]]*) # All AIX code is PIC. if test "$host_cpu" = ia64; then # AIX 5 now supports IA64 processor _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' else _LT_TAGVAR(lt_prog_compiler_static, $1)='-bnso -bI:/lib/syscalls.exp' fi ;; chorus*) case $cc_basename in cxch68*) # Green Hills C++ Compiler # _LT_TAGVAR(lt_prog_compiler_static, $1)="--no_auto_instantiation -u __main -u __premain -u _abort -r $COOL_DIR/lib/libOrb.a $MVME_DIR/lib/CC/libC.a $MVME_DIR/lib/classix/libcx.s.a" ;; esac ;; dgux*) case $cc_basename in ec++*) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' ;; ghcx*) # Green Hills C++ Compiler _LT_TAGVAR(lt_prog_compiler_pic, $1)='-pic' ;; *) ;; esac ;; freebsd* | dragonfly*) # FreeBSD uses GNU C++ ;; hpux9* | hpux10* | hpux11*) case $cc_basename in CC*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_static, $1)='${wl}-a ${wl}archive' if test "$host_cpu" != ia64; then _LT_TAGVAR(lt_prog_compiler_pic, $1)='+Z' fi ;; aCC*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_static, $1)='${wl}-a ${wl}archive' case $host_cpu in hppa*64*|ia64*) # +Z the default ;; *) _LT_TAGVAR(lt_prog_compiler_pic, $1)='+Z' ;; esac ;; *) ;; esac ;; interix*) # This is c89, which is MS Visual C++ (no shared libs) # Anyone wants to do a port? ;; irix5* | irix6* | nonstopux*) case $cc_basename in CC*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_static, $1)='-non_shared' # CC pic flag -KPIC is the default. ;; *) ;; esac ;; linux* | k*bsd*-gnu) case $cc_basename in KCC*) # KAI C++ Compiler _LT_TAGVAR(lt_prog_compiler_wl, $1)='--backend -Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC' ;; ecpc* ) # old Intel C++ for x86_64 which still supported -KPIC. _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-static' ;; icpc* ) # Intel C++, used to be incompatible with GCC. # ICC 10 doesn't accept -KPIC any more. _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-static' ;; pgCC* | pgcpp*) # Portland Group C++ compiler _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fpic' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; cxx*) # Compaq C++ # Make sure the PIC flag is empty. 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then # AIX 5 now supports IA64 processor _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' else _LT_TAGVAR(lt_prog_compiler_static, $1)='-bnso -bI:/lib/syscalls.exp' fi ;; mingw* | cygwin* | pw32* | os2* | cegcc*) # This hack is so that the source file can tell whether it is being # built for inclusion in a dll (and should export symbols for example). m4_if([$1], [GCJ], [], [_LT_TAGVAR(lt_prog_compiler_pic, $1)='-DDLL_EXPORT']) ;; hpux9* | hpux10* | hpux11*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' # PIC is the default for IA64 HP-UX and 64-bit HP-UX, but # not for PA HP-UX. case $host_cpu in hppa*64*|ia64*) # +Z the default ;; *) _LT_TAGVAR(lt_prog_compiler_pic, $1)='+Z' ;; esac # Is there a better lt_prog_compiler_static that works with the bundled CC? _LT_TAGVAR(lt_prog_compiler_static, $1)='${wl}-a ${wl}archive' ;; irix5* | irix6* | nonstopux*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' # PIC (with -KPIC) is the default. _LT_TAGVAR(lt_prog_compiler_static, $1)='-non_shared' ;; linux* | k*bsd*-gnu) case $cc_basename in # old Intel for x86_64 which still supported -KPIC. ecc*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-static' ;; # icc used to be incompatible with GCC. # ICC 10 doesn't accept -KPIC any more. icc* | ifort*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-static' ;; # Lahey Fortran 8.1. lf95*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='--shared' _LT_TAGVAR(lt_prog_compiler_static, $1)='--static' ;; pgcc* | pgf77* | pgf90* | pgf95*) # Portland Group compilers (*not* the Pentium gcc compiler, # which looks to be a dead project) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fpic' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; ccc*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' # All Alpha code is PIC. _LT_TAGVAR(lt_prog_compiler_static, $1)='-non_shared' ;; xl*) # IBM XL C 8.0/Fortran 10.1 on PPC _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-qpic' _LT_TAGVAR(lt_prog_compiler_static, $1)='-qstaticlink' ;; *) case `$CC -V 2>&1 | sed 5q` in *Sun\ C*) # Sun C 5.9 _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' ;; *Sun\ F*) # Sun Fortran 8.3 passes all unrecognized flags to the linker _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' _LT_TAGVAR(lt_prog_compiler_wl, $1)='' ;; esac ;; esac ;; newsos6) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; *nto* | *qnx*) # QNX uses GNU C++, but need to define -shared option too, otherwise # it will coredump. _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC -shared' ;; osf3* | osf4* | osf5*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' # All OSF/1 code is PIC. _LT_TAGVAR(lt_prog_compiler_static, $1)='-non_shared' ;; rdos*) _LT_TAGVAR(lt_prog_compiler_static, $1)='-non_shared' ;; solaris*) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' case $cc_basename in f77* | f90* | f95*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Qoption ld ';; *) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,';; esac ;; sunos4*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Qoption ld ' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-PIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; sysv4 | sysv4.2uw2* | sysv4.3*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; sysv4*MP*) if test -d /usr/nec ;then _LT_TAGVAR(lt_prog_compiler_pic, $1)='-Kconform_pic' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' fi ;; sysv5* | unixware* | sco3.2v5* | sco5v6* | OpenUNIX*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; unicos*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_can_build_shared, $1)=no ;; uts4*) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-pic' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; *) _LT_TAGVAR(lt_prog_compiler_can_build_shared, $1)=no ;; esac fi ]) case $host_os in # For platforms which do not support PIC, -DPIC is meaningless: *djgpp*) _LT_TAGVAR(lt_prog_compiler_pic, $1)= ;; *) _LT_TAGVAR(lt_prog_compiler_pic, $1)="$_LT_TAGVAR(lt_prog_compiler_pic, $1)@&t@m4_if([$1],[],[ -DPIC],[m4_if([$1],[CXX],[ -DPIC],[])])" ;; esac AC_MSG_RESULT([$_LT_TAGVAR(lt_prog_compiler_pic, $1)]) _LT_TAGDECL([wl], [lt_prog_compiler_wl], [1], [How to pass a linker flag through the compiler]) # # Check to make sure the PIC flag actually works. # if test -n "$_LT_TAGVAR(lt_prog_compiler_pic, $1)"; then _LT_COMPILER_OPTION([if $compiler PIC flag $_LT_TAGVAR(lt_prog_compiler_pic, $1) works], [_LT_TAGVAR(lt_cv_prog_compiler_pic_works, $1)], [$_LT_TAGVAR(lt_prog_compiler_pic, $1)@&t@m4_if([$1],[],[ -DPIC],[m4_if([$1],[CXX],[ -DPIC],[])])], [], [case $_LT_TAGVAR(lt_prog_compiler_pic, $1) in "" | " "*) ;; *) _LT_TAGVAR(lt_prog_compiler_pic, $1)=" $_LT_TAGVAR(lt_prog_compiler_pic, $1)" ;; esac], [_LT_TAGVAR(lt_prog_compiler_pic, $1)= _LT_TAGVAR(lt_prog_compiler_can_build_shared, $1)=no]) fi _LT_TAGDECL([pic_flag], [lt_prog_compiler_pic], [1], [Additional compiler flags for building library objects]) # # Check to make sure the static flag actually works. # wl=$_LT_TAGVAR(lt_prog_compiler_wl, $1) eval lt_tmp_static_flag=\"$_LT_TAGVAR(lt_prog_compiler_static, $1)\" _LT_LINKER_OPTION([if $compiler static flag $lt_tmp_static_flag works], _LT_TAGVAR(lt_cv_prog_compiler_static_works, $1), $lt_tmp_static_flag, [], [_LT_TAGVAR(lt_prog_compiler_static, $1)=]) _LT_TAGDECL([link_static_flag], [lt_prog_compiler_static], [1], [Compiler flag to prevent dynamic linking]) ])# _LT_COMPILER_PIC # _LT_LINKER_SHLIBS([TAGNAME]) # ---------------------------- # See if the linker supports building shared libraries. m4_defun([_LT_LINKER_SHLIBS], [AC_REQUIRE([LT_PATH_LD])dnl AC_REQUIRE([LT_PATH_NM])dnl m4_require([_LT_FILEUTILS_DEFAULTS])dnl m4_require([_LT_DECL_EGREP])dnl m4_require([_LT_DECL_SED])dnl m4_require([_LT_CMD_GLOBAL_SYMBOLS])dnl m4_require([_LT_TAG_COMPILER])dnl AC_MSG_CHECKING([whether the $compiler linker ($LD) supports shared libraries]) m4_if([$1], [CXX], [ _LT_TAGVAR(export_symbols_cmds, $1)='$NM $libobjs $convenience | $global_symbol_pipe | $SED '\''s/.* //'\'' | sort | uniq > $export_symbols' case $host_os in aix[[4-9]]*) # If we're using GNU nm, then we don't want the "-C" option. # -C means demangle to AIX nm, but means don't demangle with GNU nm if $NM -V 2>&1 | $GREP 'GNU' > /dev/null; 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If you *** really care for shared libraries, you may want to modify your PATH *** so that a non-GNU linker is found, and then restart. _LT_EOF fi ;; amigaos*) case $host_cpu in powerpc) # see comment about AmigaOS4 .so support _LT_TAGVAR(archive_cmds, $1)='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname -o $lib' _LT_TAGVAR(archive_expsym_cmds, $1)='' ;; m68k) _LT_TAGVAR(archive_cmds, $1)='$RM $output_objdir/a2ixlibrary.data~$ECHO "#define NAME $libname" > $output_objdir/a2ixlibrary.data~$ECHO "#define LIBRARY_ID 1" >> $output_objdir/a2ixlibrary.data~$ECHO "#define VERSION $major" >> $output_objdir/a2ixlibrary.data~$ECHO "#define REVISION $revision" >> $output_objdir/a2ixlibrary.data~$AR $AR_FLAGS $lib $libobjs~$RANLIB $lib~(cd $output_objdir && a2ixlibrary -32)' _LT_TAGVAR(hardcode_libdir_flag_spec, $1)='-L$libdir' _LT_TAGVAR(hardcode_minus_L, $1)=yes ;; esac ;; beos*) if $LD --help 2>&1 | $GREP ': supported targets:.* elf' > /dev/null; then _LT_TAGVAR(allow_undefined_flag, $1)=unsupported # Joseph Beckenbach says some releases of gcc # support --undefined. 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Therefore, libtool *** is disabling shared libraries support. We urge you to upgrade GNU *** binutils to release 2.16.91.0.3 or newer. Another option is to modify *** your PATH or compiler configuration so that the native linker is *** used, and then restart. _LT_EOF ;; *) # For security reasons, it is highly recommended that you always # use absolute paths for naming shared libraries, and exclude the # DT_RUNPATH tag from executables and libraries. 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ia64*) _LT_TAGVAR(archive_cmds, $1)='$CC -b ${wl}+h ${wl}$soname ${wl}+nodefaultrpath -o $lib $libobjs $deplibs $compiler_flags' ;; *) _LT_TAGVAR(archive_cmds, $1)='$CC -b ${wl}+h ${wl}$soname ${wl}+b ${wl}$install_libdir -o $lib $libobjs $deplibs $compiler_flags' ;; esac fi if test "$with_gnu_ld" = no; then _LT_TAGVAR(hardcode_libdir_flag_spec, $1)='${wl}+b ${wl}$libdir' _LT_TAGVAR(hardcode_libdir_separator, $1)=: case $host_cpu in hppa*64*|ia64*) _LT_TAGVAR(hardcode_direct, $1)=no _LT_TAGVAR(hardcode_shlibpath_var, $1)=no ;; *) _LT_TAGVAR(hardcode_direct, $1)=yes _LT_TAGVAR(hardcode_direct_absolute, $1)=yes _LT_TAGVAR(export_dynamic_flag_spec, $1)='${wl}-E' # hardcode_minus_L: Not really in the search PATH, # but as the default location of the library. _LT_TAGVAR(hardcode_minus_L, $1)=yes ;; esac fi ;; irix5* | irix6* | nonstopux*) if test "$GCC" = yes; then _LT_TAGVAR(archive_cmds, $1)='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname ${wl}$soname `test -n "$verstring" && $ECHO "X${wl}-set_version ${wl}$verstring" | $Xsed` ${wl}-update_registry ${wl}${output_objdir}/so_locations -o $lib' # Try to use the -exported_symbol ld option, if it does not # work, assume that -exports_file does not work either and # implicitly export all symbols. save_LDFLAGS="$LDFLAGS" LDFLAGS="$LDFLAGS -shared ${wl}-exported_symbol ${wl}foo ${wl}-update_registry ${wl}/dev/null" AC_LINK_IFELSE(int foo(void) {}, _LT_TAGVAR(archive_expsym_cmds, $1)='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname ${wl}$soname `test -n "$verstring" && $ECHO "X${wl}-set_version ${wl}$verstring" | $Xsed` ${wl}-update_registry ${wl}${output_objdir}/so_locations ${wl}-exports_file ${wl}$export_symbols -o $lib' ) LDFLAGS="$save_LDFLAGS" else _LT_TAGVAR(archive_cmds, $1)='$CC -shared $libobjs $deplibs $compiler_flags -soname $soname `test -n "$verstring" && $ECHO "X-set_version $verstring" | $Xsed` -update_registry ${output_objdir}/so_locations -o $lib' _LT_TAGVAR(archive_expsym_cmds, $1)='$CC -shared $libobjs $deplibs $compiler_flags -soname $soname `test -n "$verstring" && $ECHO "X-set_version $verstring" | $Xsed` -update_registry ${output_objdir}/so_locations -exports_file $export_symbols -o $lib' fi _LT_TAGVAR(archive_cmds_need_lc, $1)='no' _LT_TAGVAR(hardcode_libdir_flag_spec, $1)='${wl}-rpath ${wl}$libdir' _LT_TAGVAR(hardcode_libdir_separator, $1)=: _LT_TAGVAR(inherit_rpath, $1)=yes _LT_TAGVAR(link_all_deplibs, $1)=yes ;; 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solaris*) _LT_TAGVAR(no_undefined_flag, $1)=' -z defs' if test "$GCC" = yes; then wlarc='${wl}' _LT_TAGVAR(archive_cmds, $1)='$CC -shared ${wl}-z ${wl}text ${wl}-h ${wl}$soname -o $lib $libobjs $deplibs $compiler_flags' _LT_TAGVAR(archive_expsym_cmds, $1)='echo "{ global:" > $lib.exp~cat $export_symbols | $SED -e "s/\(.*\)/\1;/" >> $lib.exp~echo "local: *; };" >> $lib.exp~ $CC -shared ${wl}-z ${wl}text ${wl}-M ${wl}$lib.exp ${wl}-h ${wl}$soname -o $lib $libobjs $deplibs $compiler_flags~$RM $lib.exp' else case `$CC -V 2>&1` in *"Compilers 5.0"*) wlarc='' _LT_TAGVAR(archive_cmds, $1)='$LD -G${allow_undefined_flag} -h $soname -o $lib $libobjs $deplibs $linker_flags' _LT_TAGVAR(archive_expsym_cmds, $1)='echo "{ global:" > $lib.exp~cat $export_symbols | $SED -e "s/\(.*\)/\1;/" >> $lib.exp~echo "local: *; };" >> $lib.exp~ $LD -G${allow_undefined_flag} -M $lib.exp -h $soname -o $lib $libobjs $deplibs $linker_flags~$RM $lib.exp' ;; *) wlarc='${wl}' _LT_TAGVAR(archive_cmds, $1)='$CC -G${allow_undefined_flag} -h $soname -o $lib $libobjs $deplibs $compiler_flags' _LT_TAGVAR(archive_expsym_cmds, $1)='echo "{ global:" > $lib.exp~cat $export_symbols | $SED -e "s/\(.*\)/\1;/" >> $lib.exp~echo "local: *; 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