pax_global_header00006660000000000000000000000064120636366530014524gustar00rootroot0000000000000052 comment=88029371e30cd3fcb6102b19125ea10f7309d9cd PDL-IO-Matlab-release-0.005/000077500000000000000000000000001206363665300152705ustar00rootroot00000000000000PDL-IO-Matlab-release-0.005/.gitignore000066400000000000000000000003041206363665300172550ustar00rootroot00000000000000*~ blib* Makefile.old MYMETA.yml MYMETA.json Makefile config.log config.status .libs libtool pm_to_blib* *.tar.gz *.o *.lo *.la *.so PDL-IO-Matlab* Matlab.pm Matlab.c Matlab.xs Matlab.bs *.mat PDL-IO-Matlab-release-0.005/Changes000066400000000000000000000001171206363665300165620ustar00rootroot00000000000000Revision history for PDL-IO-Matlab 0.01 Date/time Initial release PDL-IO-Matlab-release-0.005/INSTALL000066400000000000000000000004501206363665300163200ustar00rootroot00000000000000perl Makefile.PL make make test make install This will build the matio source as well as the pdl interface. The makefile written by Makefile.PL has targets 'cleanall' and 'distcleanall'. These perform make clean and make distclean in both module distribution toplevel and in $matio_top_level. PDL-IO-Matlab-release-0.005/MANIFEST000066400000000000000000000054501206363665300164250ustar00rootroot00000000000000Changes matlab.pd Makefile.PL MANIFEST This list of files README t/00-load.t t/manifest.t t/pod-coverage.t t/pod.t t/1-matlab.t convert_matvar_pdl.c extra_matio.c typemap memory_leak.pl matio-1.5.0/autogen.sh matio-1.5.0/Makefile.in matio-1.5.0/configure.ac matio-1.5.0/README matio-1.5.0/test/Makefile.in matio-1.5.0/configure matio-1.5.0/getopt/Makefile.in matio-1.5.0/getopt/Makefile.am matio-1.5.0/getopt/getopt_long.c matio-1.5.0/getopt/getopt.h matio-1.5.0/tools/Makefile.in matio-1.5.0/tools/Makefile.am matio-1.5.0/tools/matdump.c matio-1.5.0/share/test_file_v6.mat matio-1.5.0/share/test_file.mat matio-1.5.0/Makefile.am matio-1.5.0/NEWS matio-1.5.0/documentation/Makefile.in matio-1.5.0/documentation/Makefile.am matio-1.5.0/COPYING matio-1.5.0/aclocal.m4 matio-1.5.0/visual_studio/._matioConfig.h matio-1.5.0/visual_studio/matio.def matio-1.5.0/visual_studio/._matio_pubconf.h matio-1.5.0/visual_studio/matioConfig.h matio-1.5.0/visual_studio/._matio.def matio-1.5.0/visual_studio/matio_pubconf.h matio-1.5.0/visual_studio/libmatio matio-1.5.0/visual_studio/libmatio/libmatio.vcproj matio-1.5.0/visual_studio/matio.sln matio-1.5.0/src/io.c matio-1.5.0/src/._matvar_cell.c matio-1.5.0/src/matio_private.h matio-1.5.0/src/Makefile.in matio-1.5.0/src/endian.c matio-1.5.0/src/snprintf.c matio-1.5.0/src/matio_pubconf.h.in matio-1.5.0/src/inflate.c matio-1.5.0/src/._matvar_struct.c matio-1.5.0/src/Makefile.am matio-1.5.0/src/mat73.h matio-1.5.0/src/mat5.h matio-1.5.0/src/mat4.h matio-1.5.0/src/mat.c matio-1.5.0/src/matioConfig.h.in matio-1.5.0/src/._mat5.c matio-1.5.0/src/mat4.c matio-1.5.0/src/mat73.c matio-1.5.0/src/matvar_cell.c matio-1.5.0/src/matvar_struct.c matio-1.5.0/src/mat5.c matio-1.5.0/src/matio.h matio-1.5.0/src/read_data.c matio-1.5.0/config/matio_lib_suffix.m4 matio-1.5.0/config/matio_matlab.m4 matio-1.5.0/config/matio_int8_t.m4 matio-1.5.0/config/._libtool.m4 matio-1.5.0/config/matio_int64_t.m4 matio-1.5.0/config/matio_uint16_t.m4 matio-1.5.0/config/._ltmain.sh matio-1.5.0/config/matio_zlib.m4 matio-1.5.0/config/._ltversion.m4 matio-1.5.0/config/matio_int16_t.m4 matio-1.5.0/config/libtool.m4 matio-1.5.0/config/config.sub matio-1.5.0/config/._ltoptions.m4 matio-1.5.0/config/depcomp matio-1.5.0/config/matio_hdf5.m4 matio-1.5.0/config/config.guess matio-1.5.0/config/install-sh matio-1.5.0/config/matio_uint64_t.m4 matio-1.5.0/config/._ltsugar.m4 matio-1.5.0/config/matio_uint32_t.m4 matio-1.5.0/config/ltversion.m4 matio-1.5.0/config/._lt~obsolete.m4 matio-1.5.0/config/ltsugar.m4 matio-1.5.0/config/matio_def_file_ver.m4 matio-1.5.0/config/matio_getopt_long.m4 matio-1.5.0/config/missing matio-1.5.0/config/matio_uint8_t.m4 matio-1.5.0/config/._texinfo.tex matio-1.5.0/config/ltmain.sh matio-1.5.0/config/matio_int32_t.m4 matio-1.5.0/config/ltoptions.m4 matio-1.5.0/config/lt~obsolete.m4 matio-1.5.0/matio.pc.in PDL-IO-Matlab-release-0.005/Makefile.PL000066400000000000000000000040151206363665300172420ustar00rootroot00000000000000use 5.006; use strict; use warnings; use ExtUtils::MakeMaker; use PDL::Core::Dev; # Makefile has targets 'cleanall' and 'distcleanall'. # These do clean and distclean in both module distribution # toplevel and in $matio_top_level. my $matio_top_level = './matio-1.5.0'; if ( not -e "$matio_top_level/src/matio_pubconf.h" ) { print "Makefile.PL: running configure in $matio_top_level\n"; system "cd $matio_top_level; ./configure"; } my $matlab_package = ['matlab.pd', 'Matlab', 'PDL::IO::Matlab']; my %hash = pdlpp_stdargs($matlab_package); my %more_items = ( NAME => 'PDL::IO::Matlab', AUTHOR => q{John Lapeyre }, VERSION_FROM => 'matlab.pd', ABSTRACT_FROM => 'matlab.pd', PL_FILES => {}, OBJECT => ' Matlab.o matio_obj.o ' , LIBS => [ ' -lz -lhdf5 ' ], PREREQ_PM => { 'Test::More' => 0, 'PDL' => 0, }, dist => { COMPRESS => 'gzip -9f', SUFFIX => 'gz', }, # note the file below that matio Makefile fails to clean. clean => { FILES => ' PDL-IO-Matlab-* Matlab.* tst.mat testf.mat ' . $matio_top_level . '/test/atconfig' }, ); map { $hash{$_} = $more_items{$_} } keys %more_items; # cd $matio_top_level; ./configure sub MY::postamble { qq{ matio_obj.o: cd $matio_top_level; cd src; \$(MAKE) ld -r -o matio_obj.o $matio_top_level/src/.libs/*.o cleanall: clean cd $matio_top_level; \$(MAKE) clean distcleanall: distclean cd $matio_top_level; \$(MAKE) distclean } . pdlpp_postamble($matlab_package)}; WriteMakefile( %hash ); if(exists $ARGV[0] && $ARGV[0] eq 'README.pod') { print STDERR "Writing README.pod\n"; open README, '>README.pod' or die "Couldn't open README.pod"; # print README $POD_header; foreach my $mod ('Matlab.pm') { open MOD, $mod or die "Couldn't open main module"; while () { if (/^=/../^=cut/) { print README; } } close(MOD); } close(README); } PDL-IO-Matlab-release-0.005/README000066400000000000000000000012151206363665300161470ustar00rootroot00000000000000PDL-IO-Matlab Read and write matlab files. For matlab file format version 7.3, the hdf5 library must be present. For compression in matlab file format version 5, the zlib library must be present. In any case, version 5 compression is not yet supported in the interface for writing. The pdl data types for a particular pdl build (linux amd64) are hardcoded. This should be fixed to make this module more portable. * MATIO SOURCE The matio source is included. But several things are removed to make the source much smaller. In ./documentation and ./test, only the Makefiles are kept; so that configure succeeds. ./configure/texinfo.tex is removed PDL-IO-Matlab-release-0.005/README.pod000066400000000000000000000207261206363665300167400ustar00rootroot00000000000000=head1 NAME PDL::IO::Matlab -- Read and write Matlab format data files. =head1 DESCRIPTION This module provides routines to read and write pdls to and from data files in Matlab formats. The module uses the matio C library. Both functional and OO interface are provided. Only real, multi-dimensional arrays corresponding to PDL data types are supported. Compression is currently only supported when reading. See the section L for important information on potential problems when using this module. =head1 SYNOPSIS use PDL; use PDL::IO::Matlab qw( matlab_read matlab_write matlab_print_info); # write two pdls in matlab 5 format matlab_write('file.dat', $x, $y); # read an array of piddles # from file in matlab 4, 5, or 7.3 format. my @pdls = matlab_read('file.dat'); # write pdl in matlab 7.3 format. matlab_write('file.dat', 'MAT73', $x); matlab_print_info('file.dat'); =cut =head1 FUNCTIONS The functional interface. =head2 B =head3 Usage Return all arrays in C<$filename> @pdls = matlab_read($filename); @pdls = matlab_read($filename, {OPTIONS}); Return first array in C<$filename> $x = matlab_read($filename); Do not automatically convert C<1xn> and C arrays to 1-d arrays. @pdls = matlab_read($filename, { onedr => 0 } ); Reads all data in the file C<$filename>. Formats 4, 5, and 7.3 are supported. Options are passed to L>. =cut =head2 B =head3 Usage matlab_write($filename,$x1,$x2,...); matlab_write($filename,$format,$x1,$x2,...); Automatically convert C element, 1-d piddles to C<1xn> matlab variables. matlab_write($filename,$x1,$x2,..., {onedw => 1} ); Automatically convert to C matlab variables. matlab_write($filename,$x1,$x2,..., {onedw => 2} ); Use zlib compression matlab_write($filename,$x1,$x2,..., {compress => 1} ); This method writes pdls C<$x1>, C<$x2>,.... If present, C<$format> must be either C<'MAT5'> or C<'MAT73'>. =cut =head2 B =head3 Usage # print names and dimensions of variables. matlab_print_info($filename); # also print a small amount of the data. matlab_print_info($filename, { data => 1 }); # This does the same thing. matlab_print_info($filename, data => 1 ); Print information about the contents of the matlab file C<$filename>, including the name, dimension and class type of the variables. =cut =head1 METHODS =head2 B =head3 Usage # open for writing $mat = PDL::IO::Matlab->new('file.dat', '>', {format => 'MAT5'}); # default format is MAT5 $mat = PDL::IO::Matlab->new('file.dat', '>'); # may use 'w' or '>' $mat = PDL::IO::Matlab->new('file.dat', 'w'); # supply header $mat = PDL::IO::Matlab->new('file.dat', '>', { header => 'some text'} ); # read-write with rw or <> $mat = PDL::IO::Matlab->new('file.dat', 'rw'); # open for reading $mat = PDL::IO::Matlab->new('file.dat', '<'); =head3 Options =over =item format Either C<'MAT5'> or C<'MAT73'>. =item compress Either C<1> for yes, or C<0> for no. =item header A header (a string) to write into the file. =item namekey A hash key that will be used to store the matlab name for a variable read from a file in the header of a piddle. The default value is 'NAME'. Thus, the name can be accessed via C<< $pdl->hdr->{NAME} >>. =item varbasew The base of the default matlab variable name that will be written in the matlab file along with each piddle. An integer will be appended to the base name. This integer is initialized to zero and is incremented after writing each variable. =back The option C enables zlib compression if the zlib library is available and if the data file format is C<'MAT5'>. =cut =head2 B =head3 Usage $mat->close; Close matlab file and free memory associated with C<$mat>. =cut =head2 B =head3 Usage my $x = $mat->read_next; print "End of file\n" unless ref($x); my ($err,$x) = $mat->read_next; print "End of file\n" if $err; Read one pdl from file associated with object C<$mat>. =cut =head2 B =head3 Usage my @pdls = $mat->read_all; Read all remaining pdls from file associated with object C<$mat>. =cut =head2 B =head3 Usage $x2->hdr->{NAME} = 'variablename'; $mat->write($x1,$x2,...); $mat->write($x1,$x2,...,{OPTIONS}); Append pdls to open file associated with C<$mat>. If a piddle has a matlab name stored in the header it will be used as the matlab name written to the file with this piddle. The key is in C<< $pdl->{namekey} >>, with default value C<'NAME'>. If the name is not in the piddle's header, then a default value will be used. =head3 Options =over =item onedw If C is C<1> then a 1-d pdl of length n is written as a as an C pdl (a C<1xn> matlab variable). If C is C<2> then the output piddle is C<1xn> and the matlab variable C. If C is zero (the default), then the 1-d pdl is written as a 1-d piddle. In the last case, Octave will print an error and fail to read the variable. =item compress If C is C<1> then zlib compression is used, if the library is available and if the format is C<'MAT5'>. =back =cut =head2 B =head3 Usage $mat->rewind Reset pointer to the head of the file. =cut =head2 B =head3 Usage $mat->get_filename Return name of file associated with C<$mat>. =cut =head2 B =head3 Usage $mat->get_format Return matlab data file format for file associated with C<$mat>. One of C<'MAT4'>, C<'MAT5'>, or C<'MAT73'>. =cut =head2 B =head3 Usage $mat->print_all_var_info; # also print a small amount of data from each variable. $mat->print_all_var_info( data => 1 ); Print a summary of all data in the file associated with C<$mat> (starting from the next unread variable.) =cut =head1 ACCESSOR METHODS The following are additional accessor methods for the matlab file objects PDL::IO::Matlab. get_handle set_handle get_mode set_mode get_filename set_filename get_format set_format get_header set_header get_varbasew set_varbasew get_onedw set_onedw get_onedr set_onedr get_namekey set_namekey get_wvarnum set_wvarnum get_compress set_compress =head1 CAVEATS =head2 complicating factors There are two complicating factors when using matlab files with PDL. First, matlab does not support one-dimensional vectors. Thus, a 1-d pdl must be represented as either a C<1 x n> of a C matlab variable. Second, matlab stores matrices in column-major order, while pdl stores them in row-major order. =over =item B You can write 1-d pdls to a file with this module. This module can then read the file. But, Octave will fail to read the file and print an error message. See L> for how this is handled. =item B Data written by Octave (PDL) will be read by PDL (Octave) with indices transposed. On the todo list is an option to physically or logically transpose the data on reading and writing. =item B With this module, you may write more than one variable, each with the same name, (the matlab name; not the pdl identifier, or variable, name), to a file in MAT5 format. This module is then able to read all pdls from this file. But, Octave, when reading this file, will overwrite all but the last occurrence of the variable with the last occurrence. See the method L>. Trying to write two pdls with the same matlab variable name in MAT73 format will cause an error. =back =head2 other missing features, bugs When trying to read an unsupported matlab data type from a file, this module will throw an error. Supporting other data types or optionally skipping them is on the todo list. Random access of variables in a file is on the todo list. The underlying B library supports this. This module is currently built with some hardcoded data from a PDL installation, that may contain platform-specific (linux) features. It may fail to build or function correctly when used on other platforms. =head1 AUTHOR John Lapeyre, C<< >> The matio library was written by Christopher C. Hulbert. =head1 LICENSE AND COPYRIGHT Copyright 2012 John Lapeyre. This program is free software; you can redistribute it and/or modify it under the terms of either: the GNU General Public License as published by the Free Software Foundation; or the Artistic License. See http://dev.perl.org/licenses/ for more information. The matio library included here is Copyright 2011 Christopher C. Hulbert. All rights reserved. See the file matio-1.5/COPYING in the source distribution of this module. =cut PDL-IO-Matlab-release-0.005/convert_matvar_pdl.c000066400000000000000000000153231206363665300213310ustar00rootroot00000000000000/* Following taken from pdl.h. This is platform dependent, so I need something more sophisticated. enum pdl_datatypes { PDL_B, PDL_S, PDL_US, PDL_L, PDL_LL, PDL_F, PDL_D }; typedef unsigned char PDL_Byte; typedef short PDL_Short; typedef unsigned short PDL_Ushort; typedef int PDL_Long; typedef long PDL_LongLong; typedef float PDL_Float; typedef double PDL_Double; */ static char *matvar_class_type_desc[16] = {"Undefined","Cell Array","Structure", "Object","Character Array","Sparse Array","Double Precision Array", "Single Precision Array", "8-bit, signed integer array", "8-bit, unsigned integer array","16-bit, signed integer array", "16-bit, unsigned integer array","32-bit, signed integer array", "32-bit, unsigned integer array","64-bit, signed integer array", "64-bit, unsigned integer array" }; /* enum matio_classes { */ /* MAT_C_EMPTY = 0, /\**< @brief Empty array *\/ */ /* MAT_C_CELL = 1, /\**< @brief Matlab cell array class *\/ */ /* MAT_C_STRUCT = 2, /\**< @brief Matlab structure class *\/ */ /* MAT_C_OBJECT = 3, /\**< @brief Matlab object class *\/ */ /* MAT_C_CHAR = 4, /\**< @brief Matlab character array class *\/ */ /* MAT_C_SPARSE = 5, /\**< @brief Matlab sparse array class *\/ */ /* MAT_C_DOUBLE = 6, /\**< @brief Matlab double-precision class *\/ */ /* MAT_C_SINGLE = 7, /\**< @brief Matlab single-precision class *\/ */ /* MAT_C_INT8 = 8, /\**< @brief Matlab signed 8-bit integer class *\/ */ /* MAT_C_UINT8 = 9, /\**< @brief Matlab unsigned 8-bit integer class *\/ */ /* MAT_C_INT16 = 10, /\**< @brief Matlab signed 16-bit integer class *\/ */ /* MAT_C_UINT16 = 11, /\**< @brief Matlab unsigned 16-bit integer class *\/ */ /* MAT_C_INT32 = 12, /\**< @brief Matlab signed 32-bit integer class *\/ */ /* MAT_C_UINT32 = 13, /\**< @brief Matlab unsigned 32-bit integer class *\/ */ /* MAT_C_INT64 = 14, /\**< @brief Matlab unsigned 32-bit integer class *\/ */ /* MAT_C_UINT64 = 15, /\**< @brief Matlab unsigned 32-bit integer class *\/ */ /* MAT_C_FUNCTION = 16 /\**< @brief Matlab unsigned 32-bit integer class *\/ */ /* }; */ static int matvar_class_to_pdl_type[16] = /* 0 1 2 3 */ { -1, -1, -1, -1, /* 4 5 6 7 */ -1, -1, PDL_D, PDL_F, /* 8 9 10 11 */ PDL_B, PDL_B, PDL_S, PDL_US, /* 12 13 14 15 */ PDL_L, -1, -1, -1 }; /* enum pdl_datatypes { PDL_B, PDL_S, PDL_US, PDL_L, PDL_LL, PDL_F, PDL_D }; */ static int pdl_type_to_matvar_type[7] = { MAT_T_INT8, /* PDL_B */ MAT_T_INT16, /* PDL_S */ MAT_T_UINT16, /* PDL_US */ MAT_T_INT32, /* PDL_L */ MAT_T_INT32, /* PDL_LL */ MAT_T_SINGLE, /* PDL_F */ MAT_T_DOUBLE, /* PDL_D */ }; static int pdl_type_to_matvar_class[7] = { MAT_C_INT8, /* PDL_B */ MAT_C_INT16, /* PDL_S */ MAT_C_UINT16, /* PDL_US */ MAT_C_INT32, /* PDL_L */ MAT_C_INT32, /* PDL_LL */ MAT_C_SINGLE, /* PDL_F */ MAT_C_DOUBLE, /* PDL_D */ }; static void delete_matvar_to_pdl_data(pdl* p, size_t param) { if (p->data) free(p->data); p->data = 0; } typedef void (*DelMagic)(pdl *, size_t param); static void default_magic(pdl *p, size_t pa) { p->data = 0; } static pdl* my_pdl_wrap(void *data, int datatype, PDL_Long dims[], int ndims, DelMagic delete_magic, int delparam) { pdl* npdl = PDL->pdlnew(); PDL->setdims(npdl,dims,ndims); npdl->datatype = datatype; npdl->data = data; npdl->state |= PDL_DONTTOUCHDATA | PDL_ALLOCATED; if (delete_magic != NULL) PDL->add_deletedata_magic(npdl, (void *) delete_magic, delparam); else PDL->add_deletedata_magic(npdl, default_magic, 0); return npdl; } static pdl* matvar_to_pdl (matvar_t * matvar, int onedr) { int ndims = matvar->rank; pdl * piddle; int i, pdl_data_type; PDL_Long * dims; if ( matvar->isComplex ) barf("matvar_to_pdl: Complex matlab variables not supported."); dims = (PDL_Long *)malloc(sizeof(PDL_Long) * ndims); // fprintf(stderr, "ONEDR %d\n", onedr); if (ndims == 2 && onedr != 0 ) { if (matvar->dims[0] == 1) { ndims = 1; dims[0] = matvar->dims[1]; } else if (matvar->dims[1] == 1) { ndims = 1; dims[0] = matvar->dims[0]; } else for(i=0;idims[i]; } else for(i=0;idims[i]; if ( 0 > (pdl_data_type = matvar_class_to_pdl_type[matvar->class_type] )) { fprintf(stderr, "matvar_to_pdl: matlab data class is '%s'\n",matvar_class_type_desc[matvar->class_type]); barf("matvar_to_pdl: No pdl data type corresponding to this class type.");} piddle = my_pdl_wrap(matvar->data, pdl_data_type, dims, ndims, delete_matvar_to_pdl_data, 0); matvar->mem_conserve = 1; // prevent matio freeing memory for data free(dims); return piddle; } pdl * convert_next_matvar_to_pdl (mat_t * matfp, matvar_t ** matvar, int onedr) { *matvar = Mat_VarReadNext(matfp); if (*matvar == NULL ) return NULL; return matvar_to_pdl(*matvar,onedr); // calling code must call Mat_VarFree(matvar) } /******************************************************* * pdl to matvar *******************************************************/ matvar_t * pdl_to_matvar (pdl * piddle, char *varname, int onedw) { int ndims = piddle->ndims; matvar_t *matvar; int i, matvar_class_type, matvar_data_type; int opt = MAT_F_DONT_COPY_DATA; size_t * dims; int tmp; dims = (size_t *)malloc(sizeof(size_t) * (ndims+1)); for(i=0;idims[i]; if (ndims == 1 ) { if ( onedw == 1) { ndims = 2; dims[1] = 1; } else if ( onedw == 2) { ndims = 2; tmp = dims[0]; dims[0] = 1; dims[1] = tmp; } } matvar_class_type = pdl_type_to_matvar_class[piddle->datatype]; matvar_data_type = pdl_type_to_matvar_type[piddle->datatype]; matvar = Mat_VarCreate(varname,matvar_class_type, matvar_data_type, ndims, dims, piddle->data, opt); free(dims); return matvar; } int write_pdl_to_matlab_file (mat_t *mat, pdl *piddle, char *varname, int onedw, int compress) { matvar_t * matvar; matvar = pdl_to_matvar(piddle,varname,onedw); int retval; if ( compress == 1 ) retval = Mat_VarWrite(mat, matvar, MAT_COMPRESSION_ZLIB); else retval = Mat_VarWrite(mat, matvar, MAT_COMPRESSION_NONE); Mat_VarFree(matvar); return retval; } PDL-IO-Matlab-release-0.005/extra_matio.c000066400000000000000000000041731206363665300177550ustar00rootroot00000000000000/* This code copied from docs. It was broken. I fixed it a bit. */ static char *mxclass[16] = {"cell", "struct", "object","char","sparse", "double","single","int8", "uint8","int16","uint16", "int32","uint32","int64","uint64","function" }; void extra_matio_print_all_var_info_clumsy(mat_t * matfp) { matvar_t *matvar; size_t nbytes; int i; char size[32] = {' ',}; fflush(stdout); printf( "%-20s %-10s %-10s %-18s\n", "Name", "Size", "Bytes", "Class"); while ( NULL != (matvar = Mat_VarReadNextInfo(matfp)) ) { printf("%-20s", matvar->name); if ( matvar->rank > 0 ) { int cnt = 0; printf("%8d", matvar->dims[0]); for ( i = 1; i < matvar->rank; i++ ) { if ( ceil(log10(matvar->dims[i]))+1 < 32 ) cnt += sprintf(size+cnt,"x%d", matvar->dims[i]); } printf("%-10s",size); } else { printf(" "); } nbytes = Mat_VarGetSize(matvar); printf(" %8d",nbytes); printf(" %-18s\n",mxclass[matvar->class_type-1]); Mat_VarPrint(matvar,0); Mat_VarFree(matvar); } fflush(stdout); } /* This one is simpler ! */ void extra_matio_print_all_var_info (mat_t * matfp, int printdata) { matvar_t *matvar; fflush(stdout); if (printdata) while ( NULL != (matvar = Mat_VarReadNext(matfp)) ) { Mat_VarPrint(matvar,printdata); Mat_VarFree(matvar); } else while ( NULL != (matvar = Mat_VarReadNextInfo(matfp)) ) { Mat_VarPrint(matvar,printdata); Mat_VarFree(matvar); } fflush(stdout); } /* broken */ /* void extra_matio_print_all_var_info_new (mat_t * matfp, int printdata, int max_cols, int max_rows) { matvar_t *matvar; fflush(stdout); if (printdata) while ( NULL != (matvar = Mat_VarReadNext(matfp)) ) { Mat_VarPrint2(matvar,printdata,max_cols,max_rows); Mat_VarFree(matvar); } else while ( NULL != (matvar = Mat_VarReadNextInfo(matfp)) ) { Mat_VarPrint2(matvar,printdata,max_cols,max_rows); Mat_VarFree(matvar); } fflush(stdout); } */ PDL-IO-Matlab-release-0.005/ignore.txt000066400000000000000000000001721206363665300173140ustar00rootroot00000000000000blib* Makefile Makefile.old Build Build.bat _build* pm_to_blib* *.tar.gz .lwpcookies cover_db pod2htm*.tmp PDL-IO-Matio-* PDL-IO-Matlab-release-0.005/mat_var_print.c000066400000000000000000000203231206363665300203010ustar00rootroot00000000000000/* * DOES NOT WORK. probably because it is not compiled with the * rest of the libary * A modified version of the library function Mat_VarPrint2 * This allows to choose the number of columns and rows to * be printed */ /** @brief Prints the variable information * * Prints to stdout the values of the @ref matvar_t structure * @ingroup MAT * @param matvar Pointer to the matvar_t structure * @param printdata set to 1 if the Variables data should be printed, else 0 */ void Mat_VarPrint2( matvar_t *matvar, int printdata, int max_cols, int max_rows ) { size_t nmemb; int i, j; const char *class_type_desc[16] = {"Undefined","Cell Array","Structure", "Object","Character Array","Sparse Array","Double Precision Array", "Single Precision Array", "8-bit, signed integer array", "8-bit, unsigned integer array","16-bit, signed integer array", "16-bit, unsigned integer array","32-bit, signed integer array", "32-bit, unsigned integer array","64-bit, signed integer array", "64-bit, unsigned integer array"}; const char *data_type_desc[23] = {"Unknown","8-bit, signed integer", "8-bit, unsigned integer","16-bit, signed integer", "16-bit, unsigned integer","32-bit, signed integer", "32-bit, unsigned integer","IEEE 754 single-precision","RESERVED", "IEEE 754 double-precision","RESERVED","RESERVED", "64-bit, signed integer","64-bit, unsigned integer", "Matlab Array", "Compressed Data","Unicode UTF-8 Encoded Character Data", "Unicode UTF-16 Encoded Character Data", "Unicode UTF-32 Encoded Character Data","","String","Cell Array", "Structure"}; if ( matvar == NULL ) return; if ( matvar->name ) printf(" Name: %s\n", matvar->name); printf(" Rank: %d\n", matvar->rank); if ( matvar->rank == 0 ) return; printf("Dimensions: %zu",matvar->dims[0]); nmemb = matvar->dims[0]; for ( i = 1; i < matvar->rank; i++ ) { printf(" x %zu",matvar->dims[i]); nmemb *= matvar->dims[i]; } printf("\n"); printf("Class Type: %s",class_type_desc[matvar->class_type]); if ( matvar->isComplex ) printf(" (complex)"); printf("\n"); if ( matvar->data_type ) printf(" Data Type: %s\n", data_type_desc[matvar->data_type]); if ( MAT_C_STRUCT == matvar->class_type ) { matvar_t **fields = (matvar_t **)matvar->data; int nfields = matvar->internal->num_fields; if ( nmemb*nfields > 0 ) { printf("Fields[%zu] {\n", nfields*nmemb); for ( i = 0; i < nfields*nmemb; i++ ) { if ( NULL == fields[i] ) { printf(" Name: %s\n Rank: %d\n", matvar->internal->fieldnames[i%nfields],0); } else { Mat_VarPrint(fields[i],printdata); } } printf("}\n"); } else { printf("Fields[%d] {\n", nfields); for ( i = 0; i < nfields; i++ ) printf(" Name: %s\n Rank: %d\n", matvar->internal->fieldnames[i],0); printf("}\n"); } return; } else if ( matvar->data == NULL || matvar->data_size < 1 ) { return; } else if ( MAT_C_CELL == matvar->class_type ) { matvar_t **cells = (matvar_t **)matvar->data; int ncells = matvar->nbytes / matvar->data_size; printf("{\n"); for ( i = 0; i < ncells; i++ ) Mat_VarPrint(cells[i],printdata); printf("}\n"); return; } else if ( !printdata ) { return; } printf("{\n"); if ( matvar->rank > 2 ) { printf("I can't print more than 2 dimensions\n"); } else if ( matvar->rank == 1 && matvar->dims[0] > max_rows ) { printf("I won't print more than %d elements in a vector\n",max_rows); } else if ( matvar->rank==2 ) { switch( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: #endif #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: #endif case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: { size_t stride = Mat_SizeOf(matvar->data_type); if ( matvar->isComplex ) { mat_complex_split_t *complex_data = matvar->data; char *rp = complex_data->Re; char *ip = complex_data->Im; for ( i = 0; i < matvar->dims[0] && i < max_rows; i++ ) { for ( j = 0; j < matvar->dims[1] && j < max_cols; j++ ) { size_t idx = matvar->dims[0]*j+i; Mat_PrintNumber(matvar->data_type,rp+idx*stride); printf(" + "); Mat_PrintNumber(matvar->data_type,ip+idx*stride); printf("i "); } if ( j < matvar->dims[1] ) printf("..."); printf("\n"); } if ( i < matvar->dims[0] ) printf(".\n.\n.\n"); } else { char *data = matvar->data; for ( i = 0; i < matvar->dims[0] && i < max_rows; i++ ) { for ( j = 0; j < matvar->dims[1] && j < max_cols; j++ ) { size_t idx = matvar->dims[0]*j+i; Mat_PrintNumber(matvar->data_type, data+idx*stride); printf(" "); } if ( j < matvar->dims[1] ) printf("..."); printf("\n"); } if ( i < matvar->dims[0] ) printf(".\n.\n.\n"); } break; } case MAT_C_CHAR: { char *data = matvar->data; if ( !printdata ) break; for ( i = 0; i < matvar->dims[0]; i++ ) { j = 0; for ( j = 0; j < matvar->dims[1]; j++ ) printf("%c",data[j*matvar->dims[0]+i]); printf("\n"); } break; } case MAT_C_SPARSE: { mat_sparse_t *sparse; size_t stride = Mat_SizeOf(matvar->data_type); #if !defined(EXTENDED_SPARSE) if ( MAT_T_DOUBLE != matvar->data_type ) break; #endif sparse = matvar->data; if ( matvar->isComplex ) { mat_complex_split_t *complex_data = sparse->data; char *re,*im; re = complex_data->Re; im = complex_data->Im; for ( i = 0; i < sparse->njc-1; i++ ) { for (j = sparse->jc[i]; jjc[i+1] && jndata;j++ ) { printf(" (%d,%d) ",sparse->ir[j]+1,i+1); Mat_PrintNumber(matvar->data_type,re+j*stride); printf(" + "); Mat_PrintNumber(matvar->data_type,im+j*stride); printf("i\n"); } } } else { char *data; data = sparse->data; for ( i = 0; i < sparse->njc-1; i++ ) { for (j = sparse->jc[i]; jjc[i+1] && jndata;j++ ){ printf(" (%d,%d) ",sparse->ir[j]+1,i+1); Mat_PrintNumber(matvar->data_type,data+j*stride); printf("\n"); } } } break; } /* case MAT_C_SPARSE: */ } /* switch( matvar->class_type ) */ } printf("}\n"); return; } PDL-IO-Matlab-release-0.005/matio-1.5.0/000077500000000000000000000000001206363665300170405ustar00rootroot00000000000000PDL-IO-Matlab-release-0.005/matio-1.5.0/COPYING000066400000000000000000000024351206363665300200770ustar00rootroot00000000000000Copyright 2011 Christopher C. Hulbert. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. PDL-IO-Matlab-release-0.005/matio-1.5.0/Makefile.am000066400000000000000000000044031206363665300210750ustar00rootroot00000000000000## ## Copyright (C) 2005-2011 Christopher C. Hulbert ## ## All rights reserved. ## ## Redistribution and use in source and binary forms, with or without ## modification, are permitted provided that the following conditions are met: ## ## 1. Redistributions of source code must retain the above copyright notice, ## this list of conditions and the following disclaimer. ## ## 2. Redistributions in binary form must reproduce the above copyright ## notice, this list of conditions and the following disclaimer in the ## documentation and/or other materials provided with the distribution. ## ## THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY EXPRESS ## OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ## OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO ## EVENT SHALL CHRISTOPHER C. 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\ here=`pwd`;\ for f in $$subdirs; do \ cd $$f; \ make print;\ cd $$here;\ done # Tell versions [3.59,3.63) of GNU make to not export all variables. # Otherwise a system limit (for SysV at least) may be exceeded. .NOEXPORT: PDL-IO-Matlab-release-0.005/matio-1.5.0/NEWS000066400000000000000000000070451206363665300175450ustar00rootroot00000000000000Changes in 1.5.0 (15 April 2012) * Support for reading/writing HDF5 format MAT files * Bug fixes for compressed variables that caused issues with matio reading them. * Upgrade of dimensions in matvar_t structure to size_t enabling support for large arrays. * A testsuite Changes in 1.3.2 (28 October 2006) * Added support for writing compressed character classes, structures, cell arrays, and sparse arrays * Added some tests to the test_mat program: write_compressed_cell, write_compressed_sparse * Added 64-bit signed/unsigned integer support * Fixed bugs in Reading slabs of N-dimensional data Changes in 1.3.1 (7 Septempber 2006) * Added some internal documentation to the library * Defined two documentation groups public and internal * Disabled the building of test programs by default and added a configure option to build them * Fixed installation path of data and documentation * Fixed bugs where file pointers were left open if allocating memory failed in Mat_Open and Mat_Create Changes in 1.3.0 (30 June 2006) * Cleaned out matio.h and made most preproccessor define's into enum's. * Moved complex arrays from single pointer with real part followed by imaginary part to a struct with a pointer to the real part and a pointer to the imaginary part (Previous implementation was just plain ignorant). * Changed version 4 mat file code from MAT_V4 to MAT_FT_MAT4 to match the version 5 identifier. * Added function Mat_VarCalloc to allocate and initialize all fields of the matvar_t structure. Bug Fixes in 1.3.0 (30 June 2006) * WriteCompressedData did not initialize the data tag (data_tag variable). * WriteStructField wrote the array name tag as a 2 byte integer followed by 2 padding bytes. Correct implementation writes the array name tag as a 4 byte integer. * Write5 wrote the array name tag as a 2 byte integer followed by 2 padding bytes when the name was more than 4 characters. Correct implementation writes the array name tag as a 4 byte integer. * Write5 had a hard-coded uncompressed variable size of 448 when writing compressed data. * WriteInfo5 wrote the array name tag as a 2 byte integer followed by 2 padding bytes when the name was more than 4 characters. Correct implementation writes the array name tag as a 4 byte integer. * Mat_Create wrote the endian sequence incorrectly. * Mat_VarCreate set the number of bytes incorrectly for structures. * Mat_VarCreate fixed the data size of the character class to 1. That didn't allow for multi-byte characters. Changes in 1.1.6 (20 March 2006) * Added sparse class to compressed variable. Bug Fixes in 1.1.6 (20 March 2006) * Fixed release bug in reading double class data. * Fixed various compressed variable writing bugs. * Fixed a bug in Mat_VarCreate for sparse variables. Changes in 1.1.4 (9 February 2006) * Changed Licensing from the GNU General Public License to the GNU Lesser General Public License. * Added support for reading numeric version 4 MAT files * Added support for sparse datatypes other than double. Although Matlab does not support these types, other free software does. * Writing compressed variables is supported for Numeric arrays. Future versions will implement character,sparse,cell, and structure arrays. * A fortran 90/95 interface has been incorporated. Not all functions are implemented yet, but more will come and it is at least functional now. Hopefully feedback will help guide the fortran interface development. * Replaced preprocessor defines for types,classes,etc. with enum's. Bug Fixes in 1.1.4 (9 January 2006) * Mat_VarReadData did not handle complex data PDL-IO-Matlab-release-0.005/matio-1.5.0/README000066400000000000000000000176621206363665300177340ustar00rootroot00000000000000MATIO - MATLAB MAT file I/O library Table of Contents ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 1.0 Introduction 1.1 Contact 1.2 Acknowledgements 1.3 Contributing 1.4 Questions and Reporting Bugs 2.0 Building 2.1 Dependencies 2.1.1 zlib 2.1.2 HDF-5 2.2 Building matio 2.2.1 Quick Build Guide 2.2.2 Configure Options 2.2.3 Visual Studio 2.2.4 Testsuite 2.3 Platforms 3.0 License 1.0 Introduction matio is an open-source library for reading/writing MATLAB MAT files. This library is designed for use by programs/libraries that do not have access or do not want to rely on MATLAB's shared library. 1.1 Contact You can contact me (Christopher Hulbert) through email at chulbe2lsu@users.sourceforge.net. 1.2 Acknowledgements The following people/organizations have helped in the development of matio through patches, bug reports, and/or testing: * Jacco van Beek * SGI in support of Interactive Supercomputing, Inc. * Scilab (http://www.scilab.org/) * Steven Leibman * OpenMEEG (http://www-sop.inria.fr/athena/software/OpenMEEG/) 1.3 Contributing Part of my reason for releasing this software is I have many other projects to work on and have many features I would still like to implement. If you make changes, I would appreciate your contributions and more than likely will include them in future releases. If you are interested in collaborations, contact me via email (see Section 1.1). 1.4 Questions and Reporting Bugs Questions can be askes using the forums on the sourceforge site hosting matio (http://sourceforge.net/projects/matio/forums). Bugs, enhancements, etc. should be submitted using one of the trackers on the sourceforge page (http://sourceforge.net/tracker/?group_id=176643). 2.0 Building This section describes how to build matio. Section 2.1 describes the dependencies, Section 2.2 how to build/test matio, and Section 2.3 documents the platforms matio has been tested on. 2.1 Dependencies MATIO has two optional dependencies. These are not required for the software to work, but without them some files may be unreadable. Zlib is required to read/write level 5 MAT files that use compression. HDF5 is required to work with newer MAT files that use the HDF5-format files 2.1.1 zlib To support compressed MAT files, zlib 1.2.3 or greater is required. The zlib software can be downloaded from http://zlib.net. 2.1.2 HDF5 Support for MAT file version 7.3 requires the HDF5 library. This library can be downloaded from The HDF Group website (http://www.hdfgroup.org/). MATIO requires HDF5 version 1.8.x, and must be built with default API version 1.8 (i.e. '--with-default-api-version=v18'). For windows, the pre-compiled binaries can be used which also include a DLL of zlib to satisfy the zlib dependency. 2.2 Building matio 2.2.1 Quick Build Guide The primary method for building the software is using 'configure' followed by 'make'. After building, the testsuite can be executed to test the software using 'make check'. The software can be installed using 'make install'. For example, $ tar zxf matio-X.Y.Z.tar.gz $ cd matio-X.Y.Z $ ./configure $ make $ make check $ make install If any of the tests in the testsuite fail, you should report the failure using the tracker (see Section 1.4). You should attache the generated testsuite.log file to the bug report. 2.2.2 Configure Options The configure script used to build the software takes a number of options. This section describes the key options. * --enable-mat73=yes This flag en/disables the support for version 7.3 MAT files. The option only makes sense if built with HDF5 as support for version 7.3 files will be disabled if HDF5 is not available. * --enable-extended-sparse=yes Enable extended sparse matrix data types not supported in MATLAB. MATLAB only supports double-precision sparse data. With this flag, matio will read sparse data with other types (i.e. single-precision and integer types). * --with-matlab=DIR This option specifies the directory (DIR) with the 'matlab' program. With this option, the testsuite will check that the MAT files written by matio can be read into MATLAB. Without this, the test will only check that matio can read the file written and if successful the test will be skipped. If matio can not read the file, the test will fail. * --with-zlib=DIR This option specifies the prefix where zlib is installed (see Section 2.1.1 for information about zlib). * --with-hdf5=DIR This option specifies the prefix where the HDF5 software is installed (see Section 2.1.2 for information about HDF5). * --with-default-file-ver=version This option sets the default MAT file version (4,5,7.3) that will be used when writing. The default file version is used by the Mat_Create macro and the Mat_CreateVer function when MAT_FT_DEFAULT is used for the version argument. * --with-libdir-suffix=suffix This option specifies a suffix to apply to library directories when installing and looking for dependent libraries (i.e. HDF5 and zlib). For example, some multi-arch Linux distributions install 64-bit libraries into lib64 and 32-bit libraries into lib. 2.2.3 Visual Studio A visual studio solution is provided as visual_studio/matio.sln. The solution is set up to build a DLL of the matio library (libmatio.dll) and matdump tool in release mode and assumes HDF5 is available in the directory specified by the HDF5_DIR environment variable. The build was tested with the HDF5 visual studio pre-built Windows binaries including zlib. 2.2.4 Testsuite A testsuite is available when building with the GNU autotools. To run the testsuite, First configure and build matio. After building run 'make check' to run the testsuite. If matio was built without zlib, the compressed variable tests will be skipped. If built without HDF5, the tests for version 7.3 MAT files will be skipped. If the path to the MATLAB application was not specified (--with-matlab), the write tests will fail if matio cannot read the file and skip if matio can read the file. The write tests will pass if MATLAB is available and can also read the file. To report matio testsuite failures, compress the testsuite.log file in the test sub-directory of the build directory. Upload the compressed log file along with a bug report (see Section 1.4 for information on reporting bugs). 2.3 Platforms The library has been tested/used on Linux, Windows, OS X, and AIX including both little-endian and big-endian architecture. 3.0 License This software is provided under a Simplified BSD license. See the COPYING file for details on the license. 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However, they do not need # kernel version information, so it can be replaced with a # suitable tag, in the style of linux-gnu. case "${UNAME_VERSION}" in Debian*) release='-gnu' ;; *) release=`echo ${UNAME_RELEASE}|sed -e 's/[-_].*/\./'` ;; esac # Since CPU_TYPE-MANUFACTURER-KERNEL-OPERATING_SYSTEM: # contains redundant information, the shorter form: # CPU_TYPE-MANUFACTURER-OPERATING_SYSTEM is used. echo "${machine}-${os}${release}" exit ;; *:OpenBSD:*:*) UNAME_MACHINE_ARCH=`arch | sed 's/OpenBSD.//'` echo ${UNAME_MACHINE_ARCH}-unknown-openbsd${UNAME_RELEASE} exit ;; *:ekkoBSD:*:*) echo ${UNAME_MACHINE}-unknown-ekkobsd${UNAME_RELEASE} exit ;; *:SolidBSD:*:*) echo ${UNAME_MACHINE}-unknown-solidbsd${UNAME_RELEASE} exit ;; macppc:MirBSD:*:*) echo powerpc-unknown-mirbsd${UNAME_RELEASE} exit ;; *:MirBSD:*:*) echo ${UNAME_MACHINE}-unknown-mirbsd${UNAME_RELEASE} exit ;; alpha:OSF1:*:*) case $UNAME_RELEASE in *4.0) UNAME_RELEASE=`/usr/sbin/sizer -v | awk '{print $3}'` ;; *5.*) UNAME_RELEASE=`/usr/sbin/sizer -v | awk '{print $4}'` ;; esac # According to Compaq, /usr/sbin/psrinfo has been available on # OSF/1 and Tru64 systems produced since 1995. I hope that # covers most systems running today. This code pipes the CPU # types through head -n 1, so we only detect the type of CPU 0. ALPHA_CPU_TYPE=`/usr/sbin/psrinfo -v | sed -n -e 's/^ The alpha \(.*\) processor.*$/\1/p' | head -n 1` case "$ALPHA_CPU_TYPE" in "EV4 (21064)") UNAME_MACHINE="alpha" ;; "EV4.5 (21064)") UNAME_MACHINE="alpha" ;; "LCA4 (21066/21068)") UNAME_MACHINE="alpha" ;; "EV5 (21164)") UNAME_MACHINE="alphaev5" ;; "EV5.6 (21164A)") UNAME_MACHINE="alphaev56" ;; "EV5.6 (21164PC)") UNAME_MACHINE="alphapca56" ;; "EV5.7 (21164PC)") UNAME_MACHINE="alphapca57" ;; "EV6 (21264)") UNAME_MACHINE="alphaev6" ;; "EV6.7 (21264A)") UNAME_MACHINE="alphaev67" ;; "EV6.8CB (21264C)") UNAME_MACHINE="alphaev68" ;; "EV6.8AL (21264B)") UNAME_MACHINE="alphaev68" ;; "EV6.8CX (21264D)") UNAME_MACHINE="alphaev68" ;; "EV6.9A (21264/EV69A)") UNAME_MACHINE="alphaev69" ;; "EV7 (21364)") UNAME_MACHINE="alphaev7" ;; "EV7.9 (21364A)") UNAME_MACHINE="alphaev79" ;; esac # A Pn.n version is a patched version. # A Vn.n version is a released version. # A Tn.n version is a released field test version. # A Xn.n version is an unreleased experimental baselevel. # 1.2 uses "1.2" for uname -r. echo ${UNAME_MACHINE}-dec-osf`echo ${UNAME_RELEASE} | sed -e 's/^[PVTX]//' | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz'` exit ;; Alpha\ *:Windows_NT*:*) # How do we know it's Interix rather than the generic POSIX subsystem? # Should we change UNAME_MACHINE based on the output of uname instead # of the specific Alpha model? echo alpha-pc-interix exit ;; 21064:Windows_NT:50:3) echo alpha-dec-winnt3.5 exit ;; Amiga*:UNIX_System_V:4.0:*) echo m68k-unknown-sysv4 exit ;; *:[Aa]miga[Oo][Ss]:*:*) echo ${UNAME_MACHINE}-unknown-amigaos exit ;; *:[Mm]orph[Oo][Ss]:*:*) echo ${UNAME_MACHINE}-unknown-morphos exit ;; *:OS/390:*:*) echo i370-ibm-openedition exit ;; *:z/VM:*:*) echo s390-ibm-zvmoe exit ;; *:OS400:*:*) echo powerpc-ibm-os400 exit ;; arm:RISC*:1.[012]*:*|arm:riscix:1.[012]*:*) echo arm-acorn-riscix${UNAME_RELEASE} exit ;; arm:riscos:*:*|arm:RISCOS:*:*) echo arm-unknown-riscos exit ;; SR2?01:HI-UX/MPP:*:* | SR8000:HI-UX/MPP:*:*) echo hppa1.1-hitachi-hiuxmpp exit ;; Pyramid*:OSx*:*:* | MIS*:OSx*:*:* | MIS*:SMP_DC-OSx*:*:*) # akee@wpdis03.wpafb.af.mil (Earle F. Ake) contributed MIS and NILE. if test "`(/bin/universe) 2>/dev/null`" = att ; then echo pyramid-pyramid-sysv3 else echo pyramid-pyramid-bsd fi exit ;; NILE*:*:*:dcosx) echo pyramid-pyramid-svr4 exit ;; DRS?6000:unix:4.0:6*) echo sparc-icl-nx6 exit ;; DRS?6000:UNIX_SV:4.2*:7* | DRS?6000:isis:4.2*:7*) case `/usr/bin/uname -p` in sparc) echo sparc-icl-nx7; exit ;; esac ;; s390x:SunOS:*:*) echo ${UNAME_MACHINE}-ibm-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; sun4H:SunOS:5.*:*) echo sparc-hal-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; sun4*:SunOS:5.*:* | tadpole*:SunOS:5.*:*) echo sparc-sun-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; i86pc:AuroraUX:5.*:* | i86xen:AuroraUX:5.*:*) echo i386-pc-auroraux${UNAME_RELEASE} exit ;; i86pc:SunOS:5.*:* | i86xen:SunOS:5.*:*) eval $set_cc_for_build SUN_ARCH="i386" # If there is a compiler, see if it is configured for 64-bit objects. # Note that the Sun cc does not turn __LP64__ into 1 like gcc does. # This test works for both compilers. if [ "$CC_FOR_BUILD" != 'no_compiler_found' ]; then if (echo '#ifdef __amd64'; echo IS_64BIT_ARCH; echo '#endif') | \ (CCOPTS= $CC_FOR_BUILD -E - 2>/dev/null) | \ grep IS_64BIT_ARCH >/dev/null then SUN_ARCH="x86_64" fi fi echo ${SUN_ARCH}-pc-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; sun4*:SunOS:6*:*) # According to config.sub, this is the proper way to canonicalize # SunOS6. Hard to guess exactly what SunOS6 will be like, but # it's likely to be more like Solaris than SunOS4. echo sparc-sun-solaris3`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'` exit ;; sun4*:SunOS:*:*) case "`/usr/bin/arch -k`" in Series*|S4*) UNAME_RELEASE=`uname -v` ;; esac # Japanese Language versions have a version number like `4.1.3-JL'. echo sparc-sun-sunos`echo ${UNAME_RELEASE}|sed -e 's/-/_/'` exit ;; sun3*:SunOS:*:*) echo m68k-sun-sunos${UNAME_RELEASE} exit ;; sun*:*:4.2BSD:*) UNAME_RELEASE=`(sed 1q /etc/motd | awk '{print substr($5,1,3)}') 2>/dev/null` test "x${UNAME_RELEASE}" = "x" && UNAME_RELEASE=3 case "`/bin/arch`" in sun3) echo m68k-sun-sunos${UNAME_RELEASE} ;; sun4) echo sparc-sun-sunos${UNAME_RELEASE} ;; esac exit ;; aushp:SunOS:*:*) echo sparc-auspex-sunos${UNAME_RELEASE} exit ;; # The situation for MiNT is a little confusing. The machine name # can be virtually everything (everything which is not # "atarist" or "atariste" at least should have a processor # > m68000). The system name ranges from "MiNT" over "FreeMiNT" # to the lowercase version "mint" (or "freemint"). Finally # the system name "TOS" denotes a system which is actually not # MiNT. But MiNT is downward compatible to TOS, so this should # be no problem. atarist[e]:*MiNT:*:* | atarist[e]:*mint:*:* | atarist[e]:*TOS:*:*) echo m68k-atari-mint${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 -q __LP64__ 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*:*) case ${UNAME_MACHINE} in x86) echo i586-pc-interix${UNAME_RELEASE} exit ;; authenticamd | genuineintel | EM64T) 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 ;; 8664:Windows_NT:*) echo x86_64-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 ;; 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 -q ld.so.1 if test "$?" = 0 ; then LIBC="libc1" ; else LIBC="" ; fi echo ${UNAME_MACHINE}-unknown-linux-gnu${LIBC} 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 ;; i*86:Linux:*:*) LIBC=gnu eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #ifdef __dietlibc__ LIBC=dietlibc #endif EOF eval `$CC_FOR_BUILD -E $dummy.c 2>/dev/null | grep '^LIBC'` echo "${UNAME_MACHINE}-pc-linux-${LIBC}" 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:*:* | mips64:Linux:*:*) eval $set_cc_for_build sed 's/^ //' << EOF >$dummy.c #undef CPU #undef ${UNAME_MACHINE} #undef ${UNAME_MACHINE}el #if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL) CPU=${UNAME_MACHINE}el #else #if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB) CPU=${UNAME_MACHINE} #else CPU= #endif #endif EOF eval `$CC_FOR_BUILD -E $dummy.c 2>/dev/null | grep '^CPU'` test x"${CPU}" != x && { echo "${CPU}-unknown-linux-gnu"; exit; } ;; or32:Linux:*:*) echo or32-unknown-linux-gnu exit ;; padre:Linux:*:*) echo sparc-unknown-linux-gnu exit ;; parisc64:Linux:*:* | hppa64:Linux:*:*) echo hppa64-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 ;; ppc64:Linux:*:*) echo powerpc64-unknown-linux-gnu exit ;; ppc:Linux:*:*) echo powerpc-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:DYNIX/ptx:4*:*) # ptx 4.0 does uname -s correctly, with DYNIX/ptx in there. # earlier versions are messed up and put the nodename in both # sysname and nodename. echo i386-sequent-sysv4 exit ;; i*86:UNIX_SV:4.2MP:2.*) # Unixware is an offshoot of SVR4, but it has its own version # number series starting with 2... # I am not positive that other SVR4 systems won't match this, # I just have to hope. -- rms. # Use sysv4.2uw... so that sysv4* matches it. echo ${UNAME_MACHINE}-pc-sysv4.2uw${UNAME_VERSION} exit ;; i*86:OS/2:*:*) # If we were able to find `uname', then EMX Unix compatibility # is probably installed. echo ${UNAME_MACHINE}-pc-os2-emx exit ;; i*86:XTS-300:*:STOP) echo ${UNAME_MACHINE}-unknown-stop exit ;; i*86:atheos:*:*) echo ${UNAME_MACHINE}-unknown-atheos exit ;; i*86:syllable:*:*) echo ${UNAME_MACHINE}-pc-syllable exit ;; i*86:LynxOS:2.*:* | i*86:LynxOS:3.[01]*:* | i*86:LynxOS:4.[02]*:*) echo i386-unknown-lynxos${UNAME_RELEASE} exit ;; i*86:*DOS:*:*) echo ${UNAME_MACHINE}-pc-msdosdjgpp exit ;; i*86:*:4.*:* | i*86:SYSTEM_V:4.*:*) UNAME_REL=`echo ${UNAME_RELEASE} | sed 's/\/MP$//'` if grep Novell /usr/include/link.h >/dev/null 2>/dev/null; then echo ${UNAME_MACHINE}-univel-sysv${UNAME_REL} else echo ${UNAME_MACHINE}-pc-sysv${UNAME_REL} fi exit ;; i*86:*:5:[678]*) # UnixWare 7.x, OpenUNIX and OpenServer 6. case `/bin/uname -X | grep "^Machine"` in *486*) UNAME_MACHINE=i486 ;; *Pentium) UNAME_MACHINE=i586 ;; *Pent*|*Celeron) UNAME_MACHINE=i686 ;; esac echo ${UNAME_MACHINE}-unknown-sysv${UNAME_RELEASE}${UNAME_SYSTEM}${UNAME_VERSION} exit ;; i*86:*:3.2:*) if test -f /usr/options/cb.name; then UNAME_REL=`sed -n 's/.*Version //p' /dev/null >/dev/null ; then UNAME_REL=`(/bin/uname -X|grep Release|sed -e 's/.*= //')` (/bin/uname -X|grep i80486 >/dev/null) && UNAME_MACHINE=i486 (/bin/uname -X|grep '^Machine.*Pentium' >/dev/null) \ && UNAME_MACHINE=i586 (/bin/uname -X|grep '^Machine.*Pent *II' >/dev/null) \ && UNAME_MACHINE=i686 (/bin/uname -X|grep '^Machine.*Pentium Pro' >/dev/null) \ && UNAME_MACHINE=i686 echo ${UNAME_MACHINE}-pc-sco$UNAME_REL else echo ${UNAME_MACHINE}-pc-sysv32 fi exit ;; pc:*:*:*) # Left here for compatibility: # uname -m prints for DJGPP always 'pc', but it prints nothing about # the processor, so we play safe by assuming i586. # Note: whatever this is, it MUST be the same as what config.sub # prints for the "djgpp" host, or else GDB configury will decide that # this is a cross-build. echo i586-pc-msdosdjgpp exit ;; Intel:Mach:3*:*) echo i386-pc-mach3 exit ;; paragon:*:*:*) echo i860-intel-osf1 exit ;; i860:*:4.*:*) # i860-SVR4 if grep Stardent /usr/include/sys/uadmin.h >/dev/null 2>&1 ; then echo i860-stardent-sysv${UNAME_RELEASE} # Stardent Vistra i860-SVR4 else # Add other i860-SVR4 vendors below as they are discovered. echo i860-unknown-sysv${UNAME_RELEASE} # Unknown i860-SVR4 fi exit ;; mini*:CTIX:SYS*5:*) # "miniframe" echo m68010-convergent-sysv exit ;; mc68k:UNIX:SYSTEM5:3.51m) echo m68k-convergent-sysv exit ;; M680?0:D-NIX:5.3:*) echo m68k-diab-dnix exit ;; M68*:*:R3V[5678]*:*) test -r /sysV68 && { echo 'm68k-motorola-sysv'; exit; } ;; 3[345]??:*:4.0:3.0 | 3[34]??A:*:4.0:3.0 | 3[34]??,*:*:4.0:3.0 | 3[34]??/*:*:4.0:3.0 | 4400:*:4.0:3.0 | 4850:*:4.0:3.0 | SKA40:*:4.0:3.0 | SDS2:*:4.0:3.0 | SHG2:*:4.0:3.0 | S7501*:*:4.0:3.0) OS_REL='' test -r /etc/.relid \ && OS_REL=.`sed -n 's/[^ ]* [^ ]* \([0-9][0-9]\).*/\1/p' < /etc/.relid` /bin/uname -p 2>/dev/null | grep 86 >/dev/null \ && { echo i486-ncr-sysv4.3${OS_REL}; exit; } /bin/uname -p 2>/dev/null | /bin/grep entium >/dev/null \ && { echo i586-ncr-sysv4.3${OS_REL}; exit; } ;; 3[34]??:*:4.0:* | 3[34]??,*:*:4.0:*) /bin/uname -p 2>/dev/null | grep 86 >/dev/null \ && { echo i486-ncr-sysv4; exit; } ;; NCR*:*:4.2:* | MPRAS*:*:4.2:*) OS_REL='.3' test -r /etc/.relid \ && OS_REL=.`sed -n 's/[^ ]* [^ ]* \([0-9][0-9]\).*/\1/p' < /etc/.relid` /bin/uname -p 2>/dev/null | grep 86 >/dev/null \ && { echo i486-ncr-sysv4.3${OS_REL}; exit; } /bin/uname -p 2>/dev/null | /bin/grep entium >/dev/null \ && { echo i586-ncr-sysv4.3${OS_REL}; exit; } /bin/uname -p 2>/dev/null | /bin/grep pteron >/dev/null \ && { echo i586-ncr-sysv4.3${OS_REL}; exit; } ;; m68*:LynxOS:2.*:* | m68*:LynxOS:3.0*:*) echo m68k-unknown-lynxos${UNAME_RELEASE} exit ;; mc68030:UNIX_System_V:4.*:*) echo m68k-atari-sysv4 exit ;; TSUNAMI:LynxOS:2.*:*) echo sparc-unknown-lynxos${UNAME_RELEASE} exit ;; rs6000:LynxOS:2.*:*) echo rs6000-unknown-lynxos${UNAME_RELEASE} exit ;; PowerPC:LynxOS:2.*:* | PowerPC:LynxOS:3.[01]*:* | PowerPC:LynxOS:4.[02]*:*) echo powerpc-unknown-lynxos${UNAME_RELEASE} exit ;; SM[BE]S:UNIX_SV:*:*) echo mips-dde-sysv${UNAME_RELEASE} exit ;; RM*:ReliantUNIX-*:*:*) echo mips-sni-sysv4 exit ;; RM*:SINIX-*:*:*) echo mips-sni-sysv4 exit ;; *:SINIX-*:*:*) if uname -p 2>/dev/null >/dev/null ; then UNAME_MACHINE=`(uname -p) 2>/dev/null` echo ${UNAME_MACHINE}-sni-sysv4 else echo ns32k-sni-sysv fi exit ;; PENTIUM:*:4.0*:*) # Unisys `ClearPath HMP IX 4000' SVR4/MP effort # says echo i586-unisys-sysv4 exit ;; *:UNIX_System_V:4*:FTX*) # From Gerald Hewes . # How about differentiating between stratus architectures? -djm echo hppa1.1-stratus-sysv4 exit ;; *:*:*:FTX*) # From seanf@swdc.stratus.com. echo i860-stratus-sysv4 exit ;; i*86:VOS:*:*) # From Paul.Green@stratus.com. echo ${UNAME_MACHINE}-stratus-vos exit ;; *:VOS:*:*) # From Paul.Green@stratus.com. echo hppa1.1-stratus-vos exit ;; mc68*:A/UX:*:*) echo m68k-apple-aux${UNAME_RELEASE} exit ;; news*:NEWS-OS:6*:*) echo mips-sony-newsos6 exit ;; R[34]000:*System_V*:*:* | R4000:UNIX_SYSV:*:* | R*000:UNIX_SV:*:*) if [ -d /usr/nec ]; then echo mips-nec-sysv${UNAME_RELEASE} else echo mips-unknown-sysv${UNAME_RELEASE} fi exit ;; BeBox:BeOS:*:*) # BeOS running on hardware made by Be, PPC only. echo powerpc-be-beos exit ;; BeMac:BeOS:*:*) # BeOS running on Mac or Mac clone, PPC only. echo powerpc-apple-beos exit ;; BePC:BeOS:*:*) # BeOS running on Intel PC compatible. echo i586-pc-beos exit ;; BePC:Haiku:*:*) # Haiku running on Intel PC compatible. echo i586-pc-haiku exit ;; SX-4:SUPER-UX:*:*) echo sx4-nec-superux${UNAME_RELEASE} exit ;; SX-5:SUPER-UX:*:*) echo sx5-nec-superux${UNAME_RELEASE} exit ;; SX-6:SUPER-UX:*:*) echo sx6-nec-superux${UNAME_RELEASE} exit ;; SX-7:SUPER-UX:*:*) echo sx7-nec-superux${UNAME_RELEASE} exit ;; SX-8:SUPER-UX:*:*) echo sx8-nec-superux${UNAME_RELEASE} exit ;; SX-8R:SUPER-UX:*:*) echo sx8r-nec-superux${UNAME_RELEASE} exit ;; Power*:Rhapsody:*:*) echo powerpc-apple-rhapsody${UNAME_RELEASE} exit ;; *:Rhapsody:*:*) echo ${UNAME_MACHINE}-apple-rhapsody${UNAME_RELEASE} exit ;; *:Darwin:*:*) UNAME_PROCESSOR=`uname -p` || UNAME_PROCESSOR=unknown case $UNAME_PROCESSOR in i386) eval $set_cc_for_build if [ "$CC_FOR_BUILD" != 'no_compiler_found' ]; then if (echo '#ifdef __LP64__'; echo IS_64BIT_ARCH; echo '#endif') | \ (CCOPTS= $CC_FOR_BUILD -E - 2>/dev/null) | \ grep IS_64BIT_ARCH >/dev/null then UNAME_PROCESSOR="x86_64" fi fi ;; unknown) UNAME_PROCESSOR=powerpc ;; esac echo ${UNAME_PROCESSOR}-apple-darwin${UNAME_RELEASE} exit ;; *:procnto*:*:* | *:QNX:[0123456789]*:*) UNAME_PROCESSOR=`uname -p` if test "$UNAME_PROCESSOR" = "x86"; then UNAME_PROCESSOR=i386 UNAME_MACHINE=pc fi echo ${UNAME_PROCESSOR}-${UNAME_MACHINE}-nto-qnx${UNAME_RELEASE} exit ;; *:QNX:*:4*) echo i386-pc-qnx exit ;; NSE-?:NONSTOP_KERNEL:*:*) echo nse-tandem-nsk${UNAME_RELEASE} exit ;; NSR-?:NONSTOP_KERNEL:*:*) echo nsr-tandem-nsk${UNAME_RELEASE} exit ;; *:NonStop-UX:*:*) echo mips-compaq-nonstopux exit ;; BS2000:POSIX*:*:*) echo bs2000-siemens-sysv exit ;; DS/*:UNIX_System_V:*:*) echo ${UNAME_MACHINE}-${UNAME_SYSTEM}-${UNAME_RELEASE} exit ;; *:Plan9:*:*) # "uname -m" is not consistent, so use $cputype instead. 386 # is converted to i386 for consistency with other x86 # operating systems. if test "$cputype" = "386"; then UNAME_MACHINE=i386 else UNAME_MACHINE="$cputype" fi echo ${UNAME_MACHINE}-unknown-plan9 exit ;; *:TOPS-10:*:*) echo pdp10-unknown-tops10 exit ;; *:TENEX:*:*) echo pdp10-unknown-tenex exit ;; KS10:TOPS-20:*:* | KL10:TOPS-20:*:* | TYPE4:TOPS-20:*:*) echo pdp10-dec-tops20 exit ;; XKL-1:TOPS-20:*:* | TYPE5:TOPS-20:*:*) echo pdp10-xkl-tops20 exit ;; *:TOPS-20:*:*) echo pdp10-unknown-tops20 exit ;; *:ITS:*:*) echo pdp10-unknown-its exit ;; SEI:*:*:SEIUX) echo mips-sei-seiux${UNAME_RELEASE} exit ;; *:DragonFly:*:*) echo ${UNAME_MACHINE}-unknown-dragonfly`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` exit ;; *:*VMS:*:*) UNAME_MACHINE=`(uname -p) 2>/dev/null` case "${UNAME_MACHINE}" in A*) echo alpha-dec-vms ; exit ;; I*) echo ia64-dec-vms ; exit ;; V*) echo vax-dec-vms ; exit ;; esac ;; *:XENIX:*:SysV) echo i386-pc-xenix exit ;; i*86:skyos:*:*) echo ${UNAME_MACHINE}-pc-skyos`echo ${UNAME_RELEASE}` | sed -e 's/ .*$//' exit ;; i*86:rdos:*:*) echo ${UNAME_MACHINE}-pc-rdos exit ;; i*86:AROS:*:*) echo ${UNAME_MACHINE}-pc-aros exit ;; esac #echo '(No uname command or uname output not recognized.)' 1>&2 #echo "${UNAME_MACHINE}:${UNAME_SYSTEM}:${UNAME_RELEASE}:${UNAME_VERSION}" 1>&2 eval $set_cc_for_build cat >$dummy.c < # include #endif main () { #if defined (sony) #if defined (MIPSEB) /* BFD wants "bsd" instead of "newsos". Perhaps BFD should be changed, I don't know.... */ printf ("mips-sony-bsd\n"); exit (0); #else #include printf ("m68k-sony-newsos%s\n", #ifdef NEWSOS4 "4" #else "" #endif ); exit (0); #endif #endif #if defined (__arm) && defined (__acorn) && defined (__unix) printf ("arm-acorn-riscix\n"); exit (0); #endif #if defined (hp300) && !defined (hpux) printf ("m68k-hp-bsd\n"); exit (0); #endif #if defined (NeXT) #if !defined (__ARCHITECTURE__) #define __ARCHITECTURE__ "m68k" #endif int version; version=`(hostinfo | sed -n 's/.*NeXT Mach \([0-9]*\).*/\1/p') 2>/dev/null`; if (version < 4) printf ("%s-next-nextstep%d\n", __ARCHITECTURE__, version); else printf ("%s-next-openstep%d\n", __ARCHITECTURE__, version); exit (0); #endif #if defined (MULTIMAX) || defined (n16) #if defined (UMAXV) printf ("ns32k-encore-sysv\n"); exit (0); #else #if defined (CMU) printf ("ns32k-encore-mach\n"); exit (0); #else printf ("ns32k-encore-bsd\n"); exit (0); #endif #endif #endif #if defined (__386BSD__) printf ("i386-pc-bsd\n"); exit (0); #endif #if defined (sequent) #if defined (i386) printf ("i386-sequent-dynix\n"); exit (0); #endif #if defined (ns32000) printf ("ns32k-sequent-dynix\n"); exit (0); #endif #endif #if defined (_SEQUENT_) struct utsname un; uname(&un); if (strncmp(un.version, "V2", 2) == 0) { printf ("i386-sequent-ptx2\n"); exit (0); } if (strncmp(un.version, "V1", 2) == 0) { /* XXX is V1 correct? */ printf ("i386-sequent-ptx1\n"); exit (0); } printf ("i386-sequent-ptx\n"); exit (0); #endif #if defined (vax) # if !defined (ultrix) # include # if defined (BSD) # if BSD == 43 printf ("vax-dec-bsd4.3\n"); exit (0); # else # if BSD == 199006 printf ("vax-dec-bsd4.3reno\n"); exit (0); # else printf ("vax-dec-bsd\n"); exit (0); # endif # endif # else printf ("vax-dec-bsd\n"); exit (0); # endif # else printf ("vax-dec-ultrix\n"); exit (0); # endif #endif #if defined (alliant) && defined (i860) printf ("i860-alliant-bsd\n"); exit (0); #endif exit (1); } EOF $CC_FOR_BUILD -o $dummy $dummy.c 2>/dev/null && SYSTEM_NAME=`$dummy` && { echo "$SYSTEM_NAME"; exit; } # Apollos put the system type in the environment. test -d /usr/apollo && { echo ${ISP}-apollo-${SYSTYPE}; exit; } # Convex versions that predate uname can use getsysinfo(1) if [ -x /usr/convex/getsysinfo ] then case `getsysinfo -f cpu_type` in c1*) echo c1-convex-bsd exit ;; c2*) if getsysinfo -f scalar_acc then echo c32-convex-bsd else echo c2-convex-bsd fi exit ;; c34*) echo c34-convex-bsd exit ;; c38*) echo c38-convex-bsd exit ;; c4*) echo c4-convex-bsd exit ;; esac fi cat >&2 < in order to provide the needed information to handle your system. config.guess timestamp = $timestamp uname -m = `(uname -m) 2>/dev/null || echo unknown` uname -r = `(uname -r) 2>/dev/null || echo unknown` uname -s = `(uname -s) 2>/dev/null || echo unknown` uname -v = `(uname -v) 2>/dev/null || echo unknown` /usr/bin/uname -p = `(/usr/bin/uname -p) 2>/dev/null` /bin/uname -X = `(/bin/uname -X) 2>/dev/null` hostinfo = `(hostinfo) 2>/dev/null` /bin/universe = `(/bin/universe) 2>/dev/null` /usr/bin/arch -k = `(/usr/bin/arch -k) 2>/dev/null` /bin/arch = `(/bin/arch) 2>/dev/null` /usr/bin/oslevel = `(/usr/bin/oslevel) 2>/dev/null` /usr/convex/getsysinfo = `(/usr/convex/getsysinfo) 2>/dev/null` UNAME_MACHINE = ${UNAME_MACHINE} UNAME_RELEASE = ${UNAME_RELEASE} UNAME_SYSTEM = ${UNAME_SYSTEM} UNAME_VERSION = ${UNAME_VERSION} EOF exit 1 # Local variables: # eval: (add-hook 'write-file-hooks 'time-stamp) # time-stamp-start: "timestamp='" # time-stamp-format: "%:y-%02m-%02d" # time-stamp-end: "'" # End: PDL-IO-Matlab-release-0.005/matio-1.5.0/config/config.sub000077500000000000000000001034451206363665300222770ustar00rootroot00000000000000#! /bin/sh # Configuration validation subroutine script. # Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, # 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 # Free Software Foundation, Inc. timestamp='2010-01-22' # This file is (in principle) common to ALL GNU software. # The presence of a machine in this file suggests that SOME GNU software # can handle that machine. 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 . Submit a context # diff and a properly formatted GNU ChangeLog entry. # # Configuration subroutine to validate and canonicalize a configuration type. # Supply the specified configuration type as an argument. # If it is invalid, we print an error message on stderr and exit with code 1. # Otherwise, we print the canonical config type on stdout and succeed. # You can get the latest version of this script from: # http://git.savannah.gnu.org/gitweb/?p=config.git;a=blob_plain;f=config.sub;hb=HEAD # This file is supposed to be the same for all GNU packages # and recognize all the CPU types, system types and aliases # that are meaningful with *any* GNU software. # Each package is responsible for reporting which valid configurations # it does not support. The user should be able to distinguish # a failure to support a valid configuration from a meaningless # configuration. # The goal of this file is to map all the various variations of a given # machine specification into a single specification in the form: # CPU_TYPE-MANUFACTURER-OPERATING_SYSTEM # or in some cases, the newer four-part form: # CPU_TYPE-MANUFACTURER-KERNEL-OPERATING_SYSTEM # It is wrong to echo any other type of specification. me=`echo "$0" | sed -e 's,.*/,,'` usage="\ Usage: $0 [OPTION] CPU-MFR-OPSYS $0 [OPTION] ALIAS Canonicalize a configuration name. Operation modes: -h, --help print this help, then exit -t, --time-stamp print date of last modification, then exit -v, --version print version number, then exit Report bugs and patches to ." version="\ GNU config.sub ($timestamp) Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc. This is free software; see the source for copying conditions. There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE." help=" Try \`$me --help' for more information." # Parse command line while test $# -gt 0 ; do case $1 in --time-stamp | --time* | -t ) echo "$timestamp" ; exit ;; --version | -v ) echo "$version" ; exit ;; --help | --h* | -h ) echo "$usage"; exit ;; -- ) # Stop option processing shift; break ;; - ) # Use stdin as input. break ;; -* ) echo "$me: invalid option $1$help" exit 1 ;; *local*) # First pass through any local machine types. echo $1 exit ;; * ) break ;; esac done case $# in 0) echo "$me: missing argument$help" >&2 exit 1;; 1) ;; *) echo "$me: too many arguments$help" >&2 exit 1;; esac # Separate what the user gave into CPU-COMPANY and OS or KERNEL-OS (if any). # Here we must recognize all the valid KERNEL-OS combinations. maybe_os=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\2/'` case $maybe_os in nto-qnx* | linux-gnu* | linux-dietlibc | linux-newlib* | linux-uclibc* | \ uclinux-uclibc* | uclinux-gnu* | kfreebsd*-gnu* | knetbsd*-gnu* | netbsd*-gnu* | \ kopensolaris*-gnu* | \ storm-chaos* | os2-emx* | rtmk-nova*) os=-$maybe_os basic_machine=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\1/'` ;; *) basic_machine=`echo $1 | sed 's/-[^-]*$//'` if [ $basic_machine != $1 ] then os=`echo $1 | sed 's/.*-/-/'` else os=; fi ;; esac ### Let's recognize common machines as not being operating systems so ### that things like config.sub decstation-3100 work. We also ### recognize some manufacturers as not being operating systems, so we ### can provide default operating systems below. case $os in -sun*os*) # Prevent following clause from handling this invalid input. ;; -dec* | -mips* | -sequent* | -encore* | -pc532* | -sgi* | -sony* | \ -att* | -7300* | -3300* | -delta* | -motorola* | -sun[234]* | \ -unicom* | -ibm* | -next | -hp | -isi* | -apollo | -altos* | \ -convergent* | -ncr* | -news | -32* | -3600* | -3100* | -hitachi* |\ -c[123]* | -convex* | -sun | -crds | -omron* | -dg | -ultra | -tti* | \ -harris | -dolphin | -highlevel | -gould | -cbm | -ns | -masscomp | \ -apple | -axis | -knuth | -cray | -microblaze) os= basic_machine=$1 ;; -bluegene*) os=-cnk ;; -sim | -cisco | -oki | -wec | -winbond) os= basic_machine=$1 ;; -scout) ;; -wrs) os=-vxworks basic_machine=$1 ;; -chorusos*) os=-chorusos basic_machine=$1 ;; -chorusrdb) os=-chorusrdb basic_machine=$1 ;; -hiux*) os=-hiuxwe2 ;; -sco6) os=-sco5v6 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco5) os=-sco3.2v5 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco4) os=-sco3.2v4 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco3.2.[4-9]*) os=`echo $os | sed -e 's/sco3.2./sco3.2v/'` basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco3.2v[4-9]*) # Don't forget version if it is 3.2v4 or newer. basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco5v6*) # Don't forget version if it is 3.2v4 or newer. basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -sco*) os=-sco3.2v2 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -udk*) basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -isc) os=-isc2.2 basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -clix*) basic_machine=clipper-intergraph ;; -isc*) basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'` ;; -lynx*) os=-lynxos ;; -ptx*) basic_machine=`echo $1 | sed -e 's/86-.*/86-sequent/'` ;; -windowsnt*) os=`echo $os | sed -e 's/windowsnt/winnt/'` ;; -psos*) os=-psos ;; -mint | -mint[0-9]*) basic_machine=m68k-atari os=-mint ;; esac # Decode aliases for certain CPU-COMPANY combinations. case $basic_machine in # Recognize the basic CPU types without company name. # Some are omitted here because they have special meanings below. 1750a | 580 \ | a29k \ | alpha | alphaev[4-8] | alphaev56 | alphaev6[78] | alphapca5[67] \ | alpha64 | alpha64ev[4-8] | alpha64ev56 | alpha64ev6[78] | alpha64pca5[67] \ | am33_2.0 \ | arc | arm | arm[bl]e | arme[lb] | armv[2345] | armv[345][lb] | avr | avr32 \ | bfin \ | c4x | clipper \ | d10v | d30v | dlx | dsp16xx \ | fido | fr30 | frv \ | h8300 | h8500 | hppa | hppa1.[01] | hppa2.0 | hppa2.0[nw] | hppa64 \ | i370 | i860 | i960 | ia64 \ | ip2k | iq2000 \ | lm32 \ | m32c | m32r | m32rle | m68000 | m68k | m88k \ | maxq | mb | microblaze | mcore | mep | metag \ | mips | mipsbe | mipseb | mipsel | mipsle \ | mips16 \ | mips64 | mips64el \ | mips64octeon | mips64octeonel \ | mips64orion | mips64orionel \ | mips64r5900 | mips64r5900el \ | mips64vr | mips64vrel \ | mips64vr4100 | mips64vr4100el \ | mips64vr4300 | mips64vr4300el \ | mips64vr5000 | mips64vr5000el \ | mips64vr5900 | mips64vr5900el \ | mipsisa32 | mipsisa32el \ | mipsisa32r2 | mipsisa32r2el \ | mipsisa64 | mipsisa64el \ | mipsisa64r2 | mipsisa64r2el \ | mipsisa64sb1 | mipsisa64sb1el \ | mipsisa64sr71k | mipsisa64sr71kel \ | mipstx39 | mipstx39el \ | mn10200 | mn10300 \ | moxie \ | mt \ | msp430 \ | nios | nios2 \ | ns16k | ns32k \ | or32 \ | pdp10 | pdp11 | pj | pjl \ | powerpc | powerpc64 | powerpc64le | powerpcle | ppcbe \ | pyramid \ | rx \ | score \ | sh | sh[1234] | sh[24]a | sh[24]aeb | sh[23]e | sh[34]eb | sheb | shbe | shle | sh[1234]le | sh3ele \ | sh64 | sh64le \ | sparc | sparc64 | sparc64b | sparc64v | sparc86x | sparclet | sparclite \ | sparcv8 | sparcv9 | sparcv9b | sparcv9v \ | spu | strongarm \ | tahoe | thumb | tic4x | tic80 | tron \ | ubicom32 \ | v850 | v850e \ | we32k \ | x86 | xc16x | xscale | xscalee[bl] | xstormy16 | xtensa \ | z8k | z80) basic_machine=$basic_machine-unknown ;; m6811 | m68hc11 | m6812 | m68hc12 | picochip) # 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-* | microblaze-* \ | 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-* | rx-* \ | 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-* | tilegx-* \ | tron-* \ | ubicom32-* \ | 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 ;; bluegene*) basic_machine=powerpc-ibm os=-cnk ;; 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. 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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 ;; # This must be matched before tile*. tilegx*) basic_machine=tilegx-unknown os=-linux-gnu ;; 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 ;; 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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., 59 Temple Place - Suite 330, Boston, MA # 02111-1307, 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'. DEPDIR directory where to store dependencies. depfile Dependency file to output. tmpdepfile Temporary file to use when outputing dependencies. libtool Whether libtool is used (yes/no). Report bugs to . EOF exit 0 ;; -v | --v*) echo "depcomp $scriptversion" exit 0 ;; esac if test -z "$depmode" || test -z "$source" || test -z "$object"; then echo "depcomp: Variables source, object and depmode must be set" 1>&2 exit 1 fi # Dependencies for sub/bar.o or sub/bar.obj go into sub/.deps/bar.Po. depfile=${depfile-`echo "$object" | sed 's|[^\\/]*$|'${DEPDIR-.deps}'/&|;s|\.\([^.]*\)$|.P\1|;s|Pobj$|Po|'`} tmpdepfile=${tmpdepfile-`echo "$depfile" | sed 's/\.\([^.]*\)$/.T\1/'`} rm -f "$tmpdepfile" # Some modes work just like other modes, but use different flags. We # parameterize here, but still list the modes in the big case below, # to make depend.m4 easier to write. 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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 GNU Libtool; see the file COPYING. If not, a copy # can be downloaded from http://www.gnu.org/licenses/gpl.html, or # obtained by writing to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ]) # serial 57 LT_INIT # LT_PREREQ(VERSION) # ------------------ # Complain and exit if this libtool version is less that VERSION. m4_defun([LT_PREREQ], [m4_if(m4_version_compare(m4_defn([LT_PACKAGE_VERSION]), [$1]), -1, [m4_default([$3], [m4_fatal([Libtool version $1 or higher is required], 63)])], [$2])]) # _LT_CHECK_BUILDDIR # ------------------ # Complain if the absolute build directory name contains unusual characters m4_defun([_LT_CHECK_BUILDDIR], [case `pwd` in *\ * | *\ *) AC_MSG_WARN([Libtool does not cope well with whitespace in `pwd`]) ;; esac ]) # LT_INIT([OPTIONS]) # ------------------ AC_DEFUN([LT_INIT], [AC_PREREQ([2.58])dnl We use AC_INCLUDES_DEFAULT AC_REQUIRE([AC_CONFIG_AUX_DIR_DEFAULT])dnl AC_BEFORE([$0], [LT_LANG])dnl AC_BEFORE([$0], [LT_OUTPUT])dnl AC_BEFORE([$0], [LTDL_INIT])dnl m4_require([_LT_CHECK_BUILDDIR])dnl dnl Autoconf doesn't catch unexpanded LT_ macros by default: m4_pattern_forbid([^_?LT_[A-Z_]+$])dnl m4_pattern_allow([^(_LT_EOF|LT_DLGLOBAL|LT_DLLAZY_OR_NOW|LT_MULTI_MODULE)$])dnl dnl aclocal doesn't pull ltoptions.m4, ltsugar.m4, or ltversion.m4 dnl unless we require an AC_DEFUNed macro: AC_REQUIRE([LTOPTIONS_VERSION])dnl AC_REQUIRE([LTSUGAR_VERSION])dnl AC_REQUIRE([LTVERSION_VERSION])dnl AC_REQUIRE([LTOBSOLETE_VERSION])dnl m4_require([_LT_PROG_LTMAIN])dnl _LT_SHELL_INIT([SHELL=${CONFIG_SHELL-/bin/sh}]) dnl Parse OPTIONS _LT_SET_OPTIONS([$0], [$1]) # This can be used to rebuild libtool when needed LIBTOOL_DEPS="$ltmain" # Always use our own libtool. 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then # Fast installation is not necessary enable_fast_install=needless fi _LT_TAGDECL([], [hardcode_action], [0], [How to hardcode a shared library path into an executable]) ])# _LT_LINKER_HARDCODE_LIBPATH # _LT_CMD_STRIPLIB # ---------------- m4_defun([_LT_CMD_STRIPLIB], [m4_require([_LT_DECL_EGREP]) striplib= old_striplib= AC_MSG_CHECKING([whether stripping libraries is possible]) if test -n "$STRIP" && $STRIP -V 2>&1 | $GREP "GNU strip" >/dev/null; then test -z "$old_striplib" && old_striplib="$STRIP --strip-debug" test -z "$striplib" && striplib="$STRIP --strip-unneeded" AC_MSG_RESULT([yes]) else # FIXME - insert some real tests, host_os isn't really good enough case $host_os in darwin*) if test -n "$STRIP" ; then striplib="$STRIP -x" old_striplib="$STRIP -S" AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ;; *) AC_MSG_RESULT([no]) ;; esac fi _LT_DECL([], [old_striplib], [1], [Commands to strip libraries]) _LT_DECL([], [striplib], [1]) ])# _LT_CMD_STRIPLIB # _LT_SYS_DYNAMIC_LINKER([TAG]) # ----------------------------- # PORTME Fill in your ld.so characteristics m4_defun([_LT_SYS_DYNAMIC_LINKER], [AC_REQUIRE([AC_CANONICAL_HOST])dnl m4_require([_LT_DECL_EGREP])dnl m4_require([_LT_FILEUTILS_DEFAULTS])dnl m4_require([_LT_DECL_OBJDUMP])dnl m4_require([_LT_DECL_SED])dnl m4_require([_LT_CHECK_SHELL_FEATURES])dnl AC_MSG_CHECKING([dynamic linker characteristics]) m4_if([$1], [], [ if test "$GCC" = yes; 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then sys_lib_search_path_spec="/usr/lib/hpux32 /usr/local/lib/hpux32 /usr/local/lib" else sys_lib_search_path_spec="/usr/lib/hpux64 /usr/local/lib/hpux64" fi sys_lib_dlsearch_path_spec=$sys_lib_search_path_spec ;; hppa*64*) shrext_cmds='.sl' hardcode_into_libs=yes dynamic_linker="$host_os dld.sl" shlibpath_var=LD_LIBRARY_PATH # How should we handle SHLIB_PATH shlibpath_overrides_runpath=yes # Unless +noenvvar is specified. library_names_spec='${libname}${release}${shared_ext}$versuffix ${libname}${release}${shared_ext}$major $libname${shared_ext}' soname_spec='${libname}${release}${shared_ext}$major' sys_lib_search_path_spec="/usr/lib/pa20_64 /usr/ccs/lib/pa20_64" sys_lib_dlsearch_path_spec=$sys_lib_search_path_spec ;; *) shrext_cmds='.sl' dynamic_linker="$host_os dld.sl" shlibpath_var=SHLIB_PATH shlibpath_overrides_runpath=no # +s is required to enable SHLIB_PATH library_names_spec='${libname}${release}${shared_ext}$versuffix ${libname}${release}${shared_ext}$major $libname${shared_ext}' soname_spec='${libname}${release}${shared_ext}$major' ;; esac # HP-UX runs *really* slowly unless shared libraries are mode 555, ... postinstall_cmds='chmod 555 $lib' # or fails outright, so override atomically: install_override_mode=555 ;; interix[[3-9]]*) version_type=linux # correct to gnu/linux during the next big refactor need_lib_prefix=no need_version=no library_names_spec='${libname}${release}${shared_ext}$versuffix ${libname}${release}${shared_ext}$major ${libname}${shared_ext}' soname_spec='${libname}${release}${shared_ext}$major' dynamic_linker='Interix 3.x ld.so.1 (PE, like ELF)' shlibpath_var=LD_LIBRARY_PATH shlibpath_overrides_runpath=no hardcode_into_libs=yes ;; irix5* | irix6* | nonstopux*) case $host_os in nonstopux*) version_type=nonstopux ;; *) if test "$lt_cv_prog_gnu_ld" = yes; then version_type=linux # correct to gnu/linux during the next big refactor else version_type=irix fi ;; esac need_lib_prefix=no need_version=no soname_spec='${libname}${release}${shared_ext}$major' library_names_spec='${libname}${release}${shared_ext}$versuffix ${libname}${release}${shared_ext}$major ${libname}${release}${shared_ext} $libname${shared_ext}' case $host_os in irix5* | nonstopux*) libsuff= shlibsuff= ;; *) case $LD in # libtool.m4 will add one of these switches to LD *-32|*"-32 "|*-melf32bsmip|*"-melf32bsmip ") libsuff= shlibsuff= libmagic=32-bit;; *-n32|*"-n32 "|*-melf32bmipn32|*"-melf32bmipn32 ") libsuff=32 shlibsuff=N32 libmagic=N32;; *-64|*"-64 "|*-melf64bmip|*"-melf64bmip ") libsuff=64 shlibsuff=64 libmagic=64-bit;; *) libsuff= shlibsuff= libmagic=never-match;; esac ;; esac shlibpath_var=LD_LIBRARY${shlibsuff}_PATH shlibpath_overrides_runpath=no sys_lib_search_path_spec="/usr/lib${libsuff} /lib${libsuff} /usr/local/lib${libsuff}" sys_lib_dlsearch_path_spec="/usr/lib${libsuff} /lib${libsuff}" hardcode_into_libs=yes ;; # No shared lib support for Linux oldld, aout, or coff. linux*oldld* | linux*aout* | linux*coff*) dynamic_linker=no ;; # This must be glibc/ELF. linux* | k*bsd*-gnu | kopensolaris*-gnu) version_type=linux # correct to gnu/linux during the next big refactor need_lib_prefix=no need_version=no library_names_spec='${libname}${release}${shared_ext}$versuffix ${libname}${release}${shared_ext}$major $libname${shared_ext}' soname_spec='${libname}${release}${shared_ext}$major' finish_cmds='PATH="\$PATH:/sbin" ldconfig -n $libdir' shlibpath_var=LD_LIBRARY_PATH shlibpath_overrides_runpath=no # Some binutils ld are patched to set DT_RUNPATH AC_CACHE_VAL([lt_cv_shlibpath_overrides_runpath], [lt_cv_shlibpath_overrides_runpath=no save_LDFLAGS=$LDFLAGS save_libdir=$libdir eval "libdir=/foo; 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hppa*64*) [lt_cv_deplibs_check_method='file_magic (s[0-9][0-9][0-9]|ELF[ -][0-9][0-9])(-bit)?( [LM]SB)? shared object( file)?[, -]* PA-RISC [0-9]\.[0-9]'] lt_cv_file_magic_test_file=/usr/lib/pa20_64/libc.sl ;; *) lt_cv_deplibs_check_method='file_magic (s[[0-9]][[0-9]][[0-9]]|PA-RISC[[0-9]]\.[[0-9]]) shared library' lt_cv_file_magic_test_file=/usr/lib/libc.sl ;; esac ;; interix[[3-9]]*) # PIC code is broken on Interix 3.x, that's why |\.a not |_pic\.a here lt_cv_deplibs_check_method='match_pattern /lib[[^/]]+(\.so|\.a)$' ;; 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 glibc/ELF. linux* | k*bsd*-gnu | kopensolaris*-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)$' fi ;; 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then # Let the user override the test. lt_cv_path_NM="$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 ;; 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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_CHECK_SHAREDLIB_FROM_LINKLIB # -------------------------------- # how to determine the name of the shared library # associated with a specific link library. # -- PORTME fill in with the dynamic library characteristics m4_defun([_LT_CHECK_SHAREDLIB_FROM_LINKLIB], [m4_require([_LT_DECL_EGREP]) m4_require([_LT_DECL_OBJDUMP]) m4_require([_LT_DECL_DLLTOOL]) AC_CACHE_CHECK([how to associate runtime and link libraries], lt_cv_sharedlib_from_linklib_cmd, [lt_cv_sharedlib_from_linklib_cmd='unknown' case $host_os in cygwin* | mingw* | pw32* | cegcc*) # two different shell functions defined in ltmain.sh # decide which to use based on capabilities of $DLLTOOL case `$DLLTOOL --help 2>&1` in *--identify-strict*) lt_cv_sharedlib_from_linklib_cmd=func_cygming_dll_for_implib ;; *) lt_cv_sharedlib_from_linklib_cmd=func_cygming_dll_for_implib_fallback ;; esac ;; *) # fallback: assume linklib IS sharedlib lt_cv_sharedlib_from_linklib_cmd="$ECHO" ;; esac ]) sharedlib_from_linklib_cmd=$lt_cv_sharedlib_from_linklib_cmd test -z "$sharedlib_from_linklib_cmd" && sharedlib_from_linklib_cmd=$ECHO _LT_DECL([], [sharedlib_from_linklib_cmd], [1], [Command to associate shared and link libraries]) ])# _LT_CHECK_SHAREDLIB_FROM_LINKLIB # _LT_PATH_MANIFEST_TOOL # ---------------------- # locate the manifest tool m4_defun([_LT_PATH_MANIFEST_TOOL], [AC_CHECK_TOOL(MANIFEST_TOOL, mt, :) test -z "$MANIFEST_TOOL" && MANIFEST_TOOL=mt AC_CACHE_CHECK([if $MANIFEST_TOOL is a manifest tool], [lt_cv_path_mainfest_tool], [lt_cv_path_mainfest_tool=no echo "$as_me:$LINENO: $MANIFEST_TOOL '-?'" >&AS_MESSAGE_LOG_FD $MANIFEST_TOOL '-?' 2>conftest.err > conftest.out cat conftest.err >&AS_MESSAGE_LOG_FD if $GREP 'Manifest Tool' conftest.out > /dev/null; then lt_cv_path_mainfest_tool=yes fi rm -f conftest*]) if test "x$lt_cv_path_mainfest_tool" != xyes; then MANIFEST_TOOL=: fi _LT_DECL([], [MANIFEST_TOOL], [1], [Manifest tool])dnl ])# _LT_PATH_MANIFEST_TOOL # LT_LIB_M # -------- # check for math library AC_DEFUN([LT_LIB_M], [AC_REQUIRE([AC_CANONICAL_HOST])dnl LIBM= case $host in *-*-beos* | *-*-cegcc* | *-*-cygwin* | *-*-haiku* | *-*-pw32* | *-*-darwin*) # These system don't have libm, or don't need it ;; *-ncr-sysv4.3*) AC_CHECK_LIB(mw, _mwvalidcheckl, LIBM="-lmw") AC_CHECK_LIB(m, cos, LIBM="$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 case $cc_basename in nvcc*) _LT_TAGVAR(lt_prog_compiler_no_builtin_flag, $1)=' -Xcompiler -fno-builtin' ;; *) _LT_TAGVAR(lt_prog_compiler_no_builtin_flag, $1)=' -fno-builtin' ;; esac _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([AC_PROG_AWK])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. 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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};"\ " /^COFF SYMBOL TABLE/{for(i in hide) delete hide[i]};"\ " /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$opt_cr$/$symxfrm/p'" fi lt_cv_sys_global_symbol_pipe="$lt_cv_sys_global_symbol_pipe | sed '/ __gnu_lto/d'" # 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 /* Keep this code in sync between libtool.m4, ltmain, lt_system.h, and tests. */ #if defined(_WIN32) || defined(__CYGWIN__) || defined(_WIN32_WCE) /* DATA imports from DLLs on WIN32 con't be const, because runtime relocations are performed -- see ld's documentation on pseudo-relocs. */ # define LT@&t@_DLSYM_CONST #elif defined(__osf__) /* This system does not cope well with relocations in const data. */ # define LT@&t@_DLSYM_CONST #else # define LT@&t@_DLSYM_CONST const #endif #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. */ LT@&t@_DLSYM_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.$ac_objext lt_globsym_save_LIBS=$LIBS lt_globsym_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=$lt_globsym_save_LIBS CFLAGS=$lt_globsym_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$lt_cv_sys_global_symbol_to_cdecl"; then AC_MSG_RESULT(failed) else AC_MSG_RESULT(ok) fi # Response file support. if test "$lt_cv_nm_interface" = "MS dumpbin"; then nm_file_list_spec='@' elif $NM --help 2>/dev/null | grep '[[@]]FILE' >/dev/null; then nm_file_list_spec='@' 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_DECL([], [nm_file_list_spec], [1], [Specify filename containing input files for $NM]) ]) # _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)= 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)= ;; haiku*) # PIC is the default for Haiku. # The "-static" flag exists, but is broken. _LT_TAGVAR(lt_prog_compiler_static, $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 ;; 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). m4_if([$1], [GCJ], [], [_LT_TAGVAR(lt_prog_compiler_pic, $1)='-DDLL_EXPORT']) ;; 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 | kopensolaris*-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. It appears that all Alpha # Linux and Compaq Tru64 Unix objects are PIC. _LT_TAGVAR(lt_prog_compiler_pic, $1)= _LT_TAGVAR(lt_prog_compiler_static, $1)='-non_shared' ;; xlc* | xlC* | bgxl[[cC]]* | mpixl[[cC]]*) # IBM XL 8.0, 9.0 on PPC and BlueGene _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)='-Qoption ld ' ;; esac ;; esac ;; lynxos*) ;; m88k*) ;; mvs*) case $cc_basename in cxx*) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-W c,exportall' ;; *) ;; esac ;; netbsd*) ;; *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' ;; osf3* | osf4* | osf5*) case $cc_basename in KCC*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='--backend -Wl,' ;; RCC*) # Rational C++ 2.4.1 _LT_TAGVAR(lt_prog_compiler_pic, $1)='-pic' ;; cxx*) # Digital/Compaq C++ _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' # Make sure the PIC flag is empty. It appears that all Alpha # Linux and Compaq Tru64 Unix objects are PIC. _LT_TAGVAR(lt_prog_compiler_pic, $1)= _LT_TAGVAR(lt_prog_compiler_static, $1)='-non_shared' ;; *) ;; esac ;; psos*) ;; solaris*) case $cc_basename in CC* | sunCC*) # Sun C++ 4.2, 5.x and Centerline C++ _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Qoption ld ' ;; gcx*) # Green Hills C++ Compiler _LT_TAGVAR(lt_prog_compiler_pic, $1)='-PIC' ;; *) ;; esac ;; sunos4*) case $cc_basename in CC*) # Sun C++ 4.x _LT_TAGVAR(lt_prog_compiler_pic, $1)='-pic' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; lcc*) # Lucid _LT_TAGVAR(lt_prog_compiler_pic, $1)='-pic' ;; *) ;; esac ;; sysv5* | unixware* | sco3.2v5* | sco5v6* | OpenUNIX*) case $cc_basename in CC*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; esac ;; tandem*) case $cc_basename in NCC*) # NonStop-UX NCC 3.20 _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' ;; *) ;; esac ;; vxworks*) ;; *) _LT_TAGVAR(lt_prog_compiler_can_build_shared, $1)=no ;; esac fi ], [ if test "$GCC" = 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* | 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). # 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' ;; haiku*) # PIC is the default for Haiku. # The "-static" flag exists, but is broken. _LT_TAGVAR(lt_prog_compiler_static, $1)= ;; 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*) # +Z the default ;; *) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC' ;; esac ;; interix[[3-9]]*) # Interix 3.x gcc -fpic/-fPIC options generate broken code. # Instead, we relocate shared libraries at runtime. ;; msdosdjgpp*) # Just because we use GCC doesn't mean we suddenly get shared libraries # on systems that don't support them. _LT_TAGVAR(lt_prog_compiler_can_build_shared, $1)=no enable_shared=no ;; *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' ;; sysv4*MP*) if test -d /usr/nec; then _LT_TAGVAR(lt_prog_compiler_pic, $1)=-Kconform_pic fi ;; *) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-fPIC' ;; esac case $cc_basename in nvcc*) # Cuda Compiler Driver 2.2 _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Xlinker ' if test -n "$_LT_TAGVAR(lt_prog_compiler_pic, $1)"; then _LT_TAGVAR(lt_prog_compiler_pic, $1)="-Xcompiler $_LT_TAGVAR(lt_prog_compiler_pic, $1)" fi ;; esac else # PORTME Check for flag to pass linker flags through the system compiler. case $host_os in aix*) _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,' if test "$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 ;; 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 | kopensolaris*-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' ;; nagfor*) # NAG Fortran compiler _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Wl,-Wl,,' _LT_TAGVAR(lt_prog_compiler_pic, $1)='-PIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' ;; pgcc* | pgf77* | pgf90* | pgf95* | pgfortran*) # 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* | bgxl* | bgf* | mpixl*) # IBM XL C 8.0/Fortran 10.1, 11.1 on PPC and BlueGene _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\ Ceres\ Fortran* | *Sun*Fortran*\ [[1-7]].* | *Sun*Fortran*\ 8.[[0-3]]*) # 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)='' ;; *Sun\ F* | *Sun*Fortran*) _LT_TAGVAR(lt_prog_compiler_pic, $1)='-KPIC' _LT_TAGVAR(lt_prog_compiler_static, $1)='-Bstatic' _LT_TAGVAR(lt_prog_compiler_wl, $1)='-Qoption ld ' ;; 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FIXME _LT_TAGVAR(archive_cmds, $1)='$CC -nostart $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname -o $lib' else _LT_TAGVAR(ld_shlibs, $1)=no fi ;; cygwin* | mingw* | pw32* | cegcc*) # _LT_TAGVAR(hardcode_libdir_flag_spec, $1) is actually meaningless, # as there is no search path for DLLs. _LT_TAGVAR(hardcode_libdir_flag_spec, $1)='-L$libdir' _LT_TAGVAR(export_dynamic_flag_spec, $1)='${wl}--export-all-symbols' _LT_TAGVAR(allow_undefined_flag, $1)=unsupported _LT_TAGVAR(always_export_symbols, $1)=no _LT_TAGVAR(enable_shared_with_static_runtimes, $1)=yes _LT_TAGVAR(export_symbols_cmds, $1)='$NM $libobjs $convenience | $global_symbol_pipe | $SED -e '\''/^[[BCDGRS]][[ ]]/s/.*[[ ]]\([[^ ]]*\)/\1 DATA/;s/^.*[[ ]]__nm__\([[^ ]]*\)[[ ]][[^ ]]*/\1 DATA/;/^I[[ ]]/d;/^[[AITW]][[ ]]/s/.* //'\'' | sort | uniq > $export_symbols' _LT_TAGVAR(exclude_expsyms, $1)=['[_]+GLOBAL_OFFSET_TABLE_|[_]+GLOBAL__[FID]_.*|[_]+head_[A-Za-z0-9_]+_dll|[A-Za-z0-9_]+_dll_iname'] if $LD --help 2>&1 | $GREP 'auto-import' > /dev/null; then _LT_TAGVAR(archive_cmds, $1)='$CC -shared $libobjs $deplibs $compiler_flags -o $output_objdir/$soname ${wl}--enable-auto-image-base -Xlinker --out-implib -Xlinker $lib' # If the export-symbols file already is a .def file (1st line # is EXPORTS), use it as is; otherwise, prepend... _LT_TAGVAR(archive_expsym_cmds, $1)='if test "x`$SED 1q $export_symbols`" = xEXPORTS; then cp $export_symbols $output_objdir/$soname.def; else echo EXPORTS > $output_objdir/$soname.def; cat $export_symbols >> $output_objdir/$soname.def; fi~ $CC -shared $output_objdir/$soname.def $libobjs $deplibs $compiler_flags -o $output_objdir/$soname ${wl}--enable-auto-image-base -Xlinker --out-implib -Xlinker $lib' else _LT_TAGVAR(ld_shlibs, $1)=no fi ;; haiku*) _LT_TAGVAR(archive_cmds, $1)='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname -o $lib' _LT_TAGVAR(link_all_deplibs, $1)=yes ;; interix[[3-9]]*) _LT_TAGVAR(hardcode_direct, $1)=no _LT_TAGVAR(hardcode_shlibpath_var, $1)=no _LT_TAGVAR(hardcode_libdir_flag_spec, $1)='${wl}-rpath,$libdir' _LT_TAGVAR(export_dynamic_flag_spec, $1)='${wl}-E' # Hack: On Interix 3.x, we cannot compile PIC because of a broken gcc. # Instead, shared libraries are loaded at an image base (0x10000000 by # default) and relocated if they conflict, which is a slow very memory # consuming and fragmenting process. 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|| _lt_function_replace_fail=: else # Save a `func_append' function call even when '+=' is not available sed -e 's%func_append \([[a-zA-Z_]]\{1,\}\) "%\1="$\1%g' $cfgfile > $cfgfile.tmp \ && mv -f "$cfgfile.tmp" "$cfgfile" \ || (rm -f "$cfgfile" && cp "$cfgfile.tmp" "$cfgfile" && rm -f "$cfgfile.tmp") test 0 -eq $? || _lt_function_replace_fail=: fi if test x"$_lt_function_replace_fail" = x":"; then AC_MSG_WARN([Unable to substitute extended shell functions in $ofile]) fi ]) # _LT_PATH_CONVERSION_FUNCTIONS # ----------------------------- # Determine which file name conversion functions should be used by # func_to_host_file (and, implicitly, by func_to_host_path). These are needed # for certain cross-compile configurations and native mingw. m4_defun([_LT_PATH_CONVERSION_FUNCTIONS], [AC_REQUIRE([AC_CANONICAL_HOST])dnl AC_REQUIRE([AC_CANONICAL_BUILD])dnl AC_MSG_CHECKING([how to convert $build file names to $host format]) AC_CACHE_VAL(lt_cv_to_host_file_cmd, [case $host in *-*-mingw* ) case $build in *-*-mingw* ) # actually msys lt_cv_to_host_file_cmd=func_convert_file_msys_to_w32 ;; *-*-cygwin* ) lt_cv_to_host_file_cmd=func_convert_file_cygwin_to_w32 ;; * ) # otherwise, assume *nix lt_cv_to_host_file_cmd=func_convert_file_nix_to_w32 ;; esac ;; *-*-cygwin* ) case $build in *-*-mingw* ) # actually msys lt_cv_to_host_file_cmd=func_convert_file_msys_to_cygwin ;; *-*-cygwin* ) lt_cv_to_host_file_cmd=func_convert_file_noop ;; * ) # otherwise, assume *nix lt_cv_to_host_file_cmd=func_convert_file_nix_to_cygwin ;; esac ;; * ) # unhandled hosts (and "normal" native builds) lt_cv_to_host_file_cmd=func_convert_file_noop ;; esac ]) to_host_file_cmd=$lt_cv_to_host_file_cmd AC_MSG_RESULT([$lt_cv_to_host_file_cmd]) _LT_DECL([to_host_file_cmd], [lt_cv_to_host_file_cmd], [0], [convert $build file names to $host format])dnl AC_MSG_CHECKING([how to convert $build file names to toolchain format]) AC_CACHE_VAL(lt_cv_to_tool_file_cmd, [#assume ordinary cross tools, or native build. lt_cv_to_tool_file_cmd=func_convert_file_noop case $host in *-*-mingw* ) case $build in *-*-mingw* ) # actually msys lt_cv_to_tool_file_cmd=func_convert_file_msys_to_w32 ;; esac ;; esac ]) to_tool_file_cmd=$lt_cv_to_tool_file_cmd AC_MSG_RESULT([$lt_cv_to_tool_file_cmd]) _LT_DECL([to_tool_file_cmd], [lt_cv_to_tool_file_cmd], [0], [convert $build files to toolchain format])dnl ])# _LT_PATH_CONVERSION_FUNCTIONS PDL-IO-Matlab-release-0.005/matio-1.5.0/config/ltmain.sh000066400000000000000000010515221206363665300221330ustar00rootroot00000000000000 # libtool (GNU libtool) 2.4.2 # Written by Gordon Matzigkeit , 1996 # Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001, 2003, 2004, 2005, 2006, # 2007, 2008, 2009, 2010, 2011 Free Software Foundation, Inc. # This is free software; see the source for copying conditions. There is NO # warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. # GNU Libtool 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. # # As a special exception to the GNU General Public License, # if you distribute this file as part of a program or library that # is built using GNU Libtool, you may include this file under the # same distribution terms that you use for the rest of that program. # # GNU Libtool 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 GNU Libtool; see the file COPYING. If not, a copy # can be downloaded from http://www.gnu.org/licenses/gpl.html, # or obtained by writing to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. # Usage: $progname [OPTION]... [MODE-ARG]... # # Provide generalized library-building support services. # # --config show all configuration variables # --debug enable verbose shell tracing # -n, --dry-run display commands without modifying any files # --features display basic configuration information and exit # --mode=MODE use operation mode MODE # --preserve-dup-deps don't remove duplicate dependency libraries # --quiet, --silent don't print informational messages # --no-quiet, --no-silent # print informational messages (default) # --no-warn don't display warning messages # --tag=TAG use configuration variables from tag TAG # -v, --verbose print more informational messages than default # --no-verbose don't print the extra informational messages # --version print version information # -h, --help, --help-all print short, long, or detailed help message # # MODE must be one of the following: # # clean remove files from the build directory # compile compile a source file into a libtool object # execute automatically set library path, then run a program # finish complete the installation of libtool libraries # install install libraries or executables # link create a library or an executable # uninstall remove libraries from an installed directory # # MODE-ARGS vary depending on the MODE. When passed as first option, # `--mode=MODE' may be abbreviated as `MODE' or a unique abbreviation of that. # Try `$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) 2.4.2 # automake: $automake_version # autoconf: $autoconf_version # # Report bugs to . # GNU libtool home page: . # General help using GNU software: . PROGRAM=libtool PACKAGE=libtool VERSION=2.4.2 TIMESTAMP="" package_revision=1.3337 # Be Bourne compatible if test -n "${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 # A function that is used when there is no print builtin or printf. func_fallback_echo () { eval 'cat <<_LTECHO_EOF $1 _LTECHO_EOF' } # NLS nuisances: We save the old values to restore during execute mode. lt_user_locale= lt_safe_locale= for lt_var in LANG LANGUAGE LC_ALL LC_CTYPE LC_COLLATE LC_MESSAGES do eval "if test \"\${$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 LC_ALL=C LANGUAGE=C export LANGUAGE LC_ALL $lt_unset CDPATH # Work around backward compatibility issue on IRIX 6.5. 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If bindir is libdir, return empty string, # else relative path ending with a slash; either way, target # file name can be directly appended. if test ! -z "$func_relative_path_result"; then func_stripname './' '' "$func_relative_path_result/" func_relative_path_result=$func_stripname_result fi } # The name of this program: func_dirname_and_basename "$progpath" progname=$func_basename_result # 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=${PATH_SEPARATOR-:} 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' # Sed substitution that turns a string into a regex matching for the # string literally. sed_make_literal_regex='s,[].[^$\\*\/],\\&,g' # Sed substitution that converts a w32 file name or path # which contains forward slashes, into one that contains # (escaped) backslashes. A very naive implementation. lt_sed_naive_backslashify='s|\\\\*|\\|g;s|/|\\|g;s|\\|\\\\|g' # Re-`\' parameter expansions in output of double_quote_subst that were # `\'-ed in input to the same. If an odd number of `\' preceded a '$' # 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: ${opt_mode+$opt_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_echo_all arg... # Invoke $ECHO with all args, space-separated. func_echo_all () { $ECHO "$*" } # func_error arg... # Echo program name prefixed message to standard error. func_error () { $ECHO "$progname: ${opt_mode+$opt_mode: }"${1+"$@"} 1>&2 } # func_warning arg... # Echo program name prefixed warning message to standard error. func_warning () { $opt_warning && $ECHO "$progname: ${opt_mode+$opt_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 "$my_directory_path" | $SED -e "$dirname"` done my_dir_list=`$ECHO "$my_dir_list" | $SED 's,:*$,,'` 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 $ECHO "$my_tmpdir" } # 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 "$1" | $SED "$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 "$1" | $SED \ -e "$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_tr_sh # Turn $1 into a string suitable for a shell variable name. # Result is stored in $func_tr_sh_result. All characters # not in the set a-zA-Z0-9_ are replaced with '_'. Further, # if $1 begins with a digit, a '_' is prepended as well. func_tr_sh () { case $1 in [0-9]* | *[!a-zA-Z0-9_]*) func_tr_sh_result=`$ECHO "$1" | $SED 's/^\([0-9]\)/_\1/; s/[^a-zA-Z0-9_]/_/g'` ;; * ) func_tr_sh_result=$1 ;; esac } # func_version # Echo version message to standard output and exit. func_version () { $opt_debug $SED -n '/(C)/!b go :more /\./!{ N s/\n# / / b more } :go /^# '$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 () { $opt_debug $SED -n '/^# Usage:/,/^# *.*--help/ { s/^# // s/^# *$// s/\$progname/'$progname'/ p }' < "$progpath" echo $ECHO "run \`$progname --help | more' for full usage" exit $? } # func_help [NOEXIT] # Echo long help message to standard output and exit, # unless 'noexit' is passed as argument. func_help () { $opt_debug $SED -n '/^# Usage:/,/# Report bugs to/ { :print s/^# // s/^# *$// 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-automake} --version) 2>/dev/null |$SED 1q`"'/ s/\$autoconf_version/'"`(${AUTOCONF-autoconf} --version) 2>/dev/null |$SED 1q`"'/ p d } /^# .* home page:/b print /^# General help using/b print ' < "$progpath" ret=$? if test -z "$1"; then exit $ret fi } # func_missing_arg argname # Echo program name prefixed message to standard error and set global # exit_cmd. func_missing_arg () { $opt_debug func_error "missing argument for $1." exit_cmd=exit } # func_split_short_opt shortopt # Set func_split_short_opt_name and func_split_short_opt_arg shell # variables after splitting SHORTOPT after the 2nd character. func_split_short_opt () { my_sed_short_opt='1s/^\(..\).*$/\1/;q' my_sed_short_rest='1s/^..\(.*\)$/\1/;q' func_split_short_opt_name=`$ECHO "$1" | $SED "$my_sed_short_opt"` func_split_short_opt_arg=`$ECHO "$1" | $SED "$my_sed_short_rest"` } # func_split_short_opt may be replaced by extended shell implementation # func_split_long_opt longopt # Set func_split_long_opt_name and func_split_long_opt_arg shell # variables after splitting LONGOPT at the `=' sign. func_split_long_opt () { my_sed_long_opt='1s/^\(--[^=]*\)=.*/\1/;q' my_sed_long_arg='1s/^--[^=]*=//' func_split_long_opt_name=`$ECHO "$1" | $SED "$my_sed_long_opt"` func_split_long_opt_arg=`$ECHO "$1" | $SED "$my_sed_long_arg"` } # func_split_long_opt may be replaced by extended shell implementation exit_cmd=: magic="%%%MAGIC variable%%%" magic_exe="%%%MAGIC EXE variable%%%" # Global variables. nonopt= preserve_args= lo2o="s/\\.lo\$/.${objext}/" o2lo="s/\\.${objext}\$/.lo/" extracted_archives= extracted_serial=0 # If this variable is set in any of the actions, the command in it # will be execed at the end. This prevents here-documents from being # left over by shells. exec_cmd= # func_append var value # Append VALUE to the end of shell variable VAR. func_append () { eval "${1}=\$${1}\${2}" } # func_append may be replaced by extended shell implementation # func_append_quoted var value # Quote VALUE and append to the end of shell variable VAR, separated # by a space. func_append_quoted () { func_quote_for_eval "${2}" eval "${1}=\$${1}\\ \$func_quote_for_eval_result" } # func_append_quoted may be replaced by extended shell implementation # func_arith arithmetic-term... func_arith () { func_arith_result=`expr "${@}"` } # func_arith may be replaced by extended shell implementation # func_len string # STRING may not start with a hyphen. func_len () { func_len_result=`expr "${1}" : ".*" 2>/dev/null || echo $max_cmd_len` } # func_len may be replaced by extended shell implementation # func_lo2o object func_lo2o () { func_lo2o_result=`$ECHO "${1}" | $SED "$lo2o"` } # func_lo2o may be replaced by extended shell implementation # func_xform libobj-or-source func_xform () { func_xform_result=`$ECHO "${1}" | $SED 's/\.[^.]*$/.lo/'` } # func_xform may be replaced by extended shell implementation # func_fatal_configuration arg... # Echo program name prefixed message to standard error, followed by # a configuration failure hint, and exit. func_fatal_configuration () { func_error ${1+"$@"} func_error "See the $PACKAGE documentation for more information." func_fatal_error "Fatal configuration error." } # func_config # Display the configuration for all the tags in this script. func_config () { re_begincf='^# ### BEGIN LIBTOOL' re_endcf='^# ### END LIBTOOL' # Default configuration. $SED "1,/$re_begincf CONFIG/d;/$re_endcf CONFIG/,\$d" < "$progpath" # Now print the configurations for the tags. for tagname in $taglist; do $SED -n "/$re_begincf TAG CONFIG: $tagname\$/,/$re_endcf TAG CONFIG: $tagname\$/p" < "$progpath" done exit $? } # func_features # Display the features supported by this script. func_features () { echo "host: $host" if test "$build_libtool_libs" = yes; then echo "enable shared libraries" else echo "disable shared libraries" fi if test "$build_old_libs" = yes; then echo "enable static libraries" else echo "disable static libraries" fi exit $? } # func_enable_tag tagname # Verify that TAGNAME is valid, and either flag an error and exit, or # enable the TAGNAME tag. We also add TAGNAME to the global $taglist # variable here. func_enable_tag () { # Global variable: tagname="$1" re_begincf="^# ### BEGIN LIBTOOL TAG CONFIG: $tagname\$" re_endcf="^# ### END LIBTOOL TAG CONFIG: $tagname\$" sed_extractcf="/$re_begincf/,/$re_endcf/p" # Validate tagname. case $tagname in *[!-_A-Za-z0-9,/]*) func_fatal_error "invalid tag name: $tagname" ;; esac # Don't test for the "default" C tag, as we know it's # there but not specially marked. case $tagname in CC) ;; *) if $GREP "$re_begincf" "$progpath" >/dev/null 2>&1; then taglist="$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 $tagname" fi ;; esac } # func_check_version_match # Ensure that we are using m4 macros, and libtool script from the same # release of libtool. func_check_version_match () { if test "$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 } # 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 # Option defaults: opt_debug=: opt_dry_run=false opt_config=false opt_preserve_dup_deps=false opt_features=false opt_finish=false opt_help=false opt_help_all=false opt_silent=: opt_warning=: opt_verbose=: opt_silent=false opt_verbose=false # Parse options once, thoroughly. This comes as soon as possible in the # script to make things like `--version' happen as quickly as we can. { # this just eases exit handling while test $# -gt 0; do opt="$1" shift case $opt in --debug|-x) opt_debug='set -x' func_echo "enabling shell trace mode" $opt_debug ;; --dry-run|--dryrun|-n) opt_dry_run=: ;; --config) opt_config=: func_config ;; --dlopen|-dlopen) optarg="$1" opt_dlopen="${opt_dlopen+$opt_dlopen }$optarg" shift ;; --preserve-dup-deps) opt_preserve_dup_deps=: ;; --features) opt_features=: func_features ;; --finish) opt_finish=: set dummy --mode finish ${1+"$@"}; shift ;; --help) opt_help=: ;; --help-all) opt_help_all=: opt_help=': help-all' ;; --mode) test $# = 0 && func_missing_arg $opt && break optarg="$1" opt_mode="$optarg" case $optarg 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 shift ;; --no-silent|--no-quiet) opt_silent=false func_append preserve_args " $opt" ;; --no-warning|--no-warn) opt_warning=false func_append preserve_args " $opt" ;; --no-verbose) opt_verbose=false func_append preserve_args " $opt" ;; --silent|--quiet) opt_silent=: func_append preserve_args " $opt" opt_verbose=false ;; --verbose|-v) opt_verbose=: func_append preserve_args " $opt" opt_silent=false ;; --tag) test $# = 0 && func_missing_arg $opt && break optarg="$1" opt_tag="$optarg" func_append preserve_args " $opt $optarg" func_enable_tag "$optarg" shift ;; -\?|-h) func_usage ;; --help) func_help ;; --version) func_version ;; # Separate optargs to long options: --*=*) func_split_long_opt "$opt" set dummy "$func_split_long_opt_name" "$func_split_long_opt_arg" ${1+"$@"} shift ;; # Separate non-argument short options: -\?*|-h*|-n*|-v*) func_split_short_opt "$opt" set dummy "$func_split_short_opt_name" "-$func_split_short_opt_arg" ${1+"$@"} shift ;; --) break ;; -*) func_fatal_help "unrecognized option \`$opt'" ;; *) set dummy "$opt" ${1+"$@"}; shift; break ;; esac done # Validate options: # save first non-option argument if test "$#" -gt 0; then nonopt="$opt" shift fi # preserve --debug test "$opt_debug" = : || func_append preserve_args " --debug" 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_preserve_dup_deps ;; esac $opt_help || { # Sanity checks first: func_check_version_match if test "$build_libtool_libs" != yes && test "$build_old_libs" != yes; then func_fatal_configuration "not configured to build any kind of library" fi # Darwin sucks eval std_shrext=\"$shrext_cmds\" # Only execute mode is allowed to have -dlopen flags. if test -n "$opt_dlopen" && test "$opt_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 \`$progname --help --mode=$opt_mode' for more information." } # Bail if the options were screwed $exit_cmd $EXIT_FAILURE } ## ----------- ## ## Main. ## ## ----------- ## # 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_dirname_and_basename "$1" "" "." func_stripname '' '.exe' "$func_basename_result" func_ltwrapper_scriptname_result="$func_dirname_result/$objdir/${func_stripname_result}_ltshwrapper" } # 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_resolve_sysroot PATH # Replace a leading = in PATH with a sysroot. Store the result into # func_resolve_sysroot_result func_resolve_sysroot () { func_resolve_sysroot_result=$1 case $func_resolve_sysroot_result in =*) func_stripname '=' '' "$func_resolve_sysroot_result" func_resolve_sysroot_result=$lt_sysroot$func_stripname_result ;; esac } # func_replace_sysroot PATH # If PATH begins with the sysroot, replace it with = and # store the result into func_replace_sysroot_result. func_replace_sysroot () { case "$lt_sysroot:$1" in ?*:"$lt_sysroot"*) func_stripname "$lt_sysroot" '' "$1" func_replace_sysroot_result="=$func_stripname_result" ;; *) # Including no sysroot. func_replace_sysroot_result=$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 $CC; do func_append_quoted CC_quoted "$arg" done CC_expanded=`func_echo_all $CC` CC_quoted_expanded=`func_echo_all $CC_quoted` 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 "* | " $CC_expanded "* | "$CC_expanded "* | \ " $CC_quoted"* | "$CC_quoted "* | " $CC_quoted_expanded "* | "$CC_quoted_expanded "*) ;; # 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 $CC; do # Double-quote args containing other shell metacharacters. func_append_quoted CC_quoted "$arg" done CC_expanded=`func_echo_all $CC` CC_quoted_expanded=`func_echo_all $CC_quoted` case "$@ " in " $CC "* | "$CC "* | " $CC_expanded "* | "$CC_expanded "* | \ " $CC_quoted"* | "$CC_quoted "* | " $CC_quoted_expanded "* | "$CC_quoted_expanded "*) # 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 </dev/null` if test "$?" -eq 0 && test -n "${func_convert_core_file_wine_to_w32_tmp}"; then func_convert_core_file_wine_to_w32_result=`$ECHO "$func_convert_core_file_wine_to_w32_tmp" | $SED -e "$lt_sed_naive_backslashify"` else func_convert_core_file_wine_to_w32_result= fi fi } # end: func_convert_core_file_wine_to_w32 # func_convert_core_path_wine_to_w32 ARG # Helper function used by path conversion functions when $build is *nix, and # $host is mingw, cygwin, or some other w32 environment. Relies on a correctly # configured wine environment available, with the winepath program in $build's # $PATH. Assumes ARG has no leading or trailing path separator characters. # # ARG is path to be converted from $build format to win32. # Result is available in $func_convert_core_path_wine_to_w32_result. # Unconvertible file (directory) names in ARG are skipped; if no directory names # are convertible, then the result may be empty. func_convert_core_path_wine_to_w32 () { $opt_debug # unfortunately, winepath doesn't convert paths, only file names func_convert_core_path_wine_to_w32_result="" if test -n "$1"; then oldIFS=$IFS IFS=: for func_convert_core_path_wine_to_w32_f in $1; do IFS=$oldIFS func_convert_core_file_wine_to_w32 "$func_convert_core_path_wine_to_w32_f" if test -n "$func_convert_core_file_wine_to_w32_result" ; then if test -z "$func_convert_core_path_wine_to_w32_result"; then func_convert_core_path_wine_to_w32_result="$func_convert_core_file_wine_to_w32_result" else func_append func_convert_core_path_wine_to_w32_result ";$func_convert_core_file_wine_to_w32_result" fi fi done IFS=$oldIFS fi } # end: func_convert_core_path_wine_to_w32 # func_cygpath ARGS... # Wrapper around calling the cygpath program via LT_CYGPATH. This is used when # when (1) $build is *nix and Cygwin is hosted via a wine environment; or (2) # $build is MSYS and $host is Cygwin, or (3) $build is Cygwin. In case (1) or # (2), returns the Cygwin file name or path in func_cygpath_result (input # file name or path is assumed to be in w32 format, as previously converted # from $build's *nix or MSYS format). In case (3), returns the w32 file name # or path in func_cygpath_result (input file name or path is assumed to be in # Cygwin format). Returns an empty string on error. # # ARGS are passed to cygpath, with the last one being the file name or path to # be converted. # # Specify the absolute *nix (or w32) name to cygpath in the LT_CYGPATH # environment variable; do not put it in $PATH. func_cygpath () { $opt_debug if test -n "$LT_CYGPATH" && test -f "$LT_CYGPATH"; then func_cygpath_result=`$LT_CYGPATH "$@" 2>/dev/null` if test "$?" -ne 0; then # on failure, ensure result is empty func_cygpath_result= fi else func_cygpath_result= func_error "LT_CYGPATH is empty or specifies non-existent file: \`$LT_CYGPATH'" fi } #end: func_cygpath # func_convert_core_msys_to_w32 ARG # Convert file name or path ARG from MSYS format to w32 format. Return # result in func_convert_core_msys_to_w32_result. func_convert_core_msys_to_w32 () { $opt_debug # awkward: cmd appends spaces to result func_convert_core_msys_to_w32_result=`( cmd //c echo "$1" ) 2>/dev/null | $SED -e 's/[ ]*$//' -e "$lt_sed_naive_backslashify"` } #end: func_convert_core_msys_to_w32 # func_convert_file_check ARG1 ARG2 # Verify that ARG1 (a file name in $build format) was converted to $host # format in ARG2. Otherwise, emit an error message, but continue (resetting # func_to_host_file_result to ARG1). func_convert_file_check () { $opt_debug if test -z "$2" && test -n "$1" ; then func_error "Could not determine host file name corresponding to" func_error " \`$1'" func_error "Continuing, but uninstalled executables may not work." # Fallback: func_to_host_file_result="$1" fi } # end func_convert_file_check # func_convert_path_check FROM_PATHSEP TO_PATHSEP FROM_PATH TO_PATH # Verify that FROM_PATH (a path in $build format) was converted to $host # format in TO_PATH. Otherwise, emit an error message, but continue, resetting # func_to_host_file_result to a simplistic fallback value (see below). func_convert_path_check () { $opt_debug if test -z "$4" && test -n "$3"; then func_error "Could not determine the host path corresponding to" func_error " \`$3'" func_error "Continuing, but uninstalled executables may not work." # Fallback. This is a deliberately simplistic "conversion" and # should not be "improved". See libtool.info. if test "x$1" != "x$2"; then lt_replace_pathsep_chars="s|$1|$2|g" func_to_host_path_result=`echo "$3" | $SED -e "$lt_replace_pathsep_chars"` else func_to_host_path_result="$3" fi fi } # end func_convert_path_check # func_convert_path_front_back_pathsep FRONTPAT BACKPAT REPL ORIG # Modifies func_to_host_path_result by prepending REPL if ORIG matches FRONTPAT # and appending REPL if ORIG matches BACKPAT. func_convert_path_front_back_pathsep () { $opt_debug case $4 in $1 ) func_to_host_path_result="$3$func_to_host_path_result" ;; esac case $4 in $2 ) func_append func_to_host_path_result "$3" ;; esac } # end func_convert_path_front_back_pathsep ################################################## # $build to $host FILE NAME CONVERSION FUNCTIONS # ################################################## # invoked via `$to_host_file_cmd ARG' # # In each case, ARG is the path to be converted from $build to $host format. # Result will be available in $func_to_host_file_result. # func_to_host_file ARG # Converts the file name ARG from $build format to $host format. Return result # in func_to_host_file_result. func_to_host_file () { $opt_debug $to_host_file_cmd "$1" } # end func_to_host_file # func_to_tool_file ARG LAZY # converts the file name ARG from $build format to toolchain format. Return # result in func_to_tool_file_result. If the conversion in use is listed # in (the comma separated) LAZY, no conversion takes place. func_to_tool_file () { $opt_debug case ,$2, in *,"$to_tool_file_cmd",*) func_to_tool_file_result=$1 ;; *) $to_tool_file_cmd "$1" func_to_tool_file_result=$func_to_host_file_result ;; esac } # end func_to_tool_file # func_convert_file_noop ARG # Copy ARG to func_to_host_file_result. func_convert_file_noop () { func_to_host_file_result="$1" } # end func_convert_file_noop # func_convert_file_msys_to_w32 ARG # Convert file name ARG from (mingw) MSYS to (mingw) w32 format; automatic # conversion to w32 is not available inside the cwrapper. Returns result in # func_to_host_file_result. func_convert_file_msys_to_w32 () { $opt_debug func_to_host_file_result="$1" if test -n "$1"; then func_convert_core_msys_to_w32 "$1" func_to_host_file_result="$func_convert_core_msys_to_w32_result" fi func_convert_file_check "$1" "$func_to_host_file_result" } # end func_convert_file_msys_to_w32 # func_convert_file_cygwin_to_w32 ARG # Convert file name ARG from Cygwin to w32 format. Returns result in # func_to_host_file_result. func_convert_file_cygwin_to_w32 () { $opt_debug func_to_host_file_result="$1" if test -n "$1"; then # because $build is cygwin, we call "the" cygpath in $PATH; no need to use # LT_CYGPATH in this case. func_to_host_file_result=`cygpath -m "$1"` fi func_convert_file_check "$1" "$func_to_host_file_result" } # end func_convert_file_cygwin_to_w32 # func_convert_file_nix_to_w32 ARG # Convert file name ARG from *nix to w32 format. Requires a wine environment # and a working winepath. Returns result in func_to_host_file_result. func_convert_file_nix_to_w32 () { $opt_debug func_to_host_file_result="$1" if test -n "$1"; then func_convert_core_file_wine_to_w32 "$1" func_to_host_file_result="$func_convert_core_file_wine_to_w32_result" fi func_convert_file_check "$1" "$func_to_host_file_result" } # end func_convert_file_nix_to_w32 # func_convert_file_msys_to_cygwin ARG # Convert file name ARG from MSYS to Cygwin format. Requires LT_CYGPATH set. # Returns result in func_to_host_file_result. func_convert_file_msys_to_cygwin () { $opt_debug func_to_host_file_result="$1" if test -n "$1"; then func_convert_core_msys_to_w32 "$1" func_cygpath -u "$func_convert_core_msys_to_w32_result" func_to_host_file_result="$func_cygpath_result" fi func_convert_file_check "$1" "$func_to_host_file_result" } # end func_convert_file_msys_to_cygwin # func_convert_file_nix_to_cygwin ARG # Convert file name ARG from *nix to Cygwin format. Requires Cygwin installed # in a wine environment, working winepath, and LT_CYGPATH set. Returns result # in func_to_host_file_result. func_convert_file_nix_to_cygwin () { $opt_debug func_to_host_file_result="$1" if test -n "$1"; then # convert from *nix to w32, then use cygpath to convert from w32 to cygwin. func_convert_core_file_wine_to_w32 "$1" func_cygpath -u "$func_convert_core_file_wine_to_w32_result" func_to_host_file_result="$func_cygpath_result" fi func_convert_file_check "$1" "$func_to_host_file_result" } # end func_convert_file_nix_to_cygwin ############################################# # $build to $host PATH CONVERSION FUNCTIONS # ############################################# # invoked via `$to_host_path_cmd ARG' # # In each case, ARG is the path to be converted from $build to $host format. # The result will be available in $func_to_host_path_result. # # 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. # # All path conversion functions are named using the following convention: # file name conversion function : func_convert_file_X_to_Y () # path conversion function : func_convert_path_X_to_Y () # where, for any given $build/$host combination the 'X_to_Y' value is the # same. If conversion functions are added for new $build/$host combinations, # the two new functions must follow this pattern, or func_init_to_host_path_cmd # will break. # func_init_to_host_path_cmd # Ensures that function "pointer" variable $to_host_path_cmd is set to the # appropriate value, based on the value of $to_host_file_cmd. to_host_path_cmd= func_init_to_host_path_cmd () { $opt_debug if test -z "$to_host_path_cmd"; then func_stripname 'func_convert_file_' '' "$to_host_file_cmd" to_host_path_cmd="func_convert_path_${func_stripname_result}" fi } # func_to_host_path ARG # Converts the path ARG from $build format to $host format. Return result # in func_to_host_path_result. func_to_host_path () { $opt_debug func_init_to_host_path_cmd $to_host_path_cmd "$1" } # end func_to_host_path # func_convert_path_noop ARG # Copy ARG to func_to_host_path_result. func_convert_path_noop () { func_to_host_path_result="$1" } # end func_convert_path_noop # func_convert_path_msys_to_w32 ARG # Convert path ARG from (mingw) MSYS to (mingw) w32 format; automatic # conversion to w32 is not available inside the cwrapper. Returns result in # func_to_host_path_result. func_convert_path_msys_to_w32 () { $opt_debug func_to_host_path_result="$1" if test -n "$1"; then # 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_stripname : : "$1" func_to_host_path_tmp1=$func_stripname_result func_convert_core_msys_to_w32 "$func_to_host_path_tmp1" func_to_host_path_result="$func_convert_core_msys_to_w32_result" func_convert_path_check : ";" \ "$func_to_host_path_tmp1" "$func_to_host_path_result" func_convert_path_front_back_pathsep ":*" "*:" ";" "$1" fi } # end func_convert_path_msys_to_w32 # func_convert_path_cygwin_to_w32 ARG # Convert path ARG from Cygwin to w32 format. Returns result in # func_to_host_file_result. func_convert_path_cygwin_to_w32 () { $opt_debug func_to_host_path_result="$1" if test -n "$1"; then # See func_convert_path_msys_to_w32: func_stripname : : "$1" func_to_host_path_tmp1=$func_stripname_result func_to_host_path_result=`cygpath -m -p "$func_to_host_path_tmp1"` func_convert_path_check : ";" \ "$func_to_host_path_tmp1" "$func_to_host_path_result" func_convert_path_front_back_pathsep ":*" "*:" ";" "$1" fi } # end func_convert_path_cygwin_to_w32 # func_convert_path_nix_to_w32 ARG # Convert path ARG from *nix to w32 format. Requires a wine environment and # a working winepath. Returns result in func_to_host_file_result. func_convert_path_nix_to_w32 () { $opt_debug func_to_host_path_result="$1" if test -n "$1"; then # See func_convert_path_msys_to_w32: func_stripname : : "$1" func_to_host_path_tmp1=$func_stripname_result func_convert_core_path_wine_to_w32 "$func_to_host_path_tmp1" func_to_host_path_result="$func_convert_core_path_wine_to_w32_result" func_convert_path_check : ";" \ "$func_to_host_path_tmp1" "$func_to_host_path_result" func_convert_path_front_back_pathsep ":*" "*:" ";" "$1" fi } # end func_convert_path_nix_to_w32 # func_convert_path_msys_to_cygwin ARG # Convert path ARG from MSYS to Cygwin format. Requires LT_CYGPATH set. # Returns result in func_to_host_file_result. func_convert_path_msys_to_cygwin () { $opt_debug func_to_host_path_result="$1" if test -n "$1"; then # See func_convert_path_msys_to_w32: func_stripname : : "$1" func_to_host_path_tmp1=$func_stripname_result func_convert_core_msys_to_w32 "$func_to_host_path_tmp1" func_cygpath -u -p "$func_convert_core_msys_to_w32_result" func_to_host_path_result="$func_cygpath_result" func_convert_path_check : : \ "$func_to_host_path_tmp1" "$func_to_host_path_result" func_convert_path_front_back_pathsep ":*" "*:" : "$1" fi } # end func_convert_path_msys_to_cygwin # func_convert_path_nix_to_cygwin ARG # Convert path ARG from *nix to Cygwin format. Requires Cygwin installed in a # a wine environment, working winepath, and LT_CYGPATH set. Returns result in # func_to_host_file_result. func_convert_path_nix_to_cygwin () { $opt_debug func_to_host_path_result="$1" if test -n "$1"; then # 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_stripname : : "$1" func_to_host_path_tmp1=$func_stripname_result func_convert_core_path_wine_to_w32 "$func_to_host_path_tmp1" func_cygpath -u -p "$func_convert_core_path_wine_to_w32_result" func_to_host_path_result="$func_cygpath_result" func_convert_path_check : : \ "$func_to_host_path_tmp1" "$func_to_host_path_result" func_convert_path_front_back_pathsep ":*" "*:" : "$1" fi } # end func_convert_path_nix_to_cygwin # func_mode_compile arg... func_mode_compile () { $opt_debug # Get the compilation command and the source file. base_compile= srcfile="$nonopt" # always keep a non-empty value in "srcfile" suppress_opt=yes suppress_output= arg_mode=normal libobj= later= pie_flag= for arg do case $arg_mode in arg ) # do not "continue". Instead, add this to base_compile lastarg="$arg" arg_mode=normal ;; target ) libobj="$arg" arg_mode=normal continue ;; normal ) # Accept any command-line options. case $arg in -o) test -n "$libobj" && \ func_fatal_error "you cannot specify \`-o' more than once" arg_mode=target continue ;; -pie | -fpie | -fPIE) func_append pie_flag " $arg" continue ;; -shared | -static | -prefer-pic | -prefer-non-pic) func_append later " $arg" continue ;; -no-suppress) suppress_opt=no continue ;; -Xcompiler) arg_mode=arg # the next one goes into the "base_compile" arg list continue # The current "srcfile" will either be retained or ;; # replaced later. I would guess that would be a bug. -Wc,*) func_stripname '-Wc,' '' "$arg" args=$func_stripname_result lastarg= save_ifs="$IFS"; IFS=',' for arg in $args; do IFS="$save_ifs" func_append_quoted lastarg "$arg" done IFS="$save_ifs" func_stripname ' ' '' "$lastarg" lastarg=$func_stripname_result # Add the arguments to base_compile. func_append base_compile " $lastarg" continue ;; *) # Accept the current argument as the source file. # The previous "srcfile" becomes the current argument. # lastarg="$srcfile" srcfile="$arg" ;; esac # case $arg ;; esac # case $arg_mode # Aesthetically quote the previous argument. func_append_quoted base_compile "$lastarg" done # for arg case $arg_mode in arg) func_fatal_error "you must specify an argument for -Xcompile" ;; target) func_fatal_error "you must specify a target with \`-o'" ;; *) # Get the name of the library object. test -z "$libobj" && { func_basename "$srcfile" libobj="$func_basename_result" } ;; esac # Recognize several different file suffixes. # If the user specifies -o file.o, it is replaced with file.lo case $libobj in *.[cCFSifmso] | \ *.ada | *.adb | *.ads | *.asm | \ *.c++ | *.cc | *.ii | *.class | *.cpp | *.cxx | \ *.[fF][09]? | *.for | *.java | *.go | *.obj | *.sx | *.cu | *.cup) func_xform "$libobj" libobj=$func_xform_result ;; esac case $libobj in *.lo) func_lo2o "$libobj"; obj=$func_lo2o_result ;; *) func_fatal_error "cannot determine name of library object from \`$libobj'" ;; esac func_infer_tag $base_compile for arg in $later; do case $arg in -shared) test "$build_libtool_libs" != yes && \ func_fatal_configuration "can not build a shared library" build_old_libs=no continue ;; -static) build_libtool_libs=no build_old_libs=yes continue ;; -prefer-pic) pic_mode=yes continue ;; -prefer-non-pic) pic_mode=no continue ;; esac done func_quote_for_eval "$libobj" test "X$libobj" != "X$func_quote_for_eval_result" \ && $ECHO "X$libobj" | $GREP '[]~#^*{};<>?"'"'"' &()|`$[]' \ && 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=`$ECHO "$srcfile" | $SED 's%^.*/%%; s%\.[^.]*$%%'`.${objext} lockfile="$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 func_append removelist " $output_obj" $ECHO "$srcfile" > "$lockfile" fi $opt_dry_run || $RM $removelist func_append removelist " $lockfile" trap '$opt_dry_run || $RM $removelist; exit $EXIT_FAILURE' 1 2 15 func_to_tool_file "$srcfile" func_convert_file_msys_to_w32 srcfile=$func_to_tool_file_result func_quote_for_eval "$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 func_append 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 func_append command " -o $obj" fi # Suppress compiler output if we already did a PIC compilation. func_append command "$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 } $opt_help || { test "$opt_mode" = compile && func_mode_compile ${1+"$@"} } func_mode_help () { # We need to display help for each of the modes. case $opt_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 build PIC objects only -prefer-non-pic try to build 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 -Wc,FLAG pass FLAG directly to the compiler 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-dir 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 -bindir BINDIR specify path to binaries directory (for systems where libraries must be found in the PATH setting at runtime) -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 -Wc,FLAG -Xcompiler FLAG pass linker-specific FLAG directly to the compiler -Wl,FLAG -Xlinker FLAG pass linker-specific FLAG directly to the linker -XCClinker FLAG pass link-specific FLAG to the compiler driver (CC) 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: $progname [OPTION]... --mode=uninstall RM [RM-OPTION]... FILE... Remove libraries from an installation directory. RM is the name of the program to use to delete files associated with each FILE (typically \`/bin/rm'). RM-OPTIONS are options (such as \`-f') to be passed to RM. If FILE is a libtool library, all the files associated with it are deleted. Otherwise, only FILE itself is deleted using RM." ;; *) func_fatal_help "invalid operation mode \`$opt_mode'" ;; esac echo $ECHO "Try \`$progname --help' for more information about other modes." } # Now that we've collected a possible --mode arg, show help if necessary if $opt_help; then if test "$opt_help" = :; then func_mode_help else { func_help noexit for opt_mode in compile link execute install finish uninstall clean; do func_mode_help done } | sed -n '1p; 2,$s/^Usage:/ or: /p' { func_help noexit for opt_mode in compile link execute install finish uninstall clean; do echo func_mode_help done } | sed '1d /^When reporting/,/^Report/{ H d } $x /information about other modes/d /more detailed .*MODE/d s/^Usage:.*--mode=\([^ ]*\) .*/Description of \1 mode:/' fi exit $? fi # 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 $opt_dlopen; do test -f "$file" \ || func_fatal_help "\`$file' is not a file" dir= case $file in *.la) func_resolve_sysroot "$file" file=$func_resolve_sysroot_result # Check to see that this really is a libtool archive. func_lalib_unsafe_p "$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 func_append 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 $file in -* | *.la | *.lo ) ;; *) # Do a test to see if this is really a libtool program. if func_ltwrapper_script_p "$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_append_quoted args "$file" done if test "X$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 $EXIT_SUCCESS fi } test "$opt_mode" = execute && func_mode_execute ${1+"$@"} # func_mode_finish arg... func_mode_finish () { $opt_debug libs= libdirs= admincmds= for opt in "$nonopt" ${1+"$@"} do if test -d "$opt"; then func_append libdirs " $opt" elif test -f "$opt"; then if func_lalib_unsafe_p "$opt"; then func_append libs " $opt" else func_warning "\`$opt' is not a valid libtool archive" fi else func_fatal_error "invalid argument \`$opt'" fi done if test -n "$libs"; then if test -n "$lt_sysroot"; then sysroot_regex=`$ECHO "$lt_sysroot" | $SED "$sed_make_literal_regex"` sysroot_cmd="s/\([ ']\)$sysroot_regex/\1/g;" else sysroot_cmd= fi # Remove sysroot references if $opt_dry_run; then for lib in $libs; do echo "removing references to $lt_sysroot and \`=' prefixes from $lib" done else tmpdir=`func_mktempdir` for lib in $libs; do sed -e "${sysroot_cmd} s/\([ ']-[LR]\)=/\1/g; s/\([ ']\)=/\1/g" $lib \ > $tmpdir/tmp-la mv -f $tmpdir/tmp-la $lib done ${RM}r "$tmpdir" fi fi if test -n "$finish_cmds$finish_eval" && test -n "$libdirs"; then 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" || func_append admincmds " $cmds" fi done fi # Exit here if they wanted silent mode. $opt_silent && exit $EXIT_SUCCESS if test -n "$finish_cmds$finish_eval" && test -n "$libdirs"; then echo "----------------------------------------------------------------------" 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 "----------------------------------------------------------------------" fi exit $EXIT_SUCCESS } test "$opt_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. case $nonopt in *shtool*) :;; *) false;; esac; then # Aesthetically quote it. func_quote_for_eval "$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 "$arg" func_append install_prog "$func_quote_for_eval_result" install_shared_prog=$install_prog case " $install_prog " in *[\\\ /]cp\ *) install_cp=: ;; *) install_cp=false ;; esac # We need to accept at least all the BSD install flags. dest= files= opts= prev= install_type= isdir=no stripme= no_mode=: for arg do arg2= if test -n "$dest"; then func_append files " $dest" dest=$arg continue fi case $arg in -d) isdir=yes ;; -f) if $install_cp; then :; else prev=$arg fi ;; -g | -m | -o) prev=$arg ;; -s) stripme=" -s" continue ;; -*) ;; *) # If the previous option needed an argument, then skip it. if test -n "$prev"; then if test "x$prev" = x-m && test -n "$install_override_mode"; then arg2=$install_override_mode no_mode=false fi prev= else dest=$arg continue fi ;; esac # Aesthetically quote the argument. func_quote_for_eval "$arg" func_append install_prog " $func_quote_for_eval_result" if test -n "$arg2"; then func_quote_for_eval "$arg2" fi func_append install_shared_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 -n "$install_override_mode" && $no_mode; then if $install_cp; then :; else func_quote_for_eval "$install_override_mode" func_append install_shared_prog " -m $func_quote_for_eval_result" fi fi if test -z "$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. func_append staticlibs " $file" ;; *.la) func_resolve_sysroot "$file" file=$func_resolve_sysroot_result # Check to see that this really is a libtool archive. func_lalib_unsafe_p "$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 "*) ;; *) func_append current_libdirs " $libdir" ;; esac else # Note the libdir as a future libdir. case "$future_libdirs " in *" $libdir "*) ;; *) func_append future_libdirs " $libdir" ;; esac fi func_dirname "$file" "/" "" dir="$func_dirname_result" func_append dir "$objdir" if test -n "$relink_command"; then # Determine the prefix the user has applied to our future dir. inst_prefix_dir=`$ECHO "$destdir" | $SED -e "s%$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=`$ECHO "$relink_command" | $SED "s%@inst_prefix_dir@%-inst-prefix-dir $inst_prefix_dir%"` else relink_command=`$ECHO "$relink_command" | $SED "s%@inst_prefix_dir@%%"` fi func_warning "relinking \`$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_shared_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" && func_append 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/"`$ECHO "$lib" | $SED 's%^.*/%%g'` ### testsuite: skip nested quoting test if test -n "$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 "$relink_command" | $SED 's%@OUTPUT@%'"$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=`$ECHO "$file$stripped_ext" | $SED "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/$name" func_to_tool_file "$oldlib" func_convert_file_msys_to_w32 tool_oldlib=$func_to_tool_file_result func_show_eval "$install_prog \$file \$oldlib" 'exit $?' if test -n "$stripme" && test -n "$old_striplib"; then func_show_eval "$old_striplib $tool_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 $EXIT_SUCCESS fi } test "$opt_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) $VERSION */ #ifdef __cplusplus extern \"C\" { #endif #if defined(__GNUC__) && (((__GNUC__ == 4) && (__GNUC_MINOR__ >= 4)) || (__GNUC__ > 4)) #pragma GCC diagnostic ignored \"-Wstrict-prototypes\" #endif /* Keep this code in sync between libtool.m4, ltmain, lt_system.h, and tests. */ #if defined(_WIN32) || defined(__CYGWIN__) || defined(_WIN32_WCE) /* DATA imports from DLLs on WIN32 con't be const, because runtime relocations are performed -- see ld's documentation on pseudo-relocs. */ # define LT_DLSYM_CONST #elif defined(__osf__) /* This system does not cope well with relocations in const data. */ # define LT_DLSYM_CONST #else # define LT_DLSYM_CONST const #endif /* External symbol declarations for the compiler. */\ " if test "$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=`$ECHO "$objs$old_deplibs" | $SP2NL | $SED "$lo2o" | $NL2SP` for progfile in $progfiles; do func_to_tool_file "$progfile" func_convert_file_msys_to_w32 func_verbose "extracting global C symbols from \`$func_to_tool_file_result'" $opt_dry_run || eval "$NM $func_to_tool_file_result | $global_symbol_pipe >> '$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" case $host in *cygwin* | *mingw* | *cegcc* ) # if an import library, we need to obtain dlname if func_win32_import_lib_p "$dlprefile"; then func_tr_sh "$dlprefile" eval "curr_lafile=\$libfile_$func_tr_sh_result" dlprefile_dlbasename="" if test -n "$curr_lafile" && func_lalib_p "$curr_lafile"; then # Use subshell, to avoid clobbering current variable values dlprefile_dlname=`source "$curr_lafile" && echo "$dlname"` if test -n "$dlprefile_dlname" ; then func_basename "$dlprefile_dlname" dlprefile_dlbasename="$func_basename_result" else # no lafile. user explicitly requested -dlpreopen . $sharedlib_from_linklib_cmd "$dlprefile" dlprefile_dlbasename=$sharedlib_from_linklib_result fi fi $opt_dry_run || { if test -n "$dlprefile_dlbasename" ; then eval '$ECHO ": $dlprefile_dlbasename" >> "$nlist"' else func_warning "Could not compute DLL name from $name" eval '$ECHO ": $name " >> "$nlist"' fi func_to_tool_file "$dlprefile" func_convert_file_msys_to_w32 eval "$NM \"$func_to_tool_file_result\" 2>/dev/null | $global_symbol_pipe | $SED -e '/I __imp/d' -e 's/I __nm_/D /;s/_nm__//' >> '$nlist'" } else # not an import lib $opt_dry_run || { eval '$ECHO ": $name " >> "$nlist"' func_to_tool_file "$dlprefile" func_convert_file_msys_to_w32 eval "$NM \"$func_to_tool_file_result\" 2>/dev/null | $global_symbol_pipe >> '$nlist'" } fi ;; *) $opt_dry_run || { eval '$ECHO ": $name " >> "$nlist"' func_to_tool_file "$dlprefile" func_convert_file_msys_to_w32 eval "$NM \"$func_to_tool_file_result\" 2>/dev/null | $global_symbol_pipe >> '$nlist'" } ;; esac 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; 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) ;; *) func_append 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 "$compile_command" | $SED "s%@SYMFILE@%$output_objdir/$my_outputname.def $symfileobj%"` finalize_command=`$ECHO "$finalize_command" | $SED "s%@SYMFILE@%$output_objdir/$my_outputname.def $symfileobj%"` else compile_command=`$ECHO "$compile_command" | $SED "s%@SYMFILE@%$symfileobj%"` finalize_command=`$ECHO "$finalize_command" | $SED "s%@SYMFILE@%$symfileobj%"` fi ;; *) compile_command=`$ECHO "$compile_command" | $SED "s%@SYMFILE@%$symfileobj%"` finalize_command=`$ECHO "$finalize_command" | $SED "s%@SYMFILE@%$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 "$compile_command" | $SED "s% @SYMFILE@%%"` finalize_command=`$ECHO "$finalize_command" | $SED "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. # Despite the name, also deal with 64 bit binaries. 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 # Keep the egrep pattern in sync with the one in _LT_CHECK_MAGIC_METHOD. if eval $OBJDUMP -f $1 | $SED -e '10q' 2>/dev/null | $EGREP 'file format (pei*-i386(.*architecture: i386)?|pe-arm-wince|pe-x86-64)' >/dev/null; then func_to_tool_file "$1" func_convert_file_msys_to_w32 win32_nmres=`eval $NM -f posix -A \"$func_to_tool_file_result\" | $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_cygming_dll_for_implib ARG # # Platform-specific function to extract the # name of the DLL associated with the specified # import library ARG. # Invoked by eval'ing the libtool variable # $sharedlib_from_linklib_cmd # Result is available in the variable # $sharedlib_from_linklib_result func_cygming_dll_for_implib () { $opt_debug sharedlib_from_linklib_result=`$DLLTOOL --identify-strict --identify "$1"` } # func_cygming_dll_for_implib_fallback_core SECTION_NAME LIBNAMEs # # The is the core of a fallback implementation of a # platform-specific function to extract the name of the # DLL associated with the specified import library LIBNAME. # # SECTION_NAME is either .idata$6 or .idata$7, depending # on the platform and compiler that created the implib. # # Echos the name of the DLL associated with the # specified import library. func_cygming_dll_for_implib_fallback_core () { $opt_debug match_literal=`$ECHO "$1" | $SED "$sed_make_literal_regex"` $OBJDUMP -s --section "$1" "$2" 2>/dev/null | $SED '/^Contents of section '"$match_literal"':/{ # Place marker at beginning of archive member dllname section s/.*/====MARK====/ p d } # These lines can sometimes be longer than 43 characters, but # are always uninteresting /:[ ]*file format pe[i]\{,1\}-/d /^In archive [^:]*:/d # Ensure marker is printed /^====MARK====/p # Remove all lines with less than 43 characters /^.\{43\}/!d # From remaining lines, remove first 43 characters s/^.\{43\}//' | $SED -n ' # Join marker and all lines until next marker into a single line /^====MARK====/ b para H $ b para b :para x s/\n//g # Remove the marker s/^====MARK====// # Remove trailing dots and whitespace s/[\. \t]*$// # Print /./p' | # we now have a list, one entry per line, of the stringified # contents of the appropriate section of all members of the # archive which possess that section. Heuristic: eliminate # all those which have a first or second character that is # a '.' (that is, objdump's representation of an unprintable # character.) This should work for all archives with less than # 0x302f exports -- but will fail for DLLs whose name actually # begins with a literal '.' or a single character followed by # a '.'. # # Of those that remain, print the first one. $SED -e '/^\./d;/^.\./d;q' } # func_cygming_gnu_implib_p ARG # This predicate returns with zero status (TRUE) if # ARG is a GNU/binutils-style import library. Returns # with nonzero status (FALSE) otherwise. func_cygming_gnu_implib_p () { $opt_debug func_to_tool_file "$1" func_convert_file_msys_to_w32 func_cygming_gnu_implib_tmp=`$NM "$func_to_tool_file_result" | eval "$global_symbol_pipe" | $EGREP ' (_head_[A-Za-z0-9_]+_[ad]l*|[A-Za-z0-9_]+_[ad]l*_iname)$'` test -n "$func_cygming_gnu_implib_tmp" } # func_cygming_ms_implib_p ARG # This predicate returns with zero status (TRUE) if # ARG is an MS-style import library. Returns # with nonzero status (FALSE) otherwise. func_cygming_ms_implib_p () { $opt_debug func_to_tool_file "$1" func_convert_file_msys_to_w32 func_cygming_ms_implib_tmp=`$NM "$func_to_tool_file_result" | eval "$global_symbol_pipe" | $GREP '_NULL_IMPORT_DESCRIPTOR'` test -n "$func_cygming_ms_implib_tmp" } # func_cygming_dll_for_implib_fallback ARG # Platform-specific function to extract the # name of the DLL associated with the specified # import library ARG. # # This fallback implementation is for use when $DLLTOOL # does not support the --identify-strict option. # Invoked by eval'ing the libtool variable # $sharedlib_from_linklib_cmd # Result is available in the variable # $sharedlib_from_linklib_result func_cygming_dll_for_implib_fallback () { $opt_debug if func_cygming_gnu_implib_p "$1" ; then # binutils import library sharedlib_from_linklib_result=`func_cygming_dll_for_implib_fallback_core '.idata$7' "$1"` elif func_cygming_ms_implib_p "$1" ; then # ms-generated import library sharedlib_from_linklib_result=`func_cygming_dll_for_implib_fallback_core '.idata$6' "$1"` else # unknown sharedlib_from_linklib_result="" fi } # func_extract_an_archive dir oldlib func_extract_an_archive () { $opt_debug f_ex_an_ar_dir="$1"; shift f_ex_an_ar_oldlib="$1" if test "$lock_old_archive_extraction" = yes; then lockfile=$f_ex_an_ar_oldlib.lock until $opt_dry_run || ln "$progpath" "$lockfile" 2>/dev/null; do func_echo "Waiting for $lockfile to be removed" sleep 2 done fi func_show_eval "(cd \$f_ex_an_ar_dir && $AR x \"\$f_ex_an_ar_oldlib\")" \ 'stat=$?; rm -f "$lockfile"; exit $stat' if test "$lock_old_archive_extraction" = yes; then $opt_dry_run || rm -f "$lockfile" fi 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 | sort | $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 | sort | $NL2SP` done func_extract_archives_result="$my_oldobjs" } # 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 $objdir directory. This is a cygwin/mingw-specific # behavior. func_emit_wrapper () { func_emit_wrapper_arg1=${1-no} $ECHO "\ #! $SHELL # $output - temporary wrapper script for $objdir/$outputname # Generated by $PROGRAM (GNU $PACKAGE$TIMESTAMP) $VERSION # # The $output program cannot be directly executed until all the libtool # libraries that it depends on are installed. # # This wrapper script should never be moved out of the build directory. # If it is, it will not operate correctly. # Sed substitution that helps us do robust quoting. It backslashifies # metacharacters that are still active within double-quoted strings. sed_quote_subst='$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\" != \"$magic\"; then file=\"\$0\"" qECHO=`$ECHO "$ECHO" | $SED "$sed_quote_subst"` $ECHO "\ # A function that is used when there is no print builtin or printf. func_fallback_echo () { eval 'cat <<_LTECHO_EOF \$1 _LTECHO_EOF' } ECHO=\"$qECHO\" fi # Very basic option parsing. These options are (a) specific to # the libtool wrapper, (b) are identical between the wrapper # /script/ and the wrapper /executable/ which is used only on # windows platforms, and (c) all begin with the string "--lt-" # (application programs are unlikely to have options which match # this pattern). # # There are only two supported options: --lt-debug and # --lt-dump-script. There is, deliberately, no --lt-help. # # The first argument to this parsing function should be the # script's $0 value, followed by "$@". lt_option_debug= func_parse_lt_options () { lt_script_arg0=\$0 shift for lt_opt do case \"\$lt_opt\" in --lt-debug) lt_option_debug=1 ;; --lt-dump-script) lt_dump_D=\`\$ECHO \"X\$lt_script_arg0\" | $SED -e 's/^X//' -e 's%/[^/]*$%%'\` test \"X\$lt_dump_D\" = \"X\$lt_script_arg0\" && lt_dump_D=. lt_dump_F=\`\$ECHO \"X\$lt_script_arg0\" | $SED -e 's/^X//' -e 's%^.*/%%'\` cat \"\$lt_dump_D/\$lt_dump_F\" exit 0 ;; --lt-*) \$ECHO \"Unrecognized --lt- option: '\$lt_opt'\" 1>&2 exit 1 ;; esac done # Print the debug banner immediately: if test -n \"\$lt_option_debug\"; then echo \"${outputname}:${output}:\${LINENO}: libtool wrapper (GNU $PACKAGE$TIMESTAMP) $VERSION\" 1>&2 fi } # Used when --lt-debug. Prints its arguments to stdout # (redirection is the responsibility of the caller) func_lt_dump_args () { lt_dump_args_N=1; for lt_arg do \$ECHO \"${outputname}:${output}:\${LINENO}: newargv[\$lt_dump_args_N]: \$lt_arg\" lt_dump_args_N=\`expr \$lt_dump_args_N + 1\` done } # Core function for launching the target application func_exec_program_core () { " case $host in # Backslashes separate directories on plain windows *-*-mingw | *-*-os2* | *-cegcc*) $ECHO "\ if test -n \"\$lt_option_debug\"; then \$ECHO \"${outputname}:${output}:\${LINENO}: newargv[0]: \$progdir\\\\\$program\" 1>&2 func_lt_dump_args \${1+\"\$@\"} 1>&2 fi exec \"\$progdir\\\\\$program\" \${1+\"\$@\"} " ;; *) $ECHO "\ if test -n \"\$lt_option_debug\"; then \$ECHO \"${outputname}:${output}:\${LINENO}: newargv[0]: \$progdir/\$program\" 1>&2 func_lt_dump_args \${1+\"\$@\"} 1>&2 fi exec \"\$progdir/\$program\" \${1+\"\$@\"} " ;; esac $ECHO "\ \$ECHO \"\$0: cannot exec \$program \$*\" 1>&2 exit 1 } # A function to encapsulate launching the target application # Strips options in the --lt-* namespace from \$@ and # launches target application with the remaining arguments. func_exec_program () { case \" \$* \" in *\\ --lt-*) for lt_wr_arg do case \$lt_wr_arg in --lt-*) ;; *) set x \"\$@\" \"\$lt_wr_arg\"; shift;; esac shift done ;; esac func_exec_program_core \${1+\"\$@\"} } # Parse options func_parse_lt_options \"\$0\" \${1+\"\$@\"} # Find the directory that this script lives in. thisdir=\`\$ECHO \"\$file\" | $SED 's%/[^/]*$%%'\` 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 \"\$file\" | $SED '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 \"\$file\" | $SED 's%^.*/%%'\` file=\`ls -ld \"\$thisdir/\$file\" | $SED -n 's/.*-> //p'\` done # Usually 'no', except on cygwin/mingw when embedded into # the cwrapper. WRAPPER_SCRIPT_BELONGS_IN_OBJDIR=$func_emit_wrapper_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 \"\$thisdir\" | $SED 's%[\\\\/][^\\\\/]*$%%'\` ;; $objdir ) thisdir=. ;; esac fi # Try to get the absolute directory name. absdir=\`cd \"\$thisdir\" && pwd\` test -n \"\$absdir\" && thisdir=\"\$absdir\" " if test "$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 $ECHO "\ if test -f \"\$progdir/\$program\"; then" # fixup the dll searchpath if we need to. # # Fix the DLL searchpath if we need to. Do this before prepending # to shlibpath, because on Windows, both are PATH and uninstalled # libraries must come first. if test -n "$dllsearchpath"; then $ECHO "\ # Add the dll search path components to the executable PATH PATH=$dllsearchpath:\$PATH " fi # 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 $shlibpath_var=\`\$ECHO \"\$$shlibpath_var\" | $SED 's/::*\$//'\` export $shlibpath_var " fi $ECHO "\ if test \"\$libtool_execute_magic\" != \"$magic\"; then # Run the actual program with our arguments. func_exec_program \${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\ " } # 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 #else # include # include # ifdef __CYGWIN__ # include # endif #endif #include #include #include #include #include #include #include #include /* declarations of non-ANSI functions */ #if defined(__MINGW32__) # ifdef __STRICT_ANSI__ int _putenv (const char *); # endif #elif defined(__CYGWIN__) # ifdef __STRICT_ANSI__ char *realpath (const char *, char *); int putenv (char *); int setenv (const char *, const char *, int); # endif /* #elif defined (other platforms) ... */ #endif /* portability defines, excluding path handling macros */ #if defined(_MSC_VER) # define setmode _setmode # define stat _stat # define chmod _chmod # define getcwd _getcwd # define putenv _putenv # define S_IXUSR _S_IEXEC # ifndef _INTPTR_T_DEFINED # define _INTPTR_T_DEFINED # define intptr_t int # endif #elif defined(__MINGW32__) # define setmode _setmode # define stat _stat # define chmod _chmod # define getcwd _getcwd # define putenv _putenv #elif defined(__CYGWIN__) # define HAVE_SETENV # define FOPEN_WB "wb" /* #elif defined (other platforms) ... */ #endif #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 /* path handling portability macros */ #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 */ #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) #if defined(LT_DEBUGWRAPPER) static int lt_debug = 1; #else static int lt_debug = 0; #endif const char *program_name = "libtool-wrapper"; /* in case xstrdup fails */ 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_debugprintf (const char *file, int line, const char *fmt, ...); void lt_fatal (const char *file, int line, const char *message, ...); static const char *nonnull (const char *s); static const char *nonempty (const char *s); 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_update_exe_path (const char *name, const char *value); void lt_update_lib_path (const char *name, const char *value); char **prepare_spawn (char **argv); void lt_dump_script (FILE *f); EOF cat <= 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; lt_debugprintf (__FILE__, __LINE__, "(make_executable): %s\n", nonempty (path)); 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; lt_debugprintf (__FILE__, __LINE__, "(find_executable): %s\n", nonempty (wrapper)); 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 (__FILE__, __LINE__, "getcwd failed: %s", nonnull (strerror (errno))); 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 (__FILE__, __LINE__, "getcwd failed: %s", nonnull (strerror (errno))); 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) { lt_debugprintf (__FILE__, __LINE__, "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 { lt_fatal (__FILE__, __LINE__, "error accessing file \"%s\": %s", tmp_pathspec, nonnull (strerror (errno))); } } XFREE (tmp_pathspec); if (!has_symlinks) { return xstrdup (pathspec); } tmp_pathspec = realpath (pathspec, buf); if (tmp_pathspec == 0) { lt_fatal (__FILE__, __LINE__, "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; } void lt_debugprintf (const char *file, int line, const char *fmt, ...) { va_list args; if (lt_debug) { (void) fprintf (stderr, "%s:%s:%d: ", program_name, file, line); va_start (args, fmt); (void) vfprintf (stderr, fmt, args); va_end (args); } } static void lt_error_core (int exit_status, const char *file, int line, const char *mode, const char *message, va_list ap) { fprintf (stderr, "%s:%s:%d: %s: ", program_name, file, line, mode); vfprintf (stderr, message, ap); fprintf (stderr, ".\n"); if (exit_status >= 0) exit (exit_status); } void lt_fatal (const char *file, int line, const char *message, ...) { va_list ap; va_start (ap, message); lt_error_core (EXIT_FAILURE, file, line, "FATAL", message, ap); va_end (ap); } static const char * nonnull (const char *s) { return s ? s : "(null)"; } static const char * nonempty (const char *s) { return (s && !*s) ? "(empty)" : nonnull (s); } void lt_setenv (const char *name, const char *value) { lt_debugprintf (__FILE__, __LINE__, "(lt_setenv) setting '%s' to '%s'\n", nonnull (name), nonnull (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; } void lt_update_exe_path (const char *name, const char *value) { lt_debugprintf (__FILE__, __LINE__, "(lt_update_exe_path) modifying '%s' by prepending '%s'\n", nonnull (name), nonnull (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) { lt_debugprintf (__FILE__, __LINE__, "(lt_update_lib_path) modifying '%s' by prepending '%s'\n", nonnull (name), nonnull (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 case $host_os in mingw*) cat <<"EOF" /* Prepares an argument vector before calling spawn(). Note that spawn() does not by itself call the command interpreter (getenv ("COMSPEC") != NULL ? getenv ("COMSPEC") : ({ OSVERSIONINFO v; v.dwOSVersionInfoSize = sizeof(OSVERSIONINFO); GetVersionEx(&v); v.dwPlatformId == VER_PLATFORM_WIN32_NT; }) ? "cmd.exe" : "command.com"). Instead it simply concatenates the arguments, separated by ' ', and calls CreateProcess(). We must quote the arguments since Win32 CreateProcess() interprets characters like ' ', '\t', '\\', '"' (but not '<' and '>') in a special way: - Space and tab are interpreted as delimiters. They are not treated as delimiters if they are surrounded by double quotes: "...". - Unescaped double quotes are removed from the input. Their only effect is that within double quotes, space and tab are treated like normal characters. - Backslashes not followed by double quotes are not special. - But 2*n+1 backslashes followed by a double quote become n backslashes followed by a double quote (n >= 0): \" -> " \\\" -> \" \\\\\" -> \\" */ #define SHELL_SPECIAL_CHARS "\"\\ \001\002\003\004\005\006\007\010\011\012\013\014\015\016\017\020\021\022\023\024\025\026\027\030\031\032\033\034\035\036\037" #define SHELL_SPACE_CHARS " \001\002\003\004\005\006\007\010\011\012\013\014\015\016\017\020\021\022\023\024\025\026\027\030\031\032\033\034\035\036\037" char ** prepare_spawn (char **argv) { size_t argc; char **new_argv; size_t i; /* Count number of arguments. */ for (argc = 0; argv[argc] != NULL; argc++) ; /* Allocate new argument vector. */ new_argv = XMALLOC (char *, argc + 1); /* Put quoted arguments into the new argument vector. */ for (i = 0; i < argc; i++) { const char *string = argv[i]; if (string[0] == '\0') new_argv[i] = xstrdup ("\"\""); else if (strpbrk (string, SHELL_SPECIAL_CHARS) != NULL) { int quote_around = (strpbrk (string, SHELL_SPACE_CHARS) != NULL); size_t length; unsigned int backslashes; const char *s; char *quoted_string; char *p; length = 0; backslashes = 0; if (quote_around) length++; for (s = string; *s != '\0'; s++) { char c = *s; if (c == '"') length += backslashes + 1; length++; if (c == '\\') backslashes++; else backslashes = 0; } if (quote_around) length += backslashes + 1; quoted_string = XMALLOC (char, length + 1); p = quoted_string; backslashes = 0; if (quote_around) *p++ = '"'; for (s = string; *s != '\0'; s++) { char c = *s; if (c == '"') { unsigned int j; for (j = backslashes + 1; j > 0; j--) *p++ = '\\'; } *p++ = c; if (c == '\\') backslashes++; else backslashes = 0; } if (quote_around) { unsigned int j; for (j = backslashes; j > 0; j--) *p++ = '\\'; *p++ = '"'; } *p = '\0'; new_argv[i] = quoted_string; } else new_argv[i] = (char *) string; } new_argv[argc] = NULL; return new_argv; } EOF ;; esac cat <<"EOF" void lt_dump_script (FILE* f) { EOF func_emit_wrapper yes | $SED -n -e ' s/^\(.\{79\}\)\(..*\)/\1\ \2/ h s/\([\\"]\)/\\\1/g s/$/\\n/ s/\([^\n]*\).*/ fputs ("\1", f);/p g D' cat <<"EOF" } EOF } # end: func_emit_cwrapperexe_src # func_win32_import_lib_p ARG # True if ARG is an import lib, as indicated by $file_magic_cmd func_win32_import_lib_p () { $opt_debug case `eval $file_magic_cmd \"\$1\" 2>/dev/null | $SED -e 10q` in *import*) : ;; *) false ;; esac } # 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=$nonopt compile_rpath= finalize_rpath= compile_shlibpath= finalize_shlibpath= convenience= old_convenience= deplibs= old_deplibs= compiler_flags= linker_flags= dllsearchpath= lib_search_path=`pwd` inst_prefix_dir= new_inherited_linker_flags= avoid_version=no bindir= dlfiles= dlprefiles= dlself=no export_dynamic=no export_symbols= export_symbols_regex= generated= libobjs= ltlibs= module=no no_install=no objs= non_pic_objects= precious_files_regex= prefer_static_libs=no preload=no prev= prevarg= release= rpath= xrpath= perm_rpath= temp_rpath= thread_safe=no vinfo= vinfo_number=no weak_libs= single_module="${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 $prev in bindir) bindir="$arg" prev= continue ;; 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 func_append dlfiles " $arg" else func_append 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 "*) ;; *) func_append 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 # func_append 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 func_append 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. func_append 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 "*) ;; *) func_append rpath " $arg" ;; esac else case "$xrpath " in *" $arg "*) ;; *) func_append xrpath " $arg" ;; esac fi prev= continue ;; shrext) shrext_cmds="$arg" prev= continue ;; weak) func_append weak_libs " $arg" prev= continue ;; xcclinker) func_append linker_flags " $qarg" func_append compiler_flags " $qarg" prev= func_append compile_command " $qarg" func_append finalize_command " $qarg" continue ;; xcompiler) func_append compiler_flags " $qarg" prev= func_append compile_command " $qarg" func_append finalize_command " $qarg" continue ;; xlinker) func_append linker_flags " $qarg" func_append 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 " $link_static_flag" fi continue ;; -allow-undefined) # FIXME: remove this flag sometime in the future. func_fatal_error "\`-allow-undefined' must not be used because it is the default" ;; -avoid-version) avoid_version=yes continue ;; -bindir) prev=bindir continue ;; -dlopen) prev=dlfiles continue ;; -dlpreopen) prev=dlprefiles continue ;; -export-dynamic) export_dynamic=yes continue ;; -export-symbols | -export-symbols-regex) if test -n "$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" if test -z "$func_stripname_result"; then if test "$#" -gt 0; then func_fatal_error "require no space between \`-L' and \`$1'" else func_fatal_error "need path for \`-L' option" fi fi func_resolve_sysroot "$func_stripname_result" dir=$func_resolve_sysroot_result # 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 "* | *" $arg "*) # Will only happen for absolute or sysroot arguments ;; *) # Preserve sysroot, but never include relative directories case $dir in [\\/]* | [A-Za-z]:[\\/]* | =*) func_append deplibs " $arg" ;; *) func_append deplibs " -L$dir" ;; esac func_append lib_search_path " $dir" ;; esac case $host in *-*-cygwin* | *-*-mingw* | *-*-pw32* | *-*-os2* | *-cegcc*) testbindir=`$ECHO "$dir" | $SED 's*/lib$*/bin*'` case :$dllsearchpath: in *":$dir:"*) ;; ::) dllsearchpath=$dir;; *) func_append dllsearchpath ":$dir";; esac case :$dllsearchpath: in *":$testbindir:"*) ;; ::) dllsearchpath=$testbindir;; *) func_append dllsearchpath ":$testbindir";; esac ;; esac continue ;; -l*) if test "X$arg" = "X-lc" || test "X$arg" = "X-lm"; then case $host in *-*-cygwin* | *-*-mingw* | *-*-pw32* | *-*-beos* | *-cegcc* | *-*-haiku*) # These systems don't actually have a C or math library (as such) continue ;; *-*-os2*) # These systems don't actually have a C library (as such) test "X$arg" = "X-lc" && continue ;; *-*-openbsd* | *-*-freebsd* | *-*-dragonfly*) # Do not include libc due to us having libc/libc_r. test "X$arg" = "X-lc" && continue ;; *-*-rhapsody* | *-*-darwin1.[012]) # Rhapsody C and math libraries are in the System framework func_append deplibs " System.ltframework" continue ;; *-*-sco3.2v5* | *-*-sco5v6*) # Causes problems with __ctype test "X$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 func_append 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|--sysroot) func_append 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|-fopenmp|-openmp|-mp|-xopenmp|-omp|-qsmp=*) func_append compiler_flags " $arg" func_append compile_command " $arg" func_append finalize_command " $arg" case "$new_inherited_linker_flags " in *" $arg "*) ;; * ) func_append 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 $dir in [\\/]* | [A-Za-z]:[\\/]*) ;; =*) func_stripname '=' '' "$dir" dir=$lt_sysroot$func_stripname_result ;; *) func_fatal_error "only absolute run-paths are allowed" ;; esac case "$xrpath " in *" $dir "*) ;; *) func_append 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" func_append arg " $func_quote_for_eval_result" func_append 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" func_append arg " $wl$func_quote_for_eval_result" func_append compiler_flags " $wl$func_quote_for_eval_result" func_append 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" ;; # Flags to be passed through unchanged, with rationale: # -64, -mips[0-9] enable 64-bit mode for the SGI compiler # -r[0-9][0-9]* specify processor for the SGI compiler # -xarch=*, -xtarget=* enable 64-bit mode for the Sun compiler # +DA*, +DD* enable 64-bit mode for the HP compiler # -q* compiler args for the IBM compiler # -m*, -t[45]*, -txscale* architecture-specific flags for GCC # -F/path path to uninstalled frameworks, gcc on darwin # -p, -pg, --coverage, -fprofile-* profiling flags for GCC # @file GCC response files # -tp=* Portland pgcc target processor selection # --sysroot=* for sysroot support # -O*, -flto*, -fwhopr*, -fuse-linker-plugin GCC link-time optimization -64|-mips[0-9]|-r[0-9][0-9]*|-xarch=*|-xtarget=*|+DA*|+DD*|-q*|-m*| \ -t[45]*|-txscale*|-p|-pg|--coverage|-fprofile-*|-F*|@*|-tp=*|--sysroot=*| \ -O*|-flto*|-fwhopr*|-fuse-linker-plugin) func_quote_for_eval "$arg" arg="$func_quote_for_eval_result" func_append compile_command " $arg" func_append finalize_command " $arg" func_append compiler_flags " $arg" continue ;; # Some other compiler flag. -* | +*) func_quote_for_eval "$arg" arg="$func_quote_for_eval_result" ;; *.$objext) # A standard object. func_append 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 func_append 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. func_append 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. func_append deplibs " $arg" func_append old_deplibs " $arg" continue ;; *.la) # A libtool-controlled library. func_resolve_sysroot "$arg" if test "$prev" = dlfiles; then # This library was specified with -dlopen. func_append dlfiles " $func_resolve_sysroot_result" prev= elif test "$prev" = dlprefiles; then # The library was specified with -dlpreopen. func_append dlprefiles " $func_resolve_sysroot_result" prev= else func_append deplibs " $func_resolve_sysroot_result" fi continue ;; # Some other compiler argument. *) # Unknown arguments in both finalize_command and compile_command need # to be aesthetically quoted because they are evaled later. func_quote_for_eval "$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 $shlibpath_var eval shlib_search_path=\`\$ECHO \"\${$shlibpath_var}\" \| \$SED \'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$objdir" func_to_tool_file "$output_objdir/" tool_output_objdir=$func_to_tool_file_result # Create the object directory. func_mkdir_p "$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 $opt_preserve_dup_deps ; then case "$libs " in *" $deplib "*) func_append specialdeplibs " $deplib" ;; esac fi func_append 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 "*) func_append specialdeplibs " $pre_post_deps" ;; esac func_append 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 $dlprefiles; do # Ignore non-libtool-libs dependency_libs= func_resolve_sysroot "$lib" case $lib in *.la) func_source "$func_resolve_sysroot_result" ;; esac # Collect preopened libtool deplibs, except any this library # has declared as weak libs for deplib in $dependency_libs; do func_basename "$deplib" deplib_base=$func_basename_result case " $weak_libs " in *" $deplib_base "*) ;; *) func_append 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 $deplib in -mt|-mthreads|-kthread|-Kthread|-pthread|-pthreads|--thread-safe \ |-threads|-fopenmp|-openmp|-mp|-xopenmp|-omp|-qsmp=*) if test "$linkmode,$pass" = "prog,link"; then compile_deplibs="$deplib $compile_deplibs" finalize_deplibs="$deplib $finalize_deplibs" else func_append compiler_flags " $deplib" if test "$linkmode" = lib ; then case "$new_inherited_linker_flags " in *" $deplib "*) ;; * ) func_append 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 "*) ;; * ) func_append 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" func_resolve_sysroot "$func_stripname_result" func_append newlib_search_path " $func_resolve_sysroot_result" ;; prog) if test "$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" func_resolve_sysroot "$func_stripname_result" func_append newlib_search_path " $func_resolve_sysroot_result" ;; *) func_warning "\`-L' is ignored for archives/objects" ;; esac # linkmode continue ;; # -L -R*) if test "$pass" = link; then func_stripname '-R' '' "$deplib" func_resolve_sysroot "$func_stripname_result" dir=$func_resolve_sysroot_result # Make sure the xrpath contains only unique directories. case "$xrpath " in *" $dir "*) ;; *) func_append xrpath " $dir" ;; esac fi deplibs="$deplib $deplibs" continue ;; *.la) func_resolve_sysroot "$deplib" lib=$func_resolve_sysroot_result ;; *.$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 \"$deplib\"" 2>/dev/null | $SED 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. func_append newdlprefiles " $deplib" compile_deplibs="$deplib $compile_deplibs" finalize_deplibs="$deplib $finalize_deplibs" else func_append 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 "$inherited_linker_flags" | $SED '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 "*) ;; *) func_append new_inherited_linker_flags " $tmp_inherited_linker_flag";; esac done fi dependency_libs=`$ECHO " $dependency_libs" | $SED '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" && func_append dlfiles " $dlopen" test -n "$dlpreopen" && func_append 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. func_append convenience " $ladir/$objdir/$old_library" func_append 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 $opt_preserve_dup_deps ; then case "$tmp_libs " in *" $deplib "*) func_append specialdeplibs " $deplib" ;; esac fi func_append tmp_libs " $deplib" done continue fi # $pass = conv # Get the name of the library we link against. linklib= if test -n "$old_library" && { test "$prefer_static_libs" = yes || test "$prefer_static_libs,$installed" = "built,no"; }; then linklib=$old_library else for l in $old_library $library_names; do linklib="$l" done fi 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. func_append dlprefiles " $lib $dependency_libs" else func_append 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$installed" = Xyes; then if test ! -f "$lt_sysroot$libdir/$linklib" && test -f "$abs_ladir/$linklib"; then func_warning "library \`$lib' was moved." dir="$ladir" absdir="$abs_ladir" libdir="$abs_ladir" else dir="$lt_sysroot$libdir" absdir="$lt_sysroot$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 func_append notinst_path " $abs_ladir" else dir="$ladir/$objdir" absdir="$abs_ladir/$objdir" # Remove this search path later func_append 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: \`$lib'" fi case "$host" in # special handling for platforms with PE-DLLs. *cygwin* | *mingw* | *cegcc* ) # Linker will automatically link against shared library if both # static and shared are present. Therefore, ensure we extract # symbols from the import library if a shared library is present # (otherwise, the dlopen module name will be incorrect). We do # this by putting the import library name into $newdlprefiles. # We recover the dlopen module name by 'saving' the la file # name in a special purpose variable, and (later) extracting the # dlname from the la file. if test -n "$dlname"; then func_tr_sh "$dir/$linklib" eval "libfile_$func_tr_sh_result=\$abs_ladir/\$laname" func_append newdlprefiles " $dir/$linklib" else func_append 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" && \ func_append dlpreconveniencelibs " $dir/$old_library" fi ;; * ) # Prefer using a static library (so that no silly _DYNAMIC symbols # are required to link). if test -n "$old_library"; then func_append 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" && \ func_append dlpreconveniencelibs " $dir/$old_library" # Otherwise, use the dlname, so that lt_dlopen finds it. elif test -n "$dlname"; then func_append newdlprefiles " $dir/$dlname" else func_append newdlprefiles " $dir/$linklib" fi ;; esac 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 func_append 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" func_resolve_sysroot "$func_stripname_result" func_append newlib_search_path " $func_resolve_sysroot_result" ;; esac # Need to link against all dependency_libs? if test "$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 $opt_preserve_dup_deps ; then case "$tmp_libs " in *" $deplib "*) func_append specialdeplibs " $deplib" ;; esac fi func_append 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:"*) ;; *) func_append 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 "*) ;; *) func_append compile_rpath " $absdir" ;; esac ;; esac case " $sys_lib_dlsearch_path " in *" $libdir "*) ;; *) case "$finalize_rpath " in *" $libdir "*) ;; *) func_append 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 func_append notinst_deplibs " $lib" need_relink=no ;; *) if test "$installed" = no; then func_append 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 "*) ;; *) func_append compile_rpath " $absdir" ;; esac ;; esac case " $sys_lib_dlsearch_path " in *" $libdir "*) ;; *) case "$finalize_rpath " in *" $libdir "*) ;; *) func_append 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 "$linkmode" = prog || test "$opt_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$absdir" # Try looking first in the location we're being installed to. if test -n "$inst_prefix_dir"; then case $libdir in [\\/]*) func_append add_dir " -L$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 *":$add_shlibpath:"*) ;; *) func_append compile_shlibpath "$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:"*) ;; *) func_append finalize_shlibpath "$libdir:" ;; esac fi fi fi if test "$linkmode" = prog || test "$opt_mode" = relink; then add_shlibpath= add_dir= add= # Finalize command for both is simple: just hardcode it. if test "$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 *":$libdir:"*) ;; *) func_append finalize_shlibpath "$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 $libdir in [\\/]*) func_append add_dir " -L$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 "*) ;; *) func_append xrpath " $temp_xrpath";; esac;; *) func_append temp_deplibs " $libdir";; esac done dependency_libs="$temp_deplibs" fi func_append 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" case $deplib in -L*) func_stripname '-L' '' "$deplib" func_resolve_sysroot "$func_stripname_result";; *) func_resolve_sysroot "$deplib" ;; esac if $opt_preserve_dup_deps ; then case "$tmp_libs " in *" $func_resolve_sysroot_result "*) func_append specialdeplibs " $func_resolve_sysroot_result" ;; esac fi func_append tmp_libs " $func_resolve_sysroot_result" done if test "$link_all_deplibs" != no; then # Add the search paths of all dependency libraries for deplib in $dependency_libs; do path= case $deplib in -L*) path="$deplib" ;; *.la) func_resolve_sysroot "$deplib" deplib=$func_resolve_sysroot_result 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 func_append compiler_flags " ${wl}-dylib_file ${wl}${darwin_install_name}:${depdepl}" func_append 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 " $new_inherited_linker_flags" | $SED '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 "*) ;; *) func_append 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 "*) ;; *) func_append tmp_libs " $deplib" ;; esac ;; *) func_append 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 func_append 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" func_append 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!" func_append 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 # correct linux to gnu/linux during the next big refactor 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|qnx|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) # correct to gnu/linux during the next big refactor 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. func_append 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" func_append libobjs " $symfileobj" test "X$libobjs" = "X " && libobjs= if test "$opt_mode" != relink; then # Remove our outputs, but don't remove object files since they # may have been created when compiling PIC objects. removelist= tempremovelist=`$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 func_append 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 func_append oldlibs " $output_objdir/$libname.$libext" # Transform .lo files to .o files. oldobjs="$objs "`$ECHO "$libobjs" | $SP2NL | $SED "/\.${libext}$/d; $lo2o" | $NL2SP` fi # Eliminate all temporary directories. #for path in $notinst_path; do # lib_search_path=`$ECHO "$lib_search_path " | $SED "s% $path % %g"` # deplibs=`$ECHO "$deplibs " | $SED "s% -L$path % %g"` # dependency_libs=`$ECHO "$dependency_libs " | $SED "s% -L$path % %g"` #done if test -n "$xrpath"; then # If the user specified any rpath flags, then add them. temp_xrpath= for libdir in $xrpath; do func_replace_sysroot "$libdir" func_append temp_xrpath " -R$func_replace_sysroot_result" case "$finalize_rpath " in *" $libdir "*) ;; *) func_append 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 "*) ;; *) func_append 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 "*) ;; *) func_append dlprefiles " $lib" ;; esac done if test "$build_libtool_libs" = yes; then if test -n "$rpath"; then case $host in *-*-cygwin* | *-*-mingw* | *-*-pw32* | *-*-os2* | *-*-beos* | *-cegcc* | *-*-haiku*) # these systems don't actually have a c library (as such)! ;; *-*-rhapsody* | *-*-darwin1.[012]) # Rhapsody C library is in the System framework func_append deplibs " System.ltframework" ;; *-*-netbsd*) # Don't link with libc until the a.out ld.so is fixed. ;; *-*-openbsd* | *-*-freebsd* | *-*-dragonfly*) # Do not include libc due to us having libc/libc_r. ;; *-*-sco3.2v5* | *-*-sco5v6*) # Causes problems with __ctype ;; *-*-sysv4.2uw2* | *-*-sysv5* | *-*-unixware* | *-*-OpenUNIX*) # Compiler inserts libc in the correct place for threads to work ;; *) # Add libc to deplibs on all other systems if necessary. if test "$build_libtool_need_lc" = "yes"; then func_append 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` $nocaseglob else potential_libs=`ls $i/$libnameglob[.-]* 2>/dev/null` fi 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=`$ECHO "$potlib" | $SED 's,[^/]*$,,'`"$potliblink";; esac done if eval $file_magic_cmd \"\$potlib\" 2>/dev/null | $SED -e 10q | $EGREP "$file_magic_regex" > /dev/null; then func_append 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" $ECHO "*** using a file magic. 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But I can only do this if you have a" echo "*** shared version of the library, which you do not appear to have" echo "*** because I did check the linker path looking for a file starting" if test -z "$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. func_append newdeplibs " $a_deplib" ;; esac done # Gone through all deplibs. ;; none | unknown | *) newdeplibs="" tmp_deplibs=`$ECHO " $deplibs" | $SED 's/ -lc$//; 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 " $tmp_deplibs" | $SED "s,$i,,"` done fi case $tmp_deplibs in *[!\ \ ]*) echo if test "X$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 ;; esac ;; 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 " $newdeplibs" | $SED 's/ -lc / System.ltframework /'` ;; esac if test "$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 " $newdeplibs" | $SED 's% \([^ $]*\).ltframework% -framework \1%g'` new_inherited_linker_flags=`$ECHO " $new_inherited_linker_flags" | $SED 's% \([^ $]*\).ltframework% -framework \1%g'` deplibs=`$ECHO " $deplibs" | $SED '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/$objdir "*) func_append new_libs " -L$path/$objdir" ;; esac ;; esac done for deplib in $deplibs; do case $deplib in -L*) case " $new_libs " in *" $deplib "*) ;; *) func_append new_libs " $deplib" ;; esac ;; *) func_append 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 # Remove ${wl} instances when linking with ld. # FIXME: should test the right _cmds variable. case $archive_cmds in *\$LD\ *) wl= ;; esac if test "$hardcode_into_libs" = yes; then # Hardcode the library paths hardcode_libdirs= dep_rpath= rpath="$finalize_rpath" test "$opt_mode" != relink && rpath="$compile_rpath$rpath" for libdir in $rpath; do if test -n "$hardcode_libdir_flag_spec"; then if test -n "$hardcode_libdir_separator"; then func_replace_sysroot "$libdir" libdir=$func_replace_sysroot_result if test -z "$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"*) ;; *) func_append hardcode_libdirs "$hardcode_libdir_separator$libdir" ;; esac fi else eval flag=\"$hardcode_libdir_flag_spec\" func_append dep_rpath " $flag" fi elif test -n "$runpath_var"; then case "$perm_rpath " in *" $libdir "*) ;; *) func_append 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 "dep_rpath=\"$hardcode_libdir_flag_spec\"" fi if test -n "$runpath_var" && test -n "$perm_rpath"; then # We should set the runpath_var. rpath= for dir in $perm_rpath; do func_append rpath "$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 "$opt_mode" != relink && shlibpath="$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 func_append linknames " $link" done # Use standard objects if they are pic test -z "$pic_flag" && libobjs=`$ECHO "$libobjs" | $SP2NL | $SED "$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" func_append 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 cmd1 in $cmds; do IFS="$save_ifs" # Take the normal branch if the nm_file_list_spec branch # doesn't work or if tool conversion is not needed. case $nm_file_list_spec~$to_tool_file_cmd in *~func_convert_file_noop | *~func_convert_file_msys_to_w32 | ~*) try_normal_branch=yes eval cmd=\"$cmd1\" func_len " $cmd" len=$func_len_result ;; *) try_normal_branch=no ;; esac if test "$try_normal_branch" = yes \ && { test "$len" -lt "$max_cmd_len" \ || test "$max_cmd_len" -le -1; } then func_show_eval "$cmd" 'exit $?' skipped_export=false elif test -n "$nm_file_list_spec"; then func_basename "$output" output_la=$func_basename_result save_libobjs=$libobjs save_output=$output output=${output_objdir}/${output_la}.nm func_to_tool_file "$output" libobjs=$nm_file_list_spec$func_to_tool_file_result func_append delfiles " $output" func_verbose "creating $NM input file list: $output" for obj in $save_libobjs; do func_to_tool_file "$obj" $ECHO "$func_to_tool_file_result" done > "$output" eval cmd=\"$cmd1\" func_show_eval "$cmd" 'exit $?' output=$save_output libobjs=$save_libobjs skipped_export=false else # The command line is too long to execute in one step. func_verbose "using reloadable object file for export list..." skipped_export=: # Break out early, otherwise skipped_export may be # set to false by a later but shorter cmd. break fi done IFS="$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 "$include_expsyms" | $SP2NL >> "$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 func_append 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 "*) ;; *) func_append 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" func_append generated " $gentop" func_extract_archives $gentop $convenience func_append 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\" func_append linker_flags " $flag" fi # Make a backup of the uninstalled library when relinking if test "$opt_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=$output func_basename "$output" output_la=$func_basename_result # Clear the reloadable object creation command queue and # initialize k to one. test_cmds= concat_cmds= objlist= last_robj= k=1 if test -n "$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 $save_libobjs do func_to_tool_file "$obj" $ECHO "$func_to_tool_file_result" >> $output done echo ')' >> $output func_append delfiles " $output" func_to_tool_file "$output" output=$func_to_tool_file_result elif test -n "$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="$1 " shift fi for obj do func_to_tool_file "$obj" $ECHO "$func_to_tool_file_result" >> $output done func_append delfiles " $output" func_to_tool_file "$output" output=$firstobj\"$file_list_spec$func_to_tool_file_result\" else if test -n "$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. reload_objs=$objlist eval concat_cmds=\"$reload_cmds\" else # All subsequent reloadable object files will link in # the last one created. reload_objs="$objlist $last_robj" eval concat_cmds=\"\$concat_cmds~$reload_cmds~\$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~ reload_objs="$objlist $last_robj" eval concat_cmds=\"\${concat_cmds}$reload_cmds\" if test -n "$last_robj"; then eval concat_cmds=\"\${concat_cmds}~\$RM $last_robj\" fi func_append 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=$? # Restore the uninstalled library and exit if test "$opt_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 "$include_expsyms" | $SP2NL >> "$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 func_append 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" func_append generated " $gentop" func_extract_archives $gentop $dlprefiles func_append 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=$? # Restore the uninstalled library and exit if test "$opt_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 "$opt_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 "$tmp_whole_archive_flags" | $SED 's|,| |g'` else gentop="$output_objdir/${obj}x" func_append generated " $gentop" func_extract_archives $gentop $convenience reload_conv_objs="$reload_objs $func_extract_archives_result" fi fi # If we're not building shared, we need to use non_pic_objs test "$build_libtool_libs" != yes && libobjs="$non_pic_objects" # Create the old-style object. reload_objs="$objs$old_deplibs "`$ECHO "$libobjs" | $SP2NL | $SED "/\.${libext}$/d; /\.lib$/d; $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 " $compile_deplibs" | $SED 's/ -lc / System.ltframework /'` finalize_deplibs=`$ECHO " $finalize_deplibs" | $SED '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]) func_append compile_command " ${wl}-bind_at_load" func_append finalize_command " ${wl}-bind_at_load" ;; esac fi # Time to change all our "foo.ltframework" stuff back to "-framework foo" compile_deplibs=`$ECHO " $compile_deplibs" | $SED 's% \([^ $]*\).ltframework% -framework \1%g'` finalize_deplibs=`$ECHO " $finalize_deplibs" | $SED '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/$objdir "*) func_append new_libs " -L$path/$objdir" ;; esac ;; esac done for deplib in $compile_deplibs; do case $deplib in -L*) case " $new_libs " in *" $deplib "*) ;; *) func_append new_libs " $deplib" ;; esac ;; *) func_append new_libs " $deplib" ;; esac done compile_deplibs="$new_libs" func_append compile_command " $compile_deplibs" func_append 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 "*) ;; *) func_append 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"*) ;; *) func_append hardcode_libdirs "$hardcode_libdir_separator$libdir" ;; esac fi else eval flag=\"$hardcode_libdir_flag_spec\" func_append rpath " $flag" fi elif test -n "$runpath_var"; then case "$perm_rpath " in *" $libdir "*) ;; *) func_append 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=$libdir;; *) func_append dllsearchpath ":$libdir";; esac case :$dllsearchpath: in *":$testbindir:"*) ;; ::) dllsearchpath=$testbindir;; *) func_append dllsearchpath ":$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"*) ;; *) func_append hardcode_libdirs "$hardcode_libdir_separator$libdir" ;; esac fi else eval flag=\"$hardcode_libdir_flag_spec\" func_append rpath " $flag" fi elif test -n "$runpath_var"; then case "$finalize_perm_rpath " in *" $libdir "*) ;; *) func_append 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=`$ECHO "$compile_command" | $SP2NL | $SED "$lo2o" | $NL2SP` finalize_command=`$ECHO "$finalize_command" | $SP2NL | $SED "$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 $host in *cegcc* | *mingw32ce*) # Disable wrappers for cegcc and mingw32ce hosts, we are cross compiling anyway. wrappers_required=no ;; *cygwin* | *mingw* ) if test "$build_libtool_libs" != yes; then wrappers_required=no fi ;; *) 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 "$compile_command" | $SED 's%@OUTPUT@%'"$output"'%g'` link_command="$compile_command$compile_rpath" # We have no uninstalled library dependencies, so finalize right now. exit_status=0 func_show_eval "$link_command" 'exit_status=$?' if test -n "$postlink_cmds"; then func_to_tool_file "$output" postlink_cmds=`func_echo_all "$postlink_cmds" | $SED -e 's%@OUTPUT@%'"$output"'%g' -e 's%@TOOL_OUTPUT@%'"$func_to_tool_file_result"'%g'` func_execute_cmds "$postlink_cmds" 'exit $?' fi # Delete the generated files. if test -f "$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 $perm_rpath; do func_append rpath "$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 $finalize_perm_rpath; do func_append rpath "$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=`$ECHO "$link_command" | $SED 's%@OUTPUT@%'"$output"'%g'` # Delete the old output file. $opt_dry_run || $RM $output # Link the executable and exit func_show_eval "$link_command" 'exit $?' if test -n "$postlink_cmds"; then func_to_tool_file "$output" postlink_cmds=`func_echo_all "$postlink_cmds" | $SED -e 's%@OUTPUT@%'"$output"'%g' -e 's%@TOOL_OUTPUT@%'"$func_to_tool_file_result"'%g'` func_execute_cmds "$postlink_cmds" 'exit $?' fi 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=`$ECHO "$compile_var$compile_command$compile_rpath" | $SED 's%@OUTPUT@%\$progdir/\$file%g'` else # fast_install is set to needless relink_command= fi else link_command="$compile_var$compile_command$compile_rpath" relink_command="$finalize_var$finalize_command$finalize_rpath" fi fi # Replace the output file specification. link_command=`$ECHO "$link_command" | $SED 's%@OUTPUT@%'"$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 $?' if test -n "$postlink_cmds"; then func_to_tool_file "$output_objdir/$outputname" postlink_cmds=`func_echo_all "$postlink_cmds" | $SED -e 's%@OUTPUT@%'"$output_objdir/$outputname"'%g' -e 's%@TOOL_OUTPUT@%'"$func_to_tool_file_result"'%g'` func_execute_cmds "$postlink_cmds" 'exit $?' fi # 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 "$relink_command" | $SED "$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 func_append oldobjs " $symfileobj" fi fi addlibs="$old_convenience" fi if test -n "$addlibs"; then gentop="$output_objdir/${outputname}x" func_append generated " $gentop" func_extract_archives $gentop $addlibs func_append 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" func_append generated " $gentop" func_extract_archives $gentop $dlprefiles func_append 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" func_append 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" func_append oldobjs " $gentop/$newobj" ;; *) func_append oldobjs " $obj" ;; esac done fi func_to_tool_file "$oldlib" func_convert_file_msys_to_w32 tool_oldlib=$func_to_tool_file_result eval cmds=\"$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 elif test -n "$archiver_list_spec"; then func_verbose "using command file archive linking..." for obj in $oldobjs do func_to_tool_file "$obj" $ECHO "$func_to_tool_file_result" done > $output_objdir/$libname.libcmd func_to_tool_file "$output_objdir/$libname.libcmd" oldobjs=" $archiver_list_spec$func_to_tool_file_result" 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; export $var; $relink_command" fi done # Quote the link command for shipping. relink_command="(cd `pwd`; $SHELL $progpath $preserve_args --mode=relink $libtool_args @inst_prefix_dir@)" relink_command=`$ECHO "$relink_command" | $SED "$sed_quote_subst"` if test "$hardcode_automatic" = yes ; then relink_command= fi # Only create the output if not a dry run. $opt_dry_run || { for installed in no yes; do if test "$installed" = yes; then if test -z "$install_libdir"; then break fi output="$output_objdir/$outputname"i # Replace all uninstalled libtool libraries with the installed ones newdependency_libs= for deplib in $dependency_libs; do case $deplib in *.la) func_basename "$deplib" name="$func_basename_result" func_resolve_sysroot "$deplib" eval libdir=`${SED} -n -e 's/^libdir=\(.*\)$/\1/p' $func_resolve_sysroot_result` test -z "$libdir" && \ func_fatal_error "\`$deplib' is not a valid libtool archive" func_append newdependency_libs " ${lt_sysroot:+=}$libdir/$name" ;; -L*) func_stripname -L '' "$deplib" func_replace_sysroot "$func_stripname_result" func_append newdependency_libs " -L$func_replace_sysroot_result" ;; -R*) func_stripname -R '' "$deplib" func_replace_sysroot "$func_stripname_result" func_append newdependency_libs " -R$func_replace_sysroot_result" ;; *) func_append newdependency_libs " $deplib" ;; esac done dependency_libs="$newdependency_libs" newdlfiles= for lib in $dlfiles; do case $lib in *.la) func_basename "$lib" name="$func_basename_result" eval libdir=`${SED} -n -e 's/^libdir=\(.*\)$/\1/p' $lib` test -z "$libdir" && \ func_fatal_error "\`$lib' is not a valid libtool archive" func_append newdlfiles " ${lt_sysroot:+=}$libdir/$name" ;; *) func_append newdlfiles " $lib" ;; esac done dlfiles="$newdlfiles" newdlprefiles= for lib in $dlprefiles; do case $lib in *.la) # Only pass preopened files to the pseudo-archive (for # eventual linking with the app. that links it) if we # didn't already link the preopened objects directly into # the library: func_basename "$lib" name="$func_basename_result" eval libdir=`${SED} -n -e 's/^libdir=\(.*\)$/\1/p' $lib` test -z "$libdir" && \ func_fatal_error "\`$lib' is not a valid libtool archive" func_append newdlprefiles " ${lt_sysroot:+=}$libdir/$name" ;; esac done dlprefiles="$newdlprefiles" else newdlfiles= for lib in $dlfiles; do case $lib in [\\/]* | [A-Za-z]:[\\/]*) abs="$lib" ;; *) abs=`pwd`"/$lib" ;; esac func_append newdlfiles " $abs" done dlfiles="$newdlfiles" newdlprefiles= for lib in $dlprefiles; do case $lib in [\\/]* | [A-Za-z]:[\\/]*) abs="$lib" ;; *) abs=`pwd`"/$lib" ;; esac func_append newdlprefiles " $abs" done dlprefiles="$newdlprefiles" fi $RM $output # place dlname in correct position for cygwin # In fact, it would be nice if we could use this code for all target # systems that can't hard-code library paths into their executables # and that have no shared library path variable independent of PATH, # but it turns out we can't easily determine that from inspecting # libtool variables, so we have to hard-code the OSs to which it # applies here; at the moment, that means platforms that use the PE # object format with DLL files. See the long comment at the top of # tests/bindir.at for full details. tdlname=$dlname case $host,$output,$installed,$module,$dlname in *cygwin*,*lai,yes,no,*.dll | *mingw*,*lai,yes,no,*.dll | *cegcc*,*lai,yes,no,*.dll) # If a -bindir argument was supplied, place the dll there. if test "x$bindir" != x ; then func_relative_path "$install_libdir" "$bindir" tdlname=$func_relative_path_result$dlname else # Otherwise fall back on heuristic. tdlname=../bin/$dlname fi ;; esac $ECHO > $output "\ # $outputname - a libtool library file # Generated by $PROGRAM (GNU $PACKAGE$TIMESTAMP) $VERSION # # Please DO NOT delete this file! # It is necessary for linking the library. # The name that we can dlopen(3). dlname='$tdlname' # Names of this library. library_names='$library_names' # The name of the static archive. old_library='$old_library' # Linker flags that can not go in dependency_libs. inherited_linker_flags='$new_inherited_linker_flags' # Libraries that this one depends upon. dependency_libs='$dependency_libs' # Names of additional weak libraries provided by this library weak_library_names='$weak_libs' # Version information for $libname. current=$current age=$age revision=$revision # Is this an already installed library? installed=$installed # Should we warn about portability when linking against -modules? shouldnotlink=$module # Files to dlopen/dlpreopen dlopen='$dlfiles' dlpreopen='$dlprefiles' # Directory that this library needs to be installed in: libdir='$install_libdir'" if test "$installed" = no && test "$need_relink" = yes; then $ECHO >> $output "\ relink_command=\"$relink_command\"" fi done } # Do a symbolic link so that the libtool archive can be found in # LD_LIBRARY_PATH before the program is installed. func_show_eval '( cd "$output_objdir" && $RM "$outputname" && $LN_S "../$outputname" "$outputname" )' 'exit $?' ;; esac exit $EXIT_SUCCESS } { test "$opt_mode" = link || test "$opt_mode" = relink; } && func_mode_link ${1+"$@"} # func_mode_uninstall arg... func_mode_uninstall () { $opt_debug RM="$nonopt" files= rmforce= exit_status=0 # This variable tells wrapper scripts just to set variables rather # than running their programs. libtool_install_magic="$magic" for arg do case $arg in -f) func_append RM " $arg"; rmforce=yes ;; -*) func_append RM " $arg" ;; *) func_append files " $arg" ;; esac done test -z "$RM" && \ func_fatal_help "you must specify an RM program" rmdirs= for file in $files; do func_dirname "$file" "" "." dir="$func_dirname_result" if test "X$dir" = X.; then odir="$objdir" else odir="$dir/$objdir" fi func_basename "$file" name="$func_basename_result" test "$opt_mode" = uninstall && odir="$dir" # Remember odir for removal later, being careful to avoid duplicates if test "$opt_mode" = clean; then case " $rmdirs " in *" $odir "*) ;; *) func_append rmdirs " $odir" ;; esac fi # Don't error if the file doesn't exist and rm -f was used. if { test -L "$file"; } >/dev/null 2>&1 || { test -h "$file"; } >/dev/null 2>&1 || test -f "$file"; then : elif test -d "$file"; then exit_status=1 continue elif test "$rmforce" = yes; then continue fi rmfiles="$file" case $name in *.la) # Possibly a libtool archive, so verify it. if func_lalib_p "$file"; then func_source $dir/$name # Delete the libtool libraries and symlinks. for n in $library_names; do func_append rmfiles " $odir/$n" done test -n "$old_library" && func_append rmfiles " $odir/$old_library" case "$opt_mode" in clean) case " $library_names " in *" $dlname "*) ;; *) test -n "$dlname" && func_append rmfiles " $odir/$dlname" ;; esac test -n "$libdir" && func_append rmfiles " $odir/$name $odir/${name}i" ;; uninstall) if test -n "$library_names"; then # Do each command in the postuninstall commands. func_execute_cmds "$postuninstall_cmds" 'test "$rmforce" = yes || exit_status=1' fi if test -n "$old_library"; then # Do each command in the old_postuninstall commands. func_execute_cmds "$old_postuninstall_cmds" 'test "$rmforce" = yes || exit_status=1' fi # FIXME: should reinstall the best remaining shared library. ;; esac fi ;; *.lo) # Possibly a libtool object, so verify it. if func_lalib_p "$file"; then # Read the .lo file func_source $dir/$name # Add PIC object to the list of files to remove. if test -n "$pic_object" && test "$pic_object" != none; then func_append rmfiles " $dir/$pic_object" fi # Add non-PIC object to the list of files to remove. if test -n "$non_pic_object" && test "$non_pic_object" != none; then func_append rmfiles " $dir/$non_pic_object" fi fi ;; *) if test "$opt_mode" = clean ; then noexename=$name case $file in *.exe) func_stripname '' '.exe' "$file" file=$func_stripname_result func_stripname '' '.exe' "$name" noexename=$func_stripname_result # $file with .exe has already been added to rmfiles, # add $file without .exe func_append rmfiles " $file" ;; esac # Do a test to see if this is a libtool program. if func_ltwrapper_p "$file"; then if func_ltwrapper_executable_p "$file"; then func_ltwrapper_scriptname "$file" relink_command= func_source $func_ltwrapper_scriptname_result func_append rmfiles " $func_ltwrapper_scriptname_result" else relink_command= func_source $dir/$noexename fi # note $name still contains .exe if it was in $file originally # as does the version of $file that was added into $rmfiles func_append rmfiles " $odir/$name $odir/${name}S.${objext}" if test "$fast_install" = yes && test -n "$relink_command"; then func_append rmfiles " $odir/lt-$name" fi if test "X$noexename" != "X$name" ; then func_append rmfiles " $odir/lt-${noexename}.c" fi fi fi ;; esac func_show_eval "$RM $rmfiles" 'exit_status=1' done # Try to remove the ${objdir}s in the directories where we deleted files for dir in $rmdirs; do if test -d "$dir"; then func_show_eval "rmdir $dir >/dev/null 2>&1" fi done exit $exit_status } { test "$opt_mode" = uninstall || test "$opt_mode" = clean; } && func_mode_uninstall ${1+"$@"} test -z "$opt_mode" && { help="$generic_help" func_fatal_help "you must specify a MODE" } test -z "$exec_cmd" && \ func_fatal_help "invalid operation mode \`$opt_mode'" if test -n "$exec_cmd"; then eval exec "$exec_cmd" exit $EXIT_FAILURE fi exit $exit_status # The TAGs below are defined such that we never get into a situation # in which we disable both kinds of libraries. Given conflicting # choices, we go for a static library, that is the most portable, # since we can't tell whether shared libraries were disabled because # the user asked for that or because the platform doesn't support # them. This is particularly important on AIX, because we don't # support having both static and shared libraries enabled at the same # time on that platform, so we default to a shared-only configuration. # If a disable-shared tag is given, we'll fallback to a static-only # configuration. But we'll never go from static-only to shared-only. # ### BEGIN LIBTOOL TAG CONFIG: disable-shared build_libtool_libs=no build_old_libs=yes # ### END LIBTOOL TAG CONFIG: disable-shared # ### BEGIN LIBTOOL TAG CONFIG: disable-static build_old_libs=`case $build_libtool_libs in yes) echo no;; *) echo yes;; esac` # ### END LIBTOOL TAG CONFIG: disable-static # Local Variables: # mode:shell-script # sh-indentation:2 # End: # vi:sw=2 PDL-IO-Matlab-release-0.005/matio-1.5.0/config/ltoptions.m4000066400000000000000000000300731206363665300226050ustar00rootroot00000000000000# Helper functions for option handling. -*- Autoconf -*- # # Copyright (C) 2004, 2005, 2007, 2008, 2009 Free Software Foundation, # Inc. # Written by Gary V. Vaughan, 2004 # # This file is free software; the Free Software Foundation gives # unlimited permission to copy and/or distribute it, with or without # modifications, as long as this notice is preserved. # serial 7 ltoptions.m4 # This is to help aclocal find these macros, as it can't see m4_define. AC_DEFUN([LTOPTIONS_VERSION], [m4_if([1])]) # _LT_MANGLE_OPTION(MACRO-NAME, OPTION-NAME) # ------------------------------------------ m4_define([_LT_MANGLE_OPTION], [[_LT_OPTION_]m4_bpatsubst($1__$2, [[^a-zA-Z0-9_]], [_])]) # _LT_SET_OPTION(MACRO-NAME, OPTION-NAME) # --------------------------------------- # Set option OPTION-NAME for macro MACRO-NAME, and if there is a # matching handler defined, dispatch to it. Other OPTION-NAMEs are # saved as a flag. m4_define([_LT_SET_OPTION], [m4_define(_LT_MANGLE_OPTION([$1], [$2]))dnl m4_ifdef(_LT_MANGLE_DEFUN([$1], [$2]), _LT_MANGLE_DEFUN([$1], [$2]), [m4_warning([Unknown $1 option `$2'])])[]dnl ]) # _LT_IF_OPTION(MACRO-NAME, OPTION-NAME, IF-SET, [IF-NOT-SET]) # ------------------------------------------------------------ # Execute IF-SET if OPTION is set, IF-NOT-SET otherwise. m4_define([_LT_IF_OPTION], [m4_ifdef(_LT_MANGLE_OPTION([$1], [$2]), [$3], [$4])]) # _LT_UNLESS_OPTIONS(MACRO-NAME, OPTION-LIST, IF-NOT-SET) # ------------------------------------------------------- # Execute IF-NOT-SET unless all options in OPTION-LIST for MACRO-NAME # are set. m4_define([_LT_UNLESS_OPTIONS], [m4_foreach([_LT_Option], m4_split(m4_normalize([$2])), [m4_ifdef(_LT_MANGLE_OPTION([$1], _LT_Option), [m4_define([$0_found])])])[]dnl m4_ifdef([$0_found], [m4_undefine([$0_found])], [$3 ])[]dnl ]) # _LT_SET_OPTIONS(MACRO-NAME, OPTION-LIST) # ---------------------------------------- # OPTION-LIST is a space-separated list of Libtool options associated # with MACRO-NAME. If any OPTION has a matching handler declared with # LT_OPTION_DEFINE, dispatch to that macro; otherwise complain about # the unknown option and exit. m4_defun([_LT_SET_OPTIONS], [# Set options m4_foreach([_LT_Option], m4_split(m4_normalize([$2])), [_LT_SET_OPTION([$1], _LT_Option)]) m4_if([$1],[LT_INIT],[ dnl dnl Simply set some default values (i.e off) if boolean options were not dnl specified: _LT_UNLESS_OPTIONS([LT_INIT], [dlopen], [enable_dlopen=no ]) _LT_UNLESS_OPTIONS([LT_INIT], [win32-dll], [enable_win32_dll=no ]) dnl dnl If no reference was made to various pairs of opposing options, then dnl we run the default mode handler for the pair. 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Vaughan, 2004 # # This file is free software; the Free Software Foundation gives # unlimited permission to copy and/or distribute it, with or without # modifications, as long as this notice is preserved. # serial 6 ltsugar.m4 # This is to help aclocal find these macros, as it can't see m4_define. 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It'll see the old AC_DEFUN # in /usr/share/aclocal/libtool.m4 and remember it, then when it sees us # using a macro with the same name in our local m4/libtool.m4 it'll # pull the old libtool.m4 in (it doesn't see our shiny new m4_define # and doesn't know about Autoconf macros at all.) # # So we provide this file, which has a silly filename so it's always # included after everything else. This provides aclocal with the # AC_DEFUNs it wants, but when m4 processes it, it doesn't do anything # because those macros already exist, or will be overwritten later. # We use AC_DEFUN over AU_DEFUN for compatibility with aclocal-1.6. # # Anytime we withdraw an AC_DEFUN or AU_DEFUN, remember to add it here. # Yes, that means every name once taken will need to remain here until # we give up compatibility with versions before 1.7, at which point # we need to keep only those names which we still refer to. # This is to help aclocal find these macros, as it can't see m4_define. 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Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([MATIO_CHECK_DEFAULT_FILE_VERSION], [ AC_ARG_WITH(default-file-ver, AS_HELP_STRING([--with-default-file-ver=version], [Default MAT file version (4,5,7.3)]),[],[with_default_file_ver=5]) AC_MSG_CHECKING([for default MAT file version]) file_ver= case "$with_default_file_ver" in "4") file_ver=MAT_FT_MAT4 ;; "5") file_ver=MAT_FT_MAT5 ;; "7.3") file_ver=MAT_FT_MAT73 ;; esac if test "x$file_ver" != "x"; then AC_DEFINE_UNQUOTED([MAT_FT_DEFAULT],[$file_ver],[Default file format]) AC_MSG_RESULT([$file_ver]) else AC_MSG_ERROR([Unrecognized MAT file version]) fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_getopt_long.m4000066400000000000000000000010341206363665300242570ustar00rootroot00000000000000AC_DEFUN([MATIO_CHECK_GETOPT_LONG], [ AC_MSG_CHECKING(for getopt_long) AC_TRY_LINK( [#include #include #ifdef HAVE_UNISTD_H #include #endif #define _GNU_SOURCE /* For getopt_long on GNU systems */ #include ], [opt = getopt_long(0,NULL,NULL,NULL,NULL);], [ac_have_getopt_long=yes],[ac_have_getopt_long=no]) if test "x$ac_have_getopt_long" = "xyes" then AC_MSG_RESULT([system]) else AC_MSG_RESULT([internal]) fi AM_CONDITIONAL(NEED_GETOPT, test "x$ac_have_getopt_long" = "xno" ) ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_hdf5.m4000066400000000000000000000073601206363665300225740ustar00rootroot00000000000000dnl Copyright (C) 2009-2011 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([MATIO_CHECK_HDF5_V18], [ AC_MSG_CHECKING([if HDF5 interface is v1.8]) saved_CFLAGS="$CFLAGS" saved_LDFLAGS="$LDFLAGS" saved_LIBS="$LIBS" CFLAGS="$HDF5_CFLAGS $saved_CFLAGS" LDFLAGS="$saved_LDFLAGS" LIBS="$HDF5_LIBS $ZLIB_LIBS $saved_LIBS" AC_TRY_LINK([#include #include #include ], [hid_t dset_id = H5Dcreate(0,NULL,0,0,H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT);], [matio_hdf5_is_v18=yes], [matio_hdf5_is_v18=no]) CFLAGS="$saved_CFLAGS" LDFLAGS="$saved_LDFLAGS" LIBS="$saved_LIBS" AC_MSG_RESULT([$matio_hdf5_is_v18]) ]) AC_DEFUN([MATIO_CHECK_HDF5], [ AC_ARG_WITH(hdf5,AS_HELP_STRING([--with-hdf5=DIR], [Prefix where HDF5 library is installed]), HDF5_DIR=${withval},HDF5_DIR=) ac_have_hdf5=no if test "x${HDF5_DIR}" != "xno" then AC_MSG_CHECKING(for HDF5 software) if test "x$HDF5_DIR" != "x" -a "x$HDF5_DIR" != "xyes" then HDF5_CFLAGS="-I${HDF5_DIR}/include" if test "$acl_libdirstem" != "lib" -a -d "${HDF5_DIR}/$acl_libdirstem" then HDF5_LIBS="-L${HDF5_DIR}/$acl_libdirstem -lhdf5" else HDF5_LIBS="-L${HDF5_DIR}/lib -lhdf5" fi else HDF5_LIBS="-lhdf5" fi saved_CFLAGS="$CFLAGS" saved_LDFLAGS="$LDFLAGS" saved_LIBS="$LIBS" CFLAGS="$HDF5_CFLAGS $saved_CFLAGS" LDFLAGS="$saved_LDFLAGS" LIBS="$HDF5_LIBS $ZLIB_LIBS $saved_LIBS" AC_TRY_LINK([#include #include #include ], [H5open()], [ac_have_hdf5=yes], [ac_have_hdf5=no]) CFLAGS="$saved_CFLAGS" LDFLAGS="$saved_LDFLAGS" LIBS="$saved_LIBS" if test "x$ac_have_hdf5" = "xyes" then AC_MSG_RESULT($HDF5_LIBS) else HDF5_LIBS= HDF5_CFLAGS= AC_MSG_RESULT([no]) fi else HDF5_LIBS= HDF5_CFLAGS= fi if test "x$ac_have_hdf5" = "xyes" then MATIO_CHECK_HDF5_V18 if test "x$matio_hdf5_is_v18" = "xyes"; then AC_DEFINE_UNQUOTED([HAVE_HDF5],[1],[Have HDF5]) else HDF5_LIBS="" HDF5_CFLAGS="" fi fi AC_SUBST(HDF5_LIBS) AC_SUBST(HDF5_CFLAGS) AM_CONDITIONAL(HAVE_HDF5, test "x$ac_have_hdf5" = "xyes" -a "x$matio_hdf5_is_v18" = "xyes" ) ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_int16_t.m4000066400000000000000000000136441206363665300232340ustar00rootroot00000000000000dnl Copyright (C) 2005-2006 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([CHECK_MATIO_INT16_T], [ AC_MSG_CHECKING([for mat_int16_t]) AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif ], [int16_t i = 0;], ac_have_mat_int16_t=yes,ac_have_mat_int16_t=no) if test "x$ac_have_mat_int16_t" = "xyes" then ac_have_mat_int16_t=yes AC_DEFINE_UNQUOTED([HAVE_MAT_INT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_int16_t],[int16_t],[int16 type]) AC_MSG_RESULT([int16_t]) fi if test "x$ac_have_mat_int16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 16 #matio sizeof(signed char) not 16 bits #endif ], [signed char i = 0;], ac_have_mat_int16_t=yes,ac_have_mat_int16_t=no) if test "x$ac_have_mat_int16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_int16_t],[signed char],[int16 type]) AC_MSG_RESULT([signed char]) fi fi if test "x$ac_have_mat_int16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 16 #matio sizeof(short) not 16 bits #endif ], [short i = 0;], ac_have_mat_int16_t=yes,ac_have_mat_int16_t=no) if test "x$ac_have_mat_int16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_int16_t],[short],[int16 type]) AC_MSG_RESULT([short]) fi fi if test "x$ac_have_mat_int16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 16 #matio sizeof(int) not 16 bits #endif ], [int i = 0;], ac_have_mat_int16_t=yes,ac_have_mat_int16_t=no) if test "x$ac_have_mat_int16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_int16_t],[int],[int16 type]) AC_MSG_RESULT([int]) fi fi if test "x$ac_have_mat_int16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 16 #matio sizeof(long) not 16 bits #endif ], [long i = 0;], ac_have_mat_int16_t=yes,ac_have_mat_int16_t=no) if test "x$ac_have_mat_int16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_int16_t],[long],[int16 type]) AC_MSG_RESULT([long]) fi fi if test "x$ac_have_mat_int16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 16 #matio sizeof(long long) not 16 bits #endif ], [long long i = 0;], ac_have_mat_int16_t=yes,ac_have_mat_int16_t=no) if test "x$ac_have_mat_int16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_int16_t],[long long],[int16 type]) AC_MSG_RESULT([long long]) fi fi if test "x$ac_have_mat_int16_t" != "xyes" then AC_MSG_RESULT([]) fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_int32_t.m4000066400000000000000000000136441206363665300232320ustar00rootroot00000000000000dnl Copyright (C) 2005-2006 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([CHECK_MATIO_INT32_T], [ AC_MSG_CHECKING([for mat_int32_t]) AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif ], [int32_t i = 0;], ac_have_mat_int32_t=yes,ac_have_mat_int32_t=no) if test "x$ac_have_mat_int32_t" = "xyes" then ac_have_mat_int32_t=yes AC_DEFINE_UNQUOTED([HAVE_MAT_INT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_int32_t],[int32_t],[int32 type]) AC_MSG_RESULT([int32_t]) fi if test "x$ac_have_mat_int32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 32 #matio sizeof(signed char) not 32 bits #endif ], [signed char i = 0;], ac_have_mat_int32_t=yes,ac_have_mat_int32_t=no) if test "x$ac_have_mat_int32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_int32_t],[signed char],[int32 type]) AC_MSG_RESULT([signed char]) fi fi if test "x$ac_have_mat_int32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 32 #matio sizeof(short) not 32 bits #endif ], [short i = 0;], ac_have_mat_int32_t=yes,ac_have_mat_int32_t=no) if test "x$ac_have_mat_int32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_int32_t],[short],[int32 type]) AC_MSG_RESULT([short]) fi fi if test "x$ac_have_mat_int32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 32 #matio sizeof(int) not 32 bits #endif ], [int i = 0;], ac_have_mat_int32_t=yes,ac_have_mat_int32_t=no) if test "x$ac_have_mat_int32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_int32_t],[int],[int32 type]) AC_MSG_RESULT([int]) fi fi if test "x$ac_have_mat_int32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 32 #matio sizeof(long) not 32 bits #endif ], [long i = 0;], ac_have_mat_int32_t=yes,ac_have_mat_int32_t=no) if test "x$ac_have_mat_int32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_int32_t],[long],[int32 type]) AC_MSG_RESULT([long]) fi fi if test "x$ac_have_mat_int32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 32 #matio sizeof(long long) not 32 bits #endif ], [long long i = 0;], ac_have_mat_int32_t=yes,ac_have_mat_int32_t=no) if test "x$ac_have_mat_int32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_int32_t],[long long],[int32 type]) AC_MSG_RESULT([long long]) fi fi if test "x$ac_have_mat_int32_t" != "xyes" then AC_MSG_RESULT([]) fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_int64_t.m4000066400000000000000000000136441206363665300232370ustar00rootroot00000000000000dnl Copyright (C) 2005-2006 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([CHECK_MATIO_INT64_T], [ AC_MSG_CHECKING([for mat_int64_t]) AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif ], [int64_t i = 0;], ac_have_mat_int64_t=yes,ac_have_mat_int64_t=no) if test "x$ac_have_mat_int64_t" = "xyes" then ac_have_mat_int64_t=yes AC_DEFINE_UNQUOTED([HAVE_MAT_INT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_int64_t],[int64_t],[int64 type]) AC_MSG_RESULT([int64_t]) fi if test "x$ac_have_mat_int64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 64 #matio sizeof(signed char) not 64 bits #endif ], [signed char i = 0;], ac_have_mat_int64_t=yes,ac_have_mat_int64_t=no) if test "x$ac_have_mat_int64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_int64_t],[signed char],[int64 type]) AC_MSG_RESULT([signed char]) fi fi if test "x$ac_have_mat_int64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 64 #matio sizeof(short) not 64 bits #endif ], [short i = 0;], ac_have_mat_int64_t=yes,ac_have_mat_int64_t=no) if test "x$ac_have_mat_int64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_int64_t],[short],[int64 type]) AC_MSG_RESULT([short]) fi fi if test "x$ac_have_mat_int64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 64 #matio sizeof(int) not 64 bits #endif ], [int i = 0;], ac_have_mat_int64_t=yes,ac_have_mat_int64_t=no) if test "x$ac_have_mat_int64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_int64_t],[int],[int64 type]) AC_MSG_RESULT([int]) fi fi if test "x$ac_have_mat_int64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 64 #matio sizeof(long) not 64 bits #endif ], [long i = 0;], ac_have_mat_int64_t=yes,ac_have_mat_int64_t=no) if test "x$ac_have_mat_int64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_int64_t],[long],[int64 type]) AC_MSG_RESULT([long]) fi fi if test "x$ac_have_mat_int64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 64 #matio sizeof(long long) not 64 bits #endif ], [long long i = 0;], ac_have_mat_int64_t=yes,ac_have_mat_int64_t=no) if test "x$ac_have_mat_int64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_int64_t],[long long],[int64 type]) AC_MSG_RESULT([long long]) fi fi if test "x$ac_have_mat_int64_t" != "xyes" then AC_MSG_RESULT([]) fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_int8_t.m4000066400000000000000000000135441206363665300231540ustar00rootroot00000000000000dnl Copyright (C) 2005-2006 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([CHECK_MATIO_INT8_T], [ AC_MSG_CHECKING([for mat_int8_t]) AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif ], [int8_t i = 0;], ac_have_mat_int8_t=yes,ac_have_mat_int8_t=no) if test "x$ac_have_mat_int8_t" = "xyes" then ac_have_mat_int8_t=yes AC_DEFINE_UNQUOTED([HAVE_MAT_INT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_int8_t],[int8_t],[int8 type]) AC_MSG_RESULT([int8_t]) fi if test "x$ac_have_mat_int8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 8 #matio sizeof(signed char) not 8 bits #endif ], [signed char i = 0;], ac_have_mat_int8_t=yes,ac_have_mat_int8_t=no) if test "x$ac_have_mat_int8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_int8_t],[signed char],[int8 type]) AC_MSG_RESULT([signed char]) fi fi if test "x$ac_have_mat_int8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 8 #matio sizeof(short) not 8 bits #endif ], [short i = 0;], ac_have_mat_int8_t=yes,ac_have_mat_int8_t=no) if test "x$ac_have_mat_int8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_int8_t],[short],[int8 type]) AC_MSG_RESULT([short]) fi fi if test "x$ac_have_mat_int8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 8 #matio sizeof(int) not 8 bits #endif ], [int i = 0;], ac_have_mat_int8_t=yes,ac_have_mat_int8_t=no) if test "x$ac_have_mat_int8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_int8_t],[int],[int8 type]) AC_MSG_RESULT([int]) fi fi if test "x$ac_have_mat_int8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 8 #matio sizeof(long) not 8 bits #endif ], [long i = 0;], ac_have_mat_int8_t=yes,ac_have_mat_int8_t=no) if test "x$ac_have_mat_int8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_int8_t],[long],[int8 type]) AC_MSG_RESULT([long]) fi fi if test "x$ac_have_mat_int8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 8 #matio sizeof(long long) not 8 bits #endif ], [long long i = 0;], ac_have_mat_int8_t=yes,ac_have_mat_int8_t=no) if test "x$ac_have_mat_int8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_INT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_int8_t],[long long],[int8 type]) AC_MSG_RESULT([long long]) fi fi if test "x$ac_have_mat_int8_t" != "xyes" then AC_MSG_RESULT([]) fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_lib_suffix.m4000066400000000000000000000002671206363665300240770ustar00rootroot00000000000000AC_DEFUN([MATIO_CHECK_LIBDIR_SUFFIX], [ AC_ARG_WITH(libdir-suffix, AS_HELP_STRING([--with-libdir-suffix=suffix],[Suffix to apply to library directories]),,with_libdir_suffix=) ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_matlab.m4000066400000000000000000000037241206363665300232060ustar00rootroot00000000000000dnl Copyright (C) 2010 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([MATIO_CHECK_MATLAB], [ AC_ARG_WITH(matlab, AS_HELP_STRING([--with-matlab=DIR],[Directory with 'matlab' program]), MATLAB_DIR="$withval",MATLAB_DIR="") if test -n "$MATLAB_DIR" -a -d "$MATLAB_DIR"; then MATLAB_PATH="$PATH_SEPARATOR$MATLAB_DIR" fi # Do not use MATLAB as the program name because it can cause the matlab # script to faile AC_PATH_PROG([MATLABEXE], [matlab], [], [$PATH$MATLAB_PATH]) AC_SUBST([MATLABEXE]) if test -n "$MATLABEXE" then AC_MSG_RESULT([$MATLABEXE]) matio_cv_have_matlab=yes else AC_MSG_RESULT([no]) matio_cv_have_matlab=no fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_uint16_t.m4000066400000000000000000000141001206363665300234050ustar00rootroot00000000000000dnl Copyright (C) 2005-2006 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([CHECK_MATIO_UINT16_T], [ AC_MSG_CHECKING([for mat_uint16_t]) AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif ], [uint16_t i = 0;], ac_have_mat_uint16_t=yes,ac_have_mat_uint16_t=no) if test "x$ac_have_mat_uint16_t" = "xyes" then ac_have_mat_uint16_t=yes AC_DEFINE_UNQUOTED([HAVE_MAT_UINT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_uint16_t],[uint16_t],[int16 type]) AC_MSG_RESULT([uint16_t]) fi if test "x$ac_have_mat_uint16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 16 #matio sizeof(signed char) not 16 bits #endif ], [unsigned char i = 0;], ac_have_mat_uint16_t=yes,ac_have_mat_uint16_t=no) if test "x$ac_have_mat_uint16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_uint16_t],[unsigned char],[int16 type]) AC_MSG_RESULT([unsigned char]) fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 16 #matio sizeof(short) not 16 bits #endif ], [unsigned short i = 0;], ac_have_mat_uint16_t=yes,ac_have_mat_uint16_t=no) if test "x$ac_have_mat_uint16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_uint16_t],[unsigned short],[int16 type]) AC_MSG_RESULT([unsigned short]) fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 16 #matio sizeof(int) not 16 bits #endif ], [unsigned int i = 0;], ac_have_mat_uint16_t=yes,ac_have_mat_uint16_t=no) if test "x$ac_have_mat_uint16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_uint16_t],[unsigned int],[int16 type]) AC_MSG_RESULT([unsigned int]) fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 16 #matio sizeof(long) not 16 bits #endif ], [unsigned long i = 0;], ac_have_mat_uint16_t=yes,ac_have_mat_uint16_t=no) if test "x$ac_have_mat_uint16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_uint16_t],[unsigned long],[int16 type]) AC_MSG_RESULT([unsigned long]) fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 16 #matio sizeof(long long) not 16 bits #endif ], [unsigned long long i = 0;], ac_have_mat_uint16_t=yes,ac_have_mat_uint16_t=no) if test "x$ac_have_mat_uint16_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT16_T],[],[Have MAT int16]) AC_DEFINE_UNQUOTED([_mat_uint16_t],[unsigned long long],[int16 type]) AC_MSG_RESULT([unsigned long long]) fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then AC_MSG_RESULT([]) fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_uint32_t.m4000066400000000000000000000141001206363665300234030ustar00rootroot00000000000000dnl Copyright (C) 2005-2006 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([CHECK_MATIO_UINT32_T], [ AC_MSG_CHECKING([for mat_uint32_t]) AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif ], [uint32_t i = 0;], ac_have_mat_uint32_t=yes,ac_have_mat_uint32_t=no) if test "x$ac_have_mat_uint32_t" = "xyes" then ac_have_mat_uint32_t=yes AC_DEFINE_UNQUOTED([HAVE_MAT_UINT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_uint32_t],[uint32_t],[int32 type]) AC_MSG_RESULT([uint32_t]) fi if test "x$ac_have_mat_uint32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 32 #matio sizeof(signed char) not 32 bits #endif ], [unsigned char i = 0;], ac_have_mat_uint32_t=yes,ac_have_mat_uint32_t=no) if test "x$ac_have_mat_uint32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_uint32_t],[unsigned char],[int32 type]) AC_MSG_RESULT([unsigned char]) fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 32 #matio sizeof(short) not 32 bits #endif ], [unsigned short i = 0;], ac_have_mat_uint32_t=yes,ac_have_mat_uint32_t=no) if test "x$ac_have_mat_uint32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_uint32_t],[unsigned short],[int32 type]) AC_MSG_RESULT([unsigned short]) fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 32 #matio sizeof(int) not 32 bits #endif ], [unsigned int i = 0;], ac_have_mat_uint32_t=yes,ac_have_mat_uint32_t=no) if test "x$ac_have_mat_uint32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_uint32_t],[unsigned int],[int32 type]) AC_MSG_RESULT([unsigned int]) fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 32 #matio sizeof(long) not 32 bits #endif ], [unsigned long i = 0;], ac_have_mat_uint32_t=yes,ac_have_mat_uint32_t=no) if test "x$ac_have_mat_uint32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_uint32_t],[unsigned long],[int32type ]) AC_MSG_RESULT([unsigned long]) fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 32 #matio sizeof(long long) not 32 bits #endif ], [unsigned long long i = 0;], ac_have_mat_uint32_t=yes,ac_have_mat_uint32_t=no) if test "x$ac_have_mat_uint32_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT32_T],[],[Have MAT int32]) AC_DEFINE_UNQUOTED([_mat_uint32_t],[unsigned long long],[int32 type]) AC_MSG_RESULT([unsigned long long]) fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then AC_MSG_RESULT([]) fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_uint64_t.m4000066400000000000000000000141001206363665300234100ustar00rootroot00000000000000dnl Copyright (C) 2005-2006 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([CHECK_MATIO_UINT64_T], [ AC_MSG_CHECKING([for mat_uint64_t]) AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif ], [uint64_t i = 0;], ac_have_mat_uint64_t=yes,ac_have_mat_uint64_t=no) if test "x$ac_have_mat_uint64_t" = "xyes" then ac_have_mat_uint64_t=yes AC_DEFINE_UNQUOTED([HAVE_MAT_UINT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_uint64_t],[uint64_t],[int64 type]) AC_MSG_RESULT([uint64_t]) fi if test "x$ac_have_mat_uint64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 64 #matio sizeof(signed char) not 64 bits #endif ], [unsigned char i = 0;], ac_have_mat_uint64_t=yes,ac_have_mat_uint64_t=no) if test "x$ac_have_mat_uint64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_uint64_t],[unsigned char],[int64 type]) AC_MSG_RESULT([unsigned char]) fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 64 #matio sizeof(short) not 64 bits #endif ], [unsigned short i = 0;], ac_have_mat_uint64_t=yes,ac_have_mat_uint64_t=no) if test "x$ac_have_mat_uint64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_uint64_t],[unsigned short],[int64 type]) AC_MSG_RESULT([unsigned short]) fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 64 #matio sizeof(int) not 64 bits #endif ], [unsigned int i = 0;], ac_have_mat_uint64_t=yes,ac_have_mat_uint64_t=no) if test "x$ac_have_mat_uint64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_uint64_t],[unsigned int],[int64 type]) AC_MSG_RESULT([unsigned int]) fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 64 #matio sizeof(long) not 64 bits #endif ], [unsigned long i = 0;], ac_have_mat_uint64_t=yes,ac_have_mat_uint64_t=no) if test "x$ac_have_mat_uint64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_uint64_t],[unsigned long],[int64 type]) AC_MSG_RESULT([unsigned long]) fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 64 #matio sizeof(long long) not 64 bits #endif ], [unsigned long long i = 0;], ac_have_mat_uint64_t=yes,ac_have_mat_uint64_t=no) if test "x$ac_have_mat_uint64_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT64_T],[],[Have MAT int64]) AC_DEFINE_UNQUOTED([_mat_uint64_t],[unsigned long long],[int64 type]) AC_MSG_RESULT([unsigned long long]) fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then AC_MSG_RESULT([]) fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_uint8_t.m4000066400000000000000000000137771206363665300233510ustar00rootroot00000000000000dnl Copyright (C) 2005-2006 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_DEFUN([CHECK_MATIO_UINT8_T], [ AC_MSG_CHECKING([for mat_uint8_t]) AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif ], [uint8_t i = 0;], ac_have_mat_uint8_t=yes,ac_have_mat_uint8_t=no) if test "x$ac_have_mat_uint8_t" = "xyes" then ac_have_mat_uint8_t=yes AC_DEFINE_UNQUOTED([HAVE_MAT_UINT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_uint8_t],[uint8_t],[int8 type]) AC_MSG_RESULT([uint8_t]) fi if test "x$ac_have_mat_uint8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 8 #matio sizeof(signed char) not 8 bits #endif ], [unsigned char i = 0;], ac_have_mat_uint8_t=yes,ac_have_mat_uint8_t=no) if test "x$ac_have_mat_uint8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_uint8_t],[unsigned char],[int8 type]) AC_MSG_RESULT([unsigned char]) fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 8 #matio sizeof(short) not 8 bits #endif ], [unsigned short i = 0;], ac_have_mat_uint8_t=yes,ac_have_mat_uint8_t=no) if test "x$ac_have_mat_uint8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_uint8_t],[unsigned short],[int8 type]) AC_MSG_RESULT([unsigned short]) fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 8 #matio sizeof(int) not 8 bits #endif ], [unsigned int i = 0;], ac_have_mat_uint8_t=yes,ac_have_mat_uint8_t=no) if test "x$ac_have_mat_uint8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_uint8_t],[unsigned int],[int8 type]) AC_MSG_RESULT([unsigned int]) fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 8 #matio sizeof(long) not 8 bits #endif ], [unsigned long i = 0;], ac_have_mat_uint8_t=yes,ac_have_mat_uint8_t=no) if test "x$ac_have_mat_uint8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_uint8_t],[unsigned long],[int8 type]) AC_MSG_RESULT([unsigned long]) fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then AC_TRY_LINK( [ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 8 #matio sizeof(long long) not 8 bits #endif ], [unsigned long long i = 0;], ac_have_mat_uint8_t=yes,ac_have_mat_uint8_t=no) if test "x$ac_have_mat_uint8_t" = "xyes" then AC_DEFINE_UNQUOTED([HAVE_MAT_UINT8_T],[],[Have MAT int8]) AC_DEFINE_UNQUOTED([_mat_uint8_t],[unsigned long long][int8 type]) AC_MSG_RESULT([unsigned long long]) fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then AC_MSG_RESULT([]) fi ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/matio_zlib.m4000066400000000000000000000030531206363665300227010ustar00rootroot00000000000000AC_DEFUN([MATIO_CHECK_ZLIB], [ AC_ARG_WITH(zlib,AS_HELP_STRING([--with-zlib=DIR], [Prefix where zlib Library is installed])) if test "x$with_zlib" != "xno" then saved_LIBS="$LIBS" saved_CFLAGS="$CFLAGS" AC_MSG_CHECKING([for zlib Library]) if test "x$with_zlib" = "x" -o "x$with_zlib" = "xyes" then # Try system zlib ZLIB_LDOPTS="-lz" ZLIB_CFLAGS="" else ZLIB_LDOPTS="-L$with_zlib/$acl_libdirstem -lz" ZLIB_CFLAGS="-I$with_zlib/include" fi LIBS="$saved_LIBS $ZLIB_LDOPTS" CFLAGS="$saved_CFLAGS $ZLIB_CFLAGS" Z_PREFIX=0 AC_TRY_LINK( [ #include #include ], [inflateCopy(NULL,NULL);], ac_have_zlib=yes, ac_have_zlib=no) if test "$ac_have_zlib" = "no" then # Try again with Z_PREFIX AC_TRY_LINK( [ #include #define Z_PREFIX #include ],[inflateCopy(NULL,NULL);],ac_have_zlib=yes,ac_have_zlib=no) Z_PREFIX=1 fi LIBS="$saved_LIBS" CFLAGS="$saved_CFLAGS" if test "$ac_have_zlib" = "yes" then ZLIB_LIBS="$ZLIB_LDOPTS" AC_DEFINE_UNQUOTED([HAVE_ZLIB],[1],[Have zlib]) AC_SUBST(ZLIB_LIBS) AC_SUBST(ZLIB_CFLAGS) if test "$Z_PREFIX" = "1" then AC_DEFINE_UNQUOTED([Z_PREFIX],[1],[Z prefix]) fi AC_MSG_RESULT([$ZLIB_LIBS]) else AC_MSG_NOTICE($ac_have_zlib) fi else ac_have_zlib=no fi AM_CONDITIONAL(HAVE_ZLIB, test "$ac_have_zlib" = "yes" ) ]) PDL-IO-Matlab-release-0.005/matio-1.5.0/config/missing000077500000000000000000000245331206363665300217130ustar00rootroot00000000000000#! /bin/sh # Common stub for a few missing GNU programs while installing. scriptversion=2004-09-07.08 # Copyright (C) 1996, 1997, 1999, 2000, 2002, 2003, 2004 # Free Software Foundation, Inc. # Originally by Fran,cois Pinard , 1996. # 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, 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. # 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. if test $# -eq 0; then echo 1>&2 "Try \`$0 --help' for more information" exit 1 fi run=: # In the cases where this matters, `missing' is being run in the # srcdir already. if test -f configure.ac; then configure_ac=configure.ac else configure_ac=configure.in fi msg="missing on your system" case "$1" in --run) # Try to run requested program, and just exit if it succeeds. run= shift "$@" && exit 0 # Exit code 63 means version mismatch. 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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 $lt_cv_sys_max_cmd_len \* 3` ;; interix*) # We know the value 262144 and hardcode it with a safety zone (like BSD) lt_cv_sys_max_cmd_len=196608 ;; os2*) # The test takes a long time on OS/2. lt_cv_sys_max_cmd_len=8192 ;; osf*) # Dr. Hans Ekkehard Plesser reports seeing a kernel panic running configure # due to this test when exec_disable_arg_limit is 1 on Tru64. It is not # nice to cause kernel panics so lets avoid the loop below. # First set a reasonable default. lt_cv_sys_max_cmd_len=16384 # if test -x /sbin/sysconfig; then case `/sbin/sysconfig -q proc exec_disable_arg_limit` in *1*) lt_cv_sys_max_cmd_len=-1 ;; esac fi ;; sco3.2v5*) lt_cv_sys_max_cmd_len=102400 ;; sysv5* | sco5v6* | sysv4.2uw2*) kargmax=`grep ARG_MAX /etc/conf/cf.d/stune 2>/dev/null` if test -n "$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-${CONFIG_SHELL-/bin/sh}} # If test is not a shell built-in, we'll probably end up computing a # maximum length that is only half of the actual maximum length, but # we can't tell. while { test "X"`env echo "$teststring$teststring" 2>/dev/null` \ = "X$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:${as_lineno-$LINENO}: result: $lt_cv_sys_max_cmd_len" >&5 $as_echo "$lt_cv_sys_max_cmd_len" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$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#??}"${_lt_dummy%"$_lt_dummy"}, \ = c,a/b,b/c, \ && eval 'test $(( 1 + 1 )) -eq 2 \ && test "${#_lt_dummy}" -eq 5' ) >/dev/null 2>&1 \ && xsi_shell=yes { $as_echo "$as_me:${as_lineno-$LINENO}: result: $xsi_shell" >&5 $as_echo "$xsi_shell" >&6; } { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$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:${as_lineno-$LINENO}: checking how to convert $build file names to $host format" >&5 $as_echo_n "checking how to convert $build file names to $host format... " >&6; } if ${lt_cv_to_host_file_cmd+:} false; then : $as_echo_n "(cached) " >&6 else case $host in *-*-mingw* ) case $build in *-*-mingw* ) # actually msys lt_cv_to_host_file_cmd=func_convert_file_msys_to_w32 ;; *-*-cygwin* ) lt_cv_to_host_file_cmd=func_convert_file_cygwin_to_w32 ;; * ) # otherwise, assume *nix lt_cv_to_host_file_cmd=func_convert_file_nix_to_w32 ;; esac ;; *-*-cygwin* ) case $build in *-*-mingw* ) # actually msys lt_cv_to_host_file_cmd=func_convert_file_msys_to_cygwin ;; *-*-cygwin* ) lt_cv_to_host_file_cmd=func_convert_file_noop ;; * ) # otherwise, assume *nix lt_cv_to_host_file_cmd=func_convert_file_nix_to_cygwin ;; esac ;; * ) # unhandled hosts (and "normal" native builds) lt_cv_to_host_file_cmd=func_convert_file_noop ;; esac fi to_host_file_cmd=$lt_cv_to_host_file_cmd { $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_to_host_file_cmd" >&5 $as_echo "$lt_cv_to_host_file_cmd" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: checking how to convert $build file names to toolchain format" >&5 $as_echo_n "checking how to convert $build file names to toolchain format... " >&6; } if ${lt_cv_to_tool_file_cmd+:} false; then : $as_echo_n "(cached) " >&6 else #assume ordinary cross tools, or native build. lt_cv_to_tool_file_cmd=func_convert_file_noop case $host in *-*-mingw* ) case $build in *-*-mingw* ) # actually msys lt_cv_to_tool_file_cmd=func_convert_file_msys_to_w32 ;; esac ;; esac fi to_tool_file_cmd=$lt_cv_to_tool_file_cmd { $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_to_tool_file_cmd" >&5 $as_echo "$lt_cv_to_tool_file_cmd" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $LD option to reload object files" >&5 $as_echo_n "checking for $LD option to reload object files... " >&6; } if ${lt_cv_ld_reload_flag+:} false; then : $as_echo_n "(cached) " >&6 else lt_cv_ld_reload_flag='-r' fi { $as_echo "$as_me:${as_lineno-$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 $host_os in cygwin* | mingw* | pw32* | cegcc*) if test "$GCC" != yes; then reload_cmds=false fi ;; 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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_OBJDUMP+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $OBJDUMP" >&5 $as_echo "$OBJDUMP" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_OBJDUMP+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $ac_ct_OBJDUMP" >&5 $as_echo "$ac_ct_OBJDUMP" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$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:${as_lineno-$LINENO}: checking how to recognize dependent libraries" >&5 $as_echo_n "checking how to recognize dependent libraries... " >&6; } if ${lt_cv_deplibs_check_method+:} false; 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 $host_os in aix[4-9]*) lt_cv_deplibs_check_method=pass_all ;; beos*) lt_cv_deplibs_check_method=pass_all ;; bsdi[45]*) lt_cv_deplibs_check_method='file_magic ELF [0-9][0-9]*-bit [ML]SB (shared object|dynamic lib)' lt_cv_file_magic_cmd='/usr/bin/file -L' lt_cv_file_magic_test_file=/shlib/libc.so ;; cygwin*) # func_win32_libid is a shell function defined in ltmain.sh lt_cv_deplibs_check_method='file_magic ^x86 archive import|^x86 DLL' lt_cv_file_magic_cmd='func_win32_libid' ;; mingw* | pw32*) # Base MSYS/MinGW do not provide the 'file' command needed by # func_win32_libid shell function, so use a weaker test based on 'objdump', # unless we find 'file', for example because we are cross-compiling. # func_win32_libid assumes BSD nm, so disallow it if using MS dumpbin. if ( test "$lt_cv_nm_interface" = "BSD nm" && 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 # Keep this pattern in sync with the one in func_win32_libid. lt_cv_deplibs_check_method='file_magic file format (pei*-i386(.*architecture: i386)?|pe-arm-wince|pe-x86-64)' 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 ;; haiku*) lt_cv_deplibs_check_method=pass_all ;; hpux10.20* | hpux11*) lt_cv_file_magic_cmd=/usr/bin/file case $host_cpu in ia64*) lt_cv_deplibs_check_method='file_magic (s[0-9][0-9][0-9]|ELF-[0-9][0-9]) shared object file - IA64' lt_cv_file_magic_test_file=/usr/lib/hpux32/libc.so ;; hppa*64*) lt_cv_deplibs_check_method='file_magic (s[0-9][0-9][0-9]|ELF[ -][0-9][0-9])(-bit)?( [LM]SB)? shared object( file)?[, -]* PA-RISC [0-9]\.[0-9]' lt_cv_file_magic_test_file=/usr/lib/pa20_64/libc.sl ;; *) lt_cv_deplibs_check_method='file_magic (s[0-9][0-9][0-9]|PA-RISC[0-9]\.[0-9]) shared library' lt_cv_file_magic_test_file=/usr/lib/libc.sl ;; esac ;; interix[3-9]*) # PIC code is broken on Interix 3.x, that's why |\.a not |_pic\.a here lt_cv_deplibs_check_method='match_pattern /lib[^/]+(\.so|\.a)$' ;; 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 glibc/ELF. linux* | k*bsd*-gnu | kopensolaris*-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:${as_lineno-$LINENO}: result: $lt_cv_deplibs_check_method" >&5 $as_echo "$lt_cv_deplibs_check_method" >&6; } file_magic_glob= want_nocaseglob=no if test "$build" = "$host"; then case $host_os in mingw* | pw32*) if ( shopt | grep nocaseglob ) >/dev/null 2>&1; then want_nocaseglob=yes else file_magic_glob=`echo aAbBcCdDeEfFgGhHiIjJkKlLmMnNoOpPqQrRsStTuUvVwWxXyYzZ | $SED -e "s/\(..\)/s\/[\1]\/[\1]\/g;/g"` fi ;; esac fi 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}dlltool", so it can be a program name with args. set dummy ${ac_tool_prefix}dlltool; ac_word=$2 { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_DLLTOOL+:} false; then : $as_echo_n "(cached) " >&6 else if test -n "$DLLTOOL"; then ac_cv_prog_DLLTOOL="$DLLTOOL" # Let the user override the test. else as_save_IFS=$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_DLLTOOL="${ac_tool_prefix}dlltool" $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi DLLTOOL=$ac_cv_prog_DLLTOOL if test -n "$DLLTOOL"; then { $as_echo "$as_me:${as_lineno-$LINENO}: result: $DLLTOOL" >&5 $as_echo "$DLLTOOL" >&6; } else { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_DLLTOOL"; then ac_ct_DLLTOOL=$DLLTOOL # Extract the first word of "dlltool", so it can be a program name with args. set dummy dlltool; ac_word=$2 { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_DLLTOOL+:} false; then : $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_DLLTOOL"; then ac_cv_prog_ac_ct_DLLTOOL="$ac_ct_DLLTOOL" # Let the user override the test. else as_save_IFS=$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_DLLTOOL="dlltool" $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_DLLTOOL=$ac_cv_prog_ac_ct_DLLTOOL if test -n "$ac_ct_DLLTOOL"; then { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_DLLTOOL" >&5 $as_echo "$ac_ct_DLLTOOL" >&6; } else { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_DLLTOOL" = x; then DLLTOOL="false" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:${as_lineno-$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 DLLTOOL=$ac_ct_DLLTOOL fi else DLLTOOL="$ac_cv_prog_DLLTOOL" fi test -z "$DLLTOOL" && DLLTOOL=dlltool { $as_echo "$as_me:${as_lineno-$LINENO}: checking how to associate runtime and link libraries" >&5 $as_echo_n "checking how to associate runtime and link libraries... " >&6; } if ${lt_cv_sharedlib_from_linklib_cmd+:} false; then : $as_echo_n "(cached) " >&6 else lt_cv_sharedlib_from_linklib_cmd='unknown' case $host_os in cygwin* | mingw* | pw32* | cegcc*) # two different shell functions defined in ltmain.sh # decide which to use based on capabilities of $DLLTOOL case `$DLLTOOL --help 2>&1` in *--identify-strict*) lt_cv_sharedlib_from_linklib_cmd=func_cygming_dll_for_implib ;; *) lt_cv_sharedlib_from_linklib_cmd=func_cygming_dll_for_implib_fallback ;; esac ;; *) # fallback: assume linklib IS sharedlib lt_cv_sharedlib_from_linklib_cmd="$ECHO" ;; esac fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_sharedlib_from_linklib_cmd" >&5 $as_echo "$lt_cv_sharedlib_from_linklib_cmd" >&6; } sharedlib_from_linklib_cmd=$lt_cv_sharedlib_from_linklib_cmd test -z "$sharedlib_from_linklib_cmd" && sharedlib_from_linklib_cmd=$ECHO if test -n "$ac_tool_prefix"; then for ac_prog in ar do # Extract the first word of "$ac_tool_prefix$ac_prog", so it can be a program name with args. set dummy $ac_tool_prefix$ac_prog; ac_word=$2 { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_AR+:} false; 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="$ac_tool_prefix$ac_prog" $as_echo "$as_me:${as_lineno-$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:${as_lineno-$LINENO}: result: $AR" >&5 $as_echo "$AR" >&6; } else { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5 $as_echo "no" >&6; } fi test -n "$AR" && break done fi if test -z "$AR"; then ac_ct_AR=$AR for ac_prog in ar do # Extract the first word of "$ac_prog", so it can be a program name with args. set dummy $ac_prog; ac_word=$2 { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_AR+:} false; 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="$ac_prog" $as_echo "$as_me:${as_lineno-$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:${as_lineno-$LINENO}: result: $ac_ct_AR" >&5 $as_echo "$ac_ct_AR" >&6; } else { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5 $as_echo "no" >&6; } fi test -n "$ac_ct_AR" && break done if test "x$ac_ct_AR" = x; then AR="false" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:${as_lineno-$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 fi : ${AR=ar} : ${AR_FLAGS=cru} { $as_echo "$as_me:${as_lineno-$LINENO}: checking for archiver @FILE support" >&5 $as_echo_n "checking for archiver @FILE support... " >&6; } if ${lt_cv_ar_at_file+:} false; then : $as_echo_n "(cached) " >&6 else lt_cv_ar_at_file=no cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ int main () { ; return 0; } _ACEOF if ac_fn_c_try_compile "$LINENO"; then : echo conftest.$ac_objext > conftest.lst lt_ar_try='$AR $AR_FLAGS libconftest.a @conftest.lst >&5' { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$lt_ar_try\""; } >&5 (eval $lt_ar_try) 2>&5 ac_status=$? $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5 test $ac_status = 0; } if test "$ac_status" -eq 0; then # Ensure the archiver fails upon bogus file names. rm -f conftest.$ac_objext libconftest.a { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$lt_ar_try\""; } >&5 (eval $lt_ar_try) 2>&5 ac_status=$? $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5 test $ac_status = 0; } if test "$ac_status" -ne 0; then lt_cv_ar_at_file=@ fi fi rm -f conftest.* libconftest.a fi rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_ar_at_file" >&5 $as_echo "$lt_cv_ar_at_file" >&6; } if test "x$lt_cv_ar_at_file" = xno; then archiver_list_spec= else archiver_list_spec=$lt_cv_ar_at_file fi 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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_STRIP+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $STRIP" >&5 $as_echo "$STRIP" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_STRIP+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $ac_ct_STRIP" >&5 $as_echo "$ac_ct_STRIP" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_RANLIB+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $RANLIB" >&5 $as_echo "$RANLIB" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_RANLIB+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $ac_ct_RANLIB" >&5 $as_echo "$ac_ct_RANLIB" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$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 \$tool_oldlib" ;; *) old_postinstall_cmds="$old_postinstall_cmds~\$RANLIB \$tool_oldlib" ;; esac old_archive_cmds="$old_archive_cmds~\$RANLIB \$tool_oldlib" fi case $host_os in darwin*) lock_old_archive_extraction=yes ;; *) lock_old_archive_extraction=no ;; esac # If no C compiler was specified, use CC. LTCC=${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:${as_lineno-$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 ${lt_cv_sys_global_symbol_pipe+:} false; 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};"\ " /^COFF SYMBOL TABLE/{for(i in hide) delete hide[i]};"\ " /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$opt_cr$/$symxfrm/p'" fi lt_cv_sys_global_symbol_pipe="$lt_cv_sys_global_symbol_pipe | sed '/ __gnu_lto/d'" # Check to see that the pipe works correctly. pipe_works=no rm -f conftest* cat > conftest.$ac_ext <<_LT_EOF #ifdef __cplusplus extern "C" { #endif char nm_test_var; void nm_test_func(void); void nm_test_func(void){} #ifdef __cplusplus } #endif int main(){nm_test_var='a';nm_test_func();return(0);} _LT_EOF if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$ac_compile\""; } >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5 test $ac_status = 0; }; then # Now try to grab the symbols. nlist=conftest.nm if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$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:${as_lineno-$LINENO}: \$? = $ac_status" >&5 test $ac_status = 0; } && test -s "$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 /* Keep this code in sync between libtool.m4, ltmain, lt_system.h, and tests. */ #if defined(_WIN32) || defined(__CYGWIN__) || defined(_WIN32_WCE) /* DATA imports from DLLs on WIN32 con't be const, because runtime relocations are performed -- see ld's documentation on pseudo-relocs. */ # define LT_DLSYM_CONST #elif defined(__osf__) /* This system does not cope well with relocations in const data. */ # define LT_DLSYM_CONST #else # define LT_DLSYM_CONST const #endif #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. */ LT_DLSYM_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.$ac_objext lt_globsym_save_LIBS=$LIBS lt_globsym_save_CFLAGS=$CFLAGS LIBS="conftstm.$ac_objext" CFLAGS="$CFLAGS$lt_prog_compiler_no_builtin_flag" if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$ac_link\""; } >&5 (eval $ac_link) 2>&5 ac_status=$? $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5 test $ac_status = 0; } && test -s conftest${ac_exeext}; then pipe_works=yes fi LIBS=$lt_globsym_save_LIBS CFLAGS=$lt_globsym_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:${as_lineno-$LINENO}: result: failed" >&5 $as_echo "failed" >&6; } else { $as_echo "$as_me:${as_lineno-$LINENO}: result: ok" >&5 $as_echo "ok" >&6; } fi # Response file support. if test "$lt_cv_nm_interface" = "MS dumpbin"; then nm_file_list_spec='@' elif $NM --help 2>/dev/null | grep '[@]FILE' >/dev/null; then nm_file_list_spec='@' fi { $as_echo "$as_me:${as_lineno-$LINENO}: checking for sysroot" >&5 $as_echo_n "checking for sysroot... " >&6; } # Check whether --with-sysroot was given. if test "${with_sysroot+set}" = set; then : withval=$with_sysroot; else with_sysroot=no fi lt_sysroot= case ${with_sysroot} in #( yes) if test "$GCC" = yes; then lt_sysroot=`$CC --print-sysroot 2>/dev/null` fi ;; #( /*) lt_sysroot=`echo "$with_sysroot" | sed -e "$sed_quote_subst"` ;; #( no|'') ;; #( *) { $as_echo "$as_me:${as_lineno-$LINENO}: result: ${with_sysroot}" >&5 $as_echo "${with_sysroot}" >&6; } as_fn_error $? "The sysroot must be an absolute path." "$LINENO" 5 ;; esac { $as_echo "$as_me:${as_lineno-$LINENO}: result: ${lt_sysroot:-no}" >&5 $as_echo "${lt_sysroot:-no}" >&6; } # 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\":${as_lineno-$LINENO}: \"$ac_compile\""; } >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5 test $ac_status = 0; }; then case `/usr/bin/file conftest.$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 '$LINENO' "configure"' > conftest.$ac_ext if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$ac_compile\""; } >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5 test $ac_status = 0; }; then if test "$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.$ac_ext if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$ac_compile\""; } >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5 test $ac_status = 0; }; 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:${as_lineno-$LINENO}: checking whether the C compiler needs -belf" >&5 $as_echo_n "checking whether the C compiler needs -belf... " >&6; } if ${lt_cv_cc_needs_belf+:} false; 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 confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ int main () { ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : lt_cv_cc_needs_belf=yes else lt_cv_cc_needs_belf=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$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:${as_lineno-$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 ;; *-*solaris*) # Find out which ABI we are using. echo 'int i;' > conftest.$ac_ext if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$ac_compile\""; } >&5 (eval $ac_compile) 2>&5 ac_status=$? $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5 test $ac_status = 0; }; then case `/usr/bin/file conftest.o` in *64-bit*) case $lt_cv_prog_gnu_ld in yes*) case $host in i?86-*-solaris*) LD="${LD-ld} -m elf_x86_64" ;; sparc*-*-solaris*) LD="${LD-ld} -m elf64_sparc" ;; esac # GNU ld 2.21 introduced _sol2 emulations. Use them if available. if ${LD-ld} -V | grep _sol2 >/dev/null 2>&1; then LD="${LD-ld}_sol2" fi ;; *) 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="$enable_libtool_lock" if test -n "$ac_tool_prefix"; then # Extract the first word of "${ac_tool_prefix}mt", so it can be a program name with args. set dummy ${ac_tool_prefix}mt; ac_word=$2 { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_MANIFEST_TOOL+:} false; then : $as_echo_n "(cached) " >&6 else if test -n "$MANIFEST_TOOL"; then ac_cv_prog_MANIFEST_TOOL="$MANIFEST_TOOL" # Let the user override the test. else as_save_IFS=$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_MANIFEST_TOOL="${ac_tool_prefix}mt" $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi MANIFEST_TOOL=$ac_cv_prog_MANIFEST_TOOL if test -n "$MANIFEST_TOOL"; then { $as_echo "$as_me:${as_lineno-$LINENO}: result: $MANIFEST_TOOL" >&5 $as_echo "$MANIFEST_TOOL" >&6; } else { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5 $as_echo "no" >&6; } fi fi if test -z "$ac_cv_prog_MANIFEST_TOOL"; then ac_ct_MANIFEST_TOOL=$MANIFEST_TOOL # Extract the first word of "mt", so it can be a program name with args. set dummy mt; ac_word=$2 { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_MANIFEST_TOOL+:} false; then : $as_echo_n "(cached) " >&6 else if test -n "$ac_ct_MANIFEST_TOOL"; then ac_cv_prog_ac_ct_MANIFEST_TOOL="$ac_ct_MANIFEST_TOOL" # Let the user override the test. else as_save_IFS=$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_MANIFEST_TOOL="mt" $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5 break 2 fi done done IFS=$as_save_IFS fi fi ac_ct_MANIFEST_TOOL=$ac_cv_prog_ac_ct_MANIFEST_TOOL if test -n "$ac_ct_MANIFEST_TOOL"; then { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_MANIFEST_TOOL" >&5 $as_echo "$ac_ct_MANIFEST_TOOL" >&6; } else { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5 $as_echo "no" >&6; } fi if test "x$ac_ct_MANIFEST_TOOL" = x; then MANIFEST_TOOL=":" else case $cross_compiling:$ac_tool_warned in yes:) { $as_echo "$as_me:${as_lineno-$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 MANIFEST_TOOL=$ac_ct_MANIFEST_TOOL fi else MANIFEST_TOOL="$ac_cv_prog_MANIFEST_TOOL" fi test -z "$MANIFEST_TOOL" && MANIFEST_TOOL=mt { $as_echo "$as_me:${as_lineno-$LINENO}: checking if $MANIFEST_TOOL is a manifest tool" >&5 $as_echo_n "checking if $MANIFEST_TOOL is a manifest tool... " >&6; } if ${lt_cv_path_mainfest_tool+:} false; then : $as_echo_n "(cached) " >&6 else lt_cv_path_mainfest_tool=no echo "$as_me:$LINENO: $MANIFEST_TOOL '-?'" >&5 $MANIFEST_TOOL '-?' 2>conftest.err > conftest.out cat conftest.err >&5 if $GREP 'Manifest Tool' conftest.out > /dev/null; then lt_cv_path_mainfest_tool=yes fi rm -f conftest* fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_path_mainfest_tool" >&5 $as_echo "$lt_cv_path_mainfest_tool" >&6; } if test "x$lt_cv_path_mainfest_tool" != xyes; then MANIFEST_TOOL=: fi 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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_DSYMUTIL+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $DSYMUTIL" >&5 $as_echo "$DSYMUTIL" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_DSYMUTIL+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $ac_ct_DSYMUTIL" >&5 $as_echo "$ac_ct_DSYMUTIL" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_NMEDIT+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $NMEDIT" >&5 $as_echo "$NMEDIT" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_NMEDIT+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $ac_ct_NMEDIT" >&5 $as_echo "$ac_ct_NMEDIT" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_LIPO+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $LIPO" >&5 $as_echo "$LIPO" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_LIPO+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $ac_ct_LIPO" >&5 $as_echo "$ac_ct_LIPO" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_OTOOL+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $OTOOL" >&5 $as_echo "$OTOOL" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... " >&6; } if ${ac_cv_prog_ac_ct_OTOOL+:} false; 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:${as_lineno-$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:${as_lineno-$LINENO}: result: $ac_ct_OTOOL" >&5 $as_echo "$ac_ct_OTOOL" >&6; } else { $as_echo "$as_me:${as_lineno-$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:${as_lineno-$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:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... 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" >&6; } if ${lt_cv_apple_cc_single_mod+:} false; then : $as_echo_n "(cached) " >&6 else lt_cv_apple_cc_single_mod=no if test -z "${LT_MULTI_MODULE}"; then # By default we will add the -single_module flag. You can override # by either setting the environment variable LT_MULTI_MODULE # non-empty at configure time, or by adding -multi_module to the # link flags. rm -rf libconftest.dylib* echo "int foo(void){return 1;}" > conftest.c echo "$LTCC $LTCFLAGS $LDFLAGS -o libconftest.dylib \ -dynamiclib -Wl,-single_module conftest.c" >&5 $LTCC $LTCFLAGS $LDFLAGS -o libconftest.dylib \ -dynamiclib -Wl,-single_module conftest.c 2>conftest.err _lt_result=$? # If there is a non-empty error log, and "single_module" # appears in it, assume the flag caused a linker warning if test -s conftest.err && $GREP single_module conftest.err; then cat conftest.err >&5 # Otherwise, if the output was created with a 0 exit code from # the compiler, it worked. elif test -f libconftest.dylib && test $_lt_result -eq 0; then lt_cv_apple_cc_single_mod=yes else cat conftest.err >&5 fi rm -rf libconftest.dylib* rm -f conftest.* fi fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_apple_cc_single_mod" >&5 $as_echo "$lt_cv_apple_cc_single_mod" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: checking for -exported_symbols_list linker flag" >&5 $as_echo_n "checking for -exported_symbols_list linker flag... 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" >&6; } if ${lt_cv_ld_force_load+:} false; then : $as_echo_n "(cached) " >&6 else lt_cv_ld_force_load=no cat > conftest.c << _LT_EOF int forced_loaded() { return 2;} _LT_EOF echo "$LTCC $LTCFLAGS -c -o conftest.o conftest.c" >&5 $LTCC $LTCFLAGS -c -o conftest.o conftest.c 2>&5 echo "$AR cru libconftest.a conftest.o" >&5 $AR cru libconftest.a conftest.o 2>&5 echo "$RANLIB libconftest.a" >&5 $RANLIB libconftest.a 2>&5 cat > conftest.c << _LT_EOF int main() { return 0;} _LT_EOF echo "$LTCC $LTCFLAGS $LDFLAGS -o conftest conftest.c -Wl,-force_load,./libconftest.a" >&5 $LTCC $LTCFLAGS $LDFLAGS -o conftest conftest.c -Wl,-force_load,./libconftest.a 2>conftest.err _lt_result=$? if test -s conftest.err && $GREP force_load conftest.err; then cat conftest.err >&5 elif test -f conftest && test $_lt_result -eq 0 && $GREP forced_load conftest >/dev/null 2>&1 ; then lt_cv_ld_force_load=yes else cat conftest.err >&5 fi rm -f conftest.err libconftest.a conftest conftest.c rm -rf conftest.dSYM fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_ld_force_load" >&5 $as_echo "$lt_cv_ld_force_load" >&6; } case $host_os in rhapsody* | darwin1.[012]) _lt_dar_allow_undefined='${wl}-undefined ${wl}suppress' ;; darwin1.*) _lt_dar_allow_undefined='${wl}-flat_namespace ${wl}-undefined ${wl}suppress' ;; darwin*) # darwin 5.x on # if running on 10.5 or later, the deployment target defaults # to the OS version, if on x86, and 10.4, the deployment # target defaults to 10.4. 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Now check whether nonexistent headers # can be detected and how. cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include _ACEOF if ac_fn_c_try_cpp "$LINENO"; then : # Broken: success on invalid input. continue else # Passes both tests. ac_preproc_ok=: break fi rm -f conftest.err conftest.i conftest.$ac_ext done # Because of `break', _AC_PREPROC_IFELSE's cleaning code was skipped. rm -f conftest.i conftest.err conftest.$ac_ext if $ac_preproc_ok; then : break fi done ac_cv_prog_CPP=$CPP fi CPP=$ac_cv_prog_CPP else ac_cv_prog_CPP=$CPP fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CPP" >&5 $as_echo "$CPP" >&6; } ac_preproc_ok=false for ac_c_preproc_warn_flag in '' yes do # Use a header file that comes with gcc, so configuring glibc # with a fresh cross-compiler works. # Prefer to if __STDC__ is defined, since # exists even on freestanding compilers. # On the NeXT, cc -E runs the code through the compiler's parser, # not just through cpp. "Syntax error" is here to catch this case. cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #ifdef __STDC__ # include #else # include #endif Syntax error _ACEOF if ac_fn_c_try_cpp "$LINENO"; then : else # Broken: fails on valid input. continue fi rm -f conftest.err conftest.i conftest.$ac_ext # OK, works on sane cases. Now check whether nonexistent headers # can be detected and how. cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include _ACEOF if ac_fn_c_try_cpp "$LINENO"; then : # Broken: success on invalid input. continue else # Passes both tests. ac_preproc_ok=: break fi rm -f conftest.err conftest.i conftest.$ac_ext done # Because of `break', _AC_PREPROC_IFELSE's cleaning code was skipped. rm -f conftest.i conftest.err conftest.$ac_ext if $ac_preproc_ok; then : else { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5 $as_echo "$as_me: error: in \`$ac_pwd':" >&2;} as_fn_error $? "C preprocessor \"$CPP\" fails sanity check See \`config.log' for more details" "$LINENO" 5; } fi ac_ext=c ac_cpp='$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 { $as_echo "$as_me:${as_lineno-$LINENO}: checking for ANSI C header files" >&5 $as_echo_n "checking for ANSI C header files... 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The following line is correct: shared_flag='-G' else if test "$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. if test "${lt_cv_aix_libpath+set}" = set; then aix_libpath=$lt_cv_aix_libpath else if ${lt_cv_aix_libpath_+:} false; then : $as_echo_n "(cached) " >&6 else cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ int main () { ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : lt_aix_libpath_sed=' /Import File Strings/,/^$/ { /^0/ { s/^0 *\([^ ]*\) *$/\1/ p } }' lt_cv_aix_libpath_=`dump -H conftest$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 "$lt_cv_aix_libpath_"; then lt_cv_aix_libpath_=`dump -HX64 conftest$ac_exeext 2>/dev/null | $SED -n -e "$lt_aix_libpath_sed"` fi fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test -z "$lt_cv_aix_libpath_"; then lt_cv_aix_libpath_="/usr/lib:/lib" fi fi aix_libpath=$lt_cv_aix_libpath_ fi hardcode_libdir_flag_spec='${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 func_echo_all "${wl}${allow_undefined_flag}"; 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}$exp_sym_flag:\$export_symbols" else # Determine the default libpath from the value encoded in an # empty executable. if test "${lt_cv_aix_libpath+set}" = set; then aix_libpath=$lt_cv_aix_libpath else if ${lt_cv_aix_libpath_+:} false; then : $as_echo_n "(cached) " >&6 else cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ int main () { ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : lt_aix_libpath_sed=' /Import File Strings/,/^$/ { /^0/ { s/^0 *\([^ ]*\) *$/\1/ p } }' lt_cv_aix_libpath_=`dump -H conftest$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 "$lt_cv_aix_libpath_"; then lt_cv_aix_libpath_=`dump -HX64 conftest$ac_exeext 2>/dev/null | $SED -n -e "$lt_aix_libpath_sed"` fi fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test -z "$lt_cv_aix_libpath_"; then lt_cv_aix_libpath_="/usr/lib:/lib" fi fi aix_libpath=$lt_cv_aix_libpath_ fi hardcode_libdir_flag_spec='${wl}-blibpath:$libdir:'"$aix_libpath" # Warning - without using the other run time loading flags, # -berok will link without error, but may produce a broken library. no_undefined_flag=' ${wl}-bernotok' allow_undefined_flag=' ${wl}-berok' if test "$with_gnu_ld" = yes; then # We only use this code for GNU lds that support --whole-archive. whole_archive_flag_spec='${wl}--whole-archive$convenience ${wl}--no-whole-archive' else # Exported symbols can be pulled into shared objects from archives whole_archive_flag_spec='$convenience' fi archive_cmds_need_lc=yes # This is similar to how AIX traditionally builds its shared libraries. archive_expsym_cmds="\$CC $shared_flag"' -o $output_objdir/$soname $libobjs $deplibs ${wl}-bnoentry $compiler_flags ${wl}-bE:$export_symbols${allow_undefined_flag}~$AR $AR_FLAGS $output_objdir/$libname$release.a $output_objdir/$soname' fi fi ;; amigaos*) case $host_cpu in powerpc) # see comment about AmigaOS4 .so support archive_cmds='$CC -shared $libobjs $deplibs $compiler_flags ${wl}-soname $wl$soname -o $lib' archive_expsym_cmds='' ;; m68k) archive_cmds='$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 $output_objdir && a2ixlibrary -32)' hardcode_libdir_flag_spec='-L$libdir' hardcode_minus_L=yes ;; esac ;; bsdi[45]*) export_dynamic_flag_spec=-rdynamic ;; cygwin* | mingw* | pw32* | cegcc*) # When not using gcc, we currently assume that we are using # Microsoft Visual C++. # hardcode_libdir_flag_spec is actually meaningless, as there is # no search path for DLLs. case $cc_basename in cl*) # Native MSVC hardcode_libdir_flag_spec=' ' allow_undefined_flag=unsupported always_export_symbols=yes file_list_spec='@' # Tell ltmain to make .lib files, not .a files. libext=lib # Tell ltmain to make .dll files, not .so files. shrext_cmds=".dll" # FIXME: Setting linknames here is a bad hack. archive_cmds='$CC -o $output_objdir/$soname $libobjs $compiler_flags $deplibs -Wl,-dll~linknames=' archive_expsym_cmds='if test "x`$SED 1q $export_symbols`" = xEXPORTS; then sed -n -e 's/\\\\\\\(.*\\\\\\\)/-link\\\ -EXPORT:\\\\\\\1/' -e '1\\\!p' < $export_symbols > $output_objdir/$soname.exp; else sed -e 's/\\\\\\\(.*\\\\\\\)/-link\\\ -EXPORT:\\\\\\\1/' < $export_symbols > $output_objdir/$soname.exp; fi~ $CC -o $tool_output_objdir$soname $libobjs $compiler_flags $deplibs "@$tool_output_objdir$soname.exp" -Wl,-DLL,-IMPLIB:"$tool_output_objdir$libname.dll.lib"~ linknames=' # The linker will not automatically build a static lib if we build a DLL. # _LT_TAGVAR(old_archive_from_new_cmds, )='true' enable_shared_with_static_runtimes=yes exclude_expsyms='_NULL_IMPORT_DESCRIPTOR|_IMPORT_DESCRIPTOR_.*' export_symbols_cmds='$NM $libobjs $convenience | $global_symbol_pipe | $SED -e '\''/^[BCDGRS][ ]/s/.*[ ]\([^ ]*\)/\1,DATA/'\'' | $SED -e '\''/^[AITW][ ]/s/.*[ ]//'\'' | sort | uniq > $export_symbols' # Don't use ranlib old_postinstall_cmds='chmod 644 $oldlib' postlink_cmds='lt_outputfile="@OUTPUT@"~ lt_tool_outputfile="@TOOL_OUTPUT@"~ case $lt_outputfile in *.exe|*.EXE) ;; *) lt_outputfile="$lt_outputfile.exe" lt_tool_outputfile="$lt_tool_outputfile.exe" ;; esac~ if test "$MANIFEST_TOOL" != ":" && test -f "$lt_outputfile.manifest"; then $MANIFEST_TOOL -manifest "$lt_tool_outputfile.manifest" -outputresource:"$lt_tool_outputfile" || exit 1; $RM "$lt_outputfile.manifest"; fi' ;; *) # Assume MSVC wrapper hardcode_libdir_flag_spec=' ' allow_undefined_flag=unsupported # Tell ltmain to make .lib files, not .a files. libext=lib # Tell ltmain to make .dll files, not .so files. shrext_cmds=".dll" # FIXME: Setting linknames here is a bad hack. archive_cmds='$CC -o $lib $libobjs $compiler_flags `func_echo_all "$deplibs" | $SED '\''s/ -lc$//'\''` -link -dll~linknames=' # The linker will automatically build a .lib file if we build a DLL. old_archive_from_new_cmds='true' # FIXME: Should let the user specify the lib program. old_archive_cmds='lib -OUT:$oldlib$oldobjs$old_deplibs' enable_shared_with_static_runtimes=yes ;; esac ;; darwin* | rhapsody*) archive_cmds_need_lc=no hardcode_direct=no hardcode_automatic=yes hardcode_shlibpath_var=unsupported if test "$lt_cv_ld_force_load" = "yes"; then whole_archive_flag_spec='`for conv in $convenience\"\"; do test -n \"$conv\" && new_convenience=\"$new_convenience ${wl}-force_load,$conv\"; done; func_echo_all \"$new_convenience\"`' else whole_archive_flag_spec='' fi link_all_deplibs=yes allow_undefined_flag="$_lt_dar_allow_undefined" case $cc_basename in ifort*) _lt_dar_can_shared=yes ;; *) _lt_dar_can_shared=$GCC ;; esac if test "$_lt_dar_can_shared" = "yes"; then output_verbose_link_cmd=func_echo_all archive_cmds="\$CC -dynamiclib \$allow_undefined_flag -o \$lib \$libobjs \$deplibs \$compiler_flags -install_name \$rpath/\$soname \$verstring $_lt_dar_single_mod${_lt_dsymutil}" module_cmds="\$CC \$allow_undefined_flag -o \$lib -bundle \$libobjs \$deplibs \$compiler_flags${_lt_dsymutil}" archive_expsym_cmds="sed 's,^,_,' < \$export_symbols > \$output_objdir/\${libname}-symbols.expsym~\$CC -dynamiclib \$allow_undefined_flag -o \$lib \$libobjs \$deplibs \$compiler_flags -install_name \$rpath/\$soname \$verstring ${_lt_dar_single_mod}${_lt_dar_export_syms}${_lt_dsymutil}" module_expsym_cmds="sed -e 's,^,_,' < \$export_symbols > \$output_objdir/\${libname}-symbols.expsym~\$CC \$allow_undefined_flag -o \$lib -bundle \$libobjs \$deplibs \$compiler_flags${_lt_dar_export_syms}${_lt_dsymutil}" else ld_shlibs=no fi ;; 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*) archive_cmds='$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 "$verstring" && func_echo_all "${wl}-set_version ${wl}$verstring"` ${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" && func_echo_all "-set_version $verstring"` -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=: ;; osf4* | osf5*) # as osf3* with the addition of -msym flag if test "$GCC" = yes; then allow_undefined_flag=' ${wl}-expect_unresolved ${wl}\*' archive_cmds='$CC -shared${allow_undefined_flag} $pic_flag $libobjs $deplibs $compiler_flags ${wl}-msym ${wl}-soname ${wl}$soname `test -n "$verstring" && func_echo_all "${wl}-set_version ${wl}$verstring"` ${wl}-update_registry ${wl}${output_objdir}/so_locations -o $lib' hardcode_libdir_flag_spec='${wl}-rpath ${wl}$libdir' else allow_undefined_flag=' -expect_unresolved \*' archive_cmds='$CC -shared${allow_undefined_flag} $libobjs $deplibs $compiler_flags -msym -soname $soname `test -n "$verstring" && func_echo_all "-set_version $verstring"` -update_registry ${output_objdir}/so_locations -o $lib' archive_expsym_cmds='for i in `cat $export_symbols`; do printf "%s %s\\n" -exported_symbol "\$i" >> $lib.exp; done; printf "%s\\n" "-hidden">> $lib.exp~ $CC -shared${allow_undefined_flag} ${wl}-input ${wl}$lib.exp $compiler_flags $libobjs $deplibs -soname $soname `test -n "$verstring" && $ECHO "-set_version $verstring"` -update_registry ${output_objdir}/so_locations -o $lib~$RM $lib.exp' # Both c and cxx compiler support -rpath directly hardcode_libdir_flag_spec='-rpath $libdir' fi archive_cmds_need_lc='no' hardcode_libdir_separator=: ;; solaris*) no_undefined_flag=' -z defs' if test "$GCC" = yes; then wlarc='${wl}' archive_cmds='$CC -shared $pic_flag ${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 $pic_flag ${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 $host_os in solaris2.[0-5] | solaris2.[0-5].*) ;; *) # The compiler driver will combine and reorder linker options, # but understands `-z linker_flag'. GCC discards it without `$wl', # but is careful enough not to reorder. # Supported since Solaris 2.6 (maybe 2.5.1?) if test "$GCC" = yes; then whole_archive_flag_spec='${wl}-z ${wl}allextract$convenience ${wl}-z ${wl}defaultextract' else whole_archive_flag_spec='-z allextract$convenience -z defaultextract' fi ;; esac link_all_deplibs=yes ;; sunos4*) if test "x$host_vendor" = xsequent; then # Use $CC to link under sequent, because it throws in some extra .o # files that make .init and .fini sections work. archive_cmds='$CC -G ${wl}-h $soname -o $lib $libobjs $deplibs $compiler_flags' else archive_cmds='$LD -assert pure-text -Bstatic -o $lib $libobjs $deplibs $linker_flags' fi hardcode_libdir_flag_spec='-L$libdir' hardcode_direct=yes hardcode_minus_L=yes hardcode_shlibpath_var=no ;; sysv4) case $host_vendor in sni) archive_cmds='$LD -G -h $soname -o $lib $libobjs $deplibs $linker_flags' hardcode_direct=yes # is this really true??? ;; siemens) ## LD is ld it makes a PLAMLIB ## CC just makes a GrossModule. archive_cmds='$LD -G -o $lib $libobjs $deplibs $linker_flags' reload_cmds='$CC -r -o $output$reload_objs' hardcode_direct=no ;; motorola) archive_cmds='$LD -G -h $soname -o $lib $libobjs $deplibs $linker_flags' hardcode_direct=no #Motorola manual says yes, but my tests say they lie ;; esac runpath_var='LD_RUN_PATH' hardcode_shlibpath_var=no ;; sysv4.3*) archive_cmds='$LD -G -h $soname -o $lib $libobjs $deplibs $linker_flags' hardcode_shlibpath_var=no export_dynamic_flag_spec='-Bexport' ;; sysv4*MP*) if test -d /usr/nec; then archive_cmds='$LD -G -h $soname -o $lib $libobjs $deplibs $linker_flags' hardcode_shlibpath_var=no runpath_var=LD_RUN_PATH hardcode_runpath_var=yes ld_shlibs=yes fi ;; sysv4*uw2* | sysv5OpenUNIX* | sysv5UnixWare7.[01].[10]* | unixware7* | sco3.2v5.0.[024]*) no_undefined_flag='${wl}-z,text' archive_cmds_need_lc=no hardcode_shlibpath_var=no runpath_var='LD_RUN_PATH' if test "$GCC" = yes; then archive_cmds='$CC -shared ${wl}-h,$soname -o $lib $libobjs $deplibs $compiler_flags' archive_expsym_cmds='$CC -shared ${wl}-Bexport:$export_symbols ${wl}-h,$soname -o $lib $libobjs $deplibs $compiler_flags' else archive_cmds='$CC -G ${wl}-h,$soname -o $lib $libobjs $deplibs $compiler_flags' archive_expsym_cmds='$CC -G ${wl}-Bexport:$export_symbols ${wl}-h,$soname -o $lib $libobjs $deplibs $compiler_flags' fi ;; sysv5* | sco3.2v5* | sco5v6*) # Note: We can NOT use -z defs as we might desire, because we do not # link with -lc, and that would cause any symbols used from libc to # always be unresolved, which means just about no library would # ever link correctly. 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The import file would start with # the line `#! .'. This would cause the generated library to # depend on `.', always an invalid library. This was fixed in # development snapshots of GCC prior to 3.0. case $host_os in aix4 | aix4.[01] | aix4.[01].*) if { echo '#if __GNUC__ > 2 || (__GNUC__ == 2 && __GNUC_MINOR__ >= 97)' echo ' yes ' echo '#endif'; } | ${CC} -E - | $GREP yes > /dev/null; then : else can_build_shared=no fi ;; esac # AIX (on Power*) has no versioning support, so currently we can not hardcode correct # soname into executable. Probably we can add versioning support to # collect2, so additional links can be useful in future. if test "$aix_use_runtimelinking" = yes; then # If using run time linking (on AIX 4.2 or later) use lib.so # instead of lib.a to let people know that these are not # typical AIX shared libraries. library_names_spec='${libname}${release}${shared_ext}$versuffix ${libname}${release}${shared_ext}$major $libname${shared_ext}' else # We preserve .a as extension for shared libraries through AIX4.2 # and later when we are not doing run time linking. library_names_spec='${libname}${release}.a $libname.a' soname_spec='${libname}${release}${shared_ext}$major' fi shlibpath_var=LIBPATH fi ;; amigaos*) case $host_cpu in powerpc) # Since July 2007 AmigaOS4 officially supports .so libraries. # When compiling the executable, add -use-dynld -Lsobjs: to the compileline. library_names_spec='${libname}${release}${shared_ext}$versuffix ${libname}${release}${shared_ext}$major $libname${shared_ext}' ;; m68k) library_names_spec='$libname.ixlibrary $libname.a' # Create ${libname}_ixlibrary.a entries in /sys/libs. finish_eval='for lib in `ls $libdir/*.ixlibrary 2>/dev/null`; do libname=`func_echo_all "$lib" | $SED '\''s%^.*/\([^/]*\)\.ixlibrary$%\1%'\''`; test $RM /sys/libs/${libname}_ixlibrary.a; $show "cd /sys/libs && $LN_S $lib ${libname}_ixlibrary.a"; cd /sys/libs && $LN_S $lib ${libname}_ixlibrary.a || exit 1; done' ;; esac ;; beos*) library_names_spec='${libname}${shared_ext}' dynamic_linker="$host_os ld.so" shlibpath_var=LIBRARY_PATH ;; bsdi[45]*) version_type=linux # correct to gnu/linux during the next big refactor need_version=no library_names_spec='${libname}${release}${shared_ext}$versuffix ${libname}${release}${shared_ext}$major $libname${shared_ext}' soname_spec='${libname}${release}${shared_ext}$major' finish_cmds='PATH="\$PATH:/sbin" ldconfig $libdir' shlibpath_var=LD_LIBRARY_PATH sys_lib_search_path_spec="/shlib /usr/lib /usr/X11/lib /usr/contrib/lib /lib /usr/local/lib" sys_lib_dlsearch_path_spec="/shlib /usr/lib /usr/local/lib" # the default ld.so.conf also contains /usr/contrib/lib and # /usr/X11R6/lib (/usr/X11 is a link to /usr/X11R6), but let us allow # libtool to hard-code these into programs ;; 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*) case $LD in # libtool.m4 will add one of these switches to LD *-32|*"-32 "|*-melf32bsmip|*"-melf32bsmip ") libsuff= shlibsuff= libmagic=32-bit;; *-n32|*"-n32 "|*-melf32bmipn32|*"-melf32bmipn32 ") libsuff=32 shlibsuff=N32 libmagic=N32;; *-64|*"-64 "|*-melf64bmip|*"-melf64bmip ") libsuff=64 shlibsuff=64 libmagic=64-bit;; *) libsuff= shlibsuff= libmagic=never-match;; esac ;; esac shlibpath_var=LD_LIBRARY${shlibsuff}_PATH shlibpath_overrides_runpath=no sys_lib_search_path_spec="/usr/lib${libsuff} /lib${libsuff} /usr/local/lib${libsuff}" sys_lib_dlsearch_path_spec="/usr/lib${libsuff} /lib${libsuff}" hardcode_into_libs=yes ;; # No shared lib support for Linux oldld, aout, or coff. linux*oldld* | linux*aout* | linux*coff*) dynamic_linker=no ;; # This must be glibc/ELF. linux* | k*bsd*-gnu | kopensolaris*-gnu) version_type=linux # correct to gnu/linux during the next big refactor need_lib_prefix=no need_version=no library_names_spec='${libname}${release}${shared_ext}$versuffix ${libname}${release}${shared_ext}$major $libname${shared_ext}' soname_spec='${libname}${release}${shared_ext}$major' finish_cmds='PATH="\$PATH:/sbin" ldconfig -n $libdir' shlibpath_var=LD_LIBRARY_PATH shlibpath_overrides_runpath=no # Some binutils ld are patched to set DT_RUNPATH if ${lt_cv_shlibpath_overrides_runpath+:} false; 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'A' + ((c) - 'a') : (c)) #else # define ISLOWER(c) \ (('a' <= (c) && (c) <= 'i') \ || ('j' <= (c) && (c) <= 'r') \ || ('s' <= (c) && (c) <= 'z')) # define TOUPPER(c) (ISLOWER(c) ? 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" >&6; } cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #include #ifdef HAVE_UNISTD_H #include #endif #define _GNU_SOURCE /* For getopt_long on GNU systems */ #include int main () { opt = getopt_long(0,NULL,NULL,NULL,NULL); ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_getopt_long=yes else ac_have_getopt_long=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_getopt_long" = "xyes" then { $as_echo "$as_me:${as_lineno-$LINENO}: result: system" >&5 $as_echo "system" >&6; } else { $as_echo "$as_me:${as_lineno-$LINENO}: result: internal" >&5 $as_echo "internal" >&6; } fi if test "x$ac_have_getopt_long" = "xno" ; then NEED_GETOPT_TRUE= NEED_GETOPT_FALSE='#' else NEED_GETOPT_TRUE='#' NEED_GETOPT_FALSE= fi # The cast to long int works around a bug in the HP C Compiler # version HP92453-01 B.11.11.23709.GP, which incorrectly rejects # declarations like `int a3[[(sizeof (unsigned char)) >= 0]];'. # This bug is HP SR number 8606223364. { $as_echo "$as_me:${as_lineno-$LINENO}: checking size of double" >&5 $as_echo_n "checking size of double... 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" >&6; } if ${ac_cv_sizeof_size_t+:} false; then : $as_echo_n "(cached) " >&6 else if ac_fn_c_compute_int "$LINENO" "(long int) (sizeof (size_t))" "ac_cv_sizeof_size_t" "$ac_includes_default"; then : else if test "$ac_cv_type_size_t" = yes; then { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5 $as_echo "$as_me: error: in \`$ac_pwd':" >&2;} as_fn_error 77 "cannot compute sizeof (size_t) See \`config.log' for more details" "$LINENO" 5; } else ac_cv_sizeof_size_t=0 fi fi fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_sizeof_size_t" >&5 $as_echo "$ac_cv_sizeof_size_t" >&6; } cat >>confdefs.h <<_ACEOF #define SIZEOF_SIZE_T $ac_cv_sizeof_size_t _ACEOF SIZEOF_INT="$ac_cv_sizeof_int" SIZEOF_SIZE_T="$ac_cv_sizeof_size_t" SIZEOF_VOID_P="$ac_cv_sizeof_void_p" { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mat_int64_t" >&5 $as_echo_n "checking for mat_int64_t... " >&6; } cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif int main () { int64_t i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int64_t=yes else ac_have_mat_int64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int64_t" = "xyes" then ac_have_mat_int64_t=yes cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int64_t int64_t _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: int64_t" >&5 $as_echo "int64_t" >&6; } fi if test "x$ac_have_mat_int64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 64 #matio sizeof(signed char) not 64 bits #endif int main () { signed char i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int64_t=yes else ac_have_mat_int64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int64_t signed char _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: signed char" >&5 $as_echo "signed char" >&6; } fi fi if test "x$ac_have_mat_int64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 64 #matio sizeof(short) not 64 bits #endif int main () { short i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int64_t=yes else ac_have_mat_int64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int64_t short _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: short" >&5 $as_echo "short" >&6; } fi fi if test "x$ac_have_mat_int64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 64 #matio sizeof(int) not 64 bits #endif int main () { int i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int64_t=yes else ac_have_mat_int64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int64_t int _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: int" >&5 $as_echo "int" >&6; } fi fi if test "x$ac_have_mat_int64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 64 #matio sizeof(long) not 64 bits #endif int main () { long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int64_t=yes else ac_have_mat_int64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int64_t long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: long" >&5 $as_echo "long" >&6; } fi fi if test "x$ac_have_mat_int64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 64 #matio sizeof(long long) not 64 bits #endif int main () { long long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int64_t=yes else ac_have_mat_int64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int64_t long long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: long long" >&5 $as_echo "long long" >&6; } fi fi if test "x$ac_have_mat_int64_t" != "xyes" then { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } fi { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mat_uint64_t" >&5 $as_echo_n "checking for mat_uint64_t... " >&6; } cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif int main () { uint64_t i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint64_t=yes else ac_have_mat_uint64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint64_t" = "xyes" then ac_have_mat_uint64_t=yes cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint64_t uint64_t _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: uint64_t" >&5 $as_echo "uint64_t" >&6; } fi if test "x$ac_have_mat_uint64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 64 #matio sizeof(signed char) not 64 bits #endif int main () { unsigned char i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint64_t=yes else ac_have_mat_uint64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint64_t unsigned char _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned char" >&5 $as_echo "unsigned char" >&6; } fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 64 #matio sizeof(short) not 64 bits #endif int main () { unsigned short i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint64_t=yes else ac_have_mat_uint64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint64_t unsigned short _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned short" >&5 $as_echo "unsigned short" >&6; } fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 64 #matio sizeof(int) not 64 bits #endif int main () { unsigned int i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint64_t=yes else ac_have_mat_uint64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint64_t unsigned int _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned int" >&5 $as_echo "unsigned int" >&6; } fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 64 #matio sizeof(long) not 64 bits #endif int main () { unsigned long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint64_t=yes else ac_have_mat_uint64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint64_t unsigned long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned long" >&5 $as_echo "unsigned long" >&6; } fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 64 #matio sizeof(long long) not 64 bits #endif int main () { unsigned long long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint64_t=yes else ac_have_mat_uint64_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint64_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT64_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint64_t unsigned long long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned long long" >&5 $as_echo "unsigned long long" >&6; } fi fi if test "x$ac_have_mat_uint64_t" != "xyes" then { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } fi { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mat_int32_t" >&5 $as_echo_n "checking for mat_int32_t... " >&6; } cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif int main () { int32_t i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int32_t=yes else ac_have_mat_int32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int32_t" = "xyes" then ac_have_mat_int32_t=yes cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int32_t int32_t _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: int32_t" >&5 $as_echo "int32_t" >&6; } fi if test "x$ac_have_mat_int32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 32 #matio sizeof(signed char) not 32 bits #endif int main () { signed char i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int32_t=yes else ac_have_mat_int32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int32_t signed char _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: signed char" >&5 $as_echo "signed char" >&6; } fi fi if test "x$ac_have_mat_int32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 32 #matio sizeof(short) not 32 bits #endif int main () { short i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int32_t=yes else ac_have_mat_int32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int32_t short _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: short" >&5 $as_echo "short" >&6; } fi fi if test "x$ac_have_mat_int32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 32 #matio sizeof(int) not 32 bits #endif int main () { int i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int32_t=yes else ac_have_mat_int32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int32_t int _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: int" >&5 $as_echo "int" >&6; } fi fi if test "x$ac_have_mat_int32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 32 #matio sizeof(long) not 32 bits #endif int main () { long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int32_t=yes else ac_have_mat_int32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int32_t long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: long" >&5 $as_echo "long" >&6; } fi fi if test "x$ac_have_mat_int32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 32 #matio sizeof(long long) not 32 bits #endif int main () { long long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int32_t=yes else ac_have_mat_int32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int32_t long long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: long long" >&5 $as_echo "long long" >&6; } fi fi if test "x$ac_have_mat_int32_t" != "xyes" then { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } fi { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mat_uint32_t" >&5 $as_echo_n "checking for mat_uint32_t... " >&6; } cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif int main () { uint32_t i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint32_t=yes else ac_have_mat_uint32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint32_t" = "xyes" then ac_have_mat_uint32_t=yes cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint32_t uint32_t _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: uint32_t" >&5 $as_echo "uint32_t" >&6; } fi if test "x$ac_have_mat_uint32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 32 #matio sizeof(signed char) not 32 bits #endif int main () { unsigned char i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint32_t=yes else ac_have_mat_uint32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint32_t unsigned char _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned char" >&5 $as_echo "unsigned char" >&6; } fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 32 #matio sizeof(short) not 32 bits #endif int main () { unsigned short i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint32_t=yes else ac_have_mat_uint32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint32_t unsigned short _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned short" >&5 $as_echo "unsigned short" >&6; } fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 32 #matio sizeof(int) not 32 bits #endif int main () { unsigned int i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint32_t=yes else ac_have_mat_uint32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint32_t unsigned int _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned int" >&5 $as_echo "unsigned int" >&6; } fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 32 #matio sizeof(long) not 32 bits #endif int main () { unsigned long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint32_t=yes else ac_have_mat_uint32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint32_t unsigned long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned long" >&5 $as_echo "unsigned long" >&6; } fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 32 #matio sizeof(long long) not 32 bits #endif int main () { unsigned long long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint32_t=yes else ac_have_mat_uint32_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint32_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT32_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint32_t unsigned long long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned long long" >&5 $as_echo "unsigned long long" >&6; } fi fi if test "x$ac_have_mat_uint32_t" != "xyes" then { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } fi { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mat_int16_t" >&5 $as_echo_n "checking for mat_int16_t... " >&6; } cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif int main () { int16_t i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int16_t=yes else ac_have_mat_int16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int16_t" = "xyes" then ac_have_mat_int16_t=yes cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int16_t int16_t _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: int16_t" >&5 $as_echo "int16_t" >&6; } fi if test "x$ac_have_mat_int16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 16 #matio sizeof(signed char) not 16 bits #endif int main () { signed char i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int16_t=yes else ac_have_mat_int16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int16_t signed char _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: signed char" >&5 $as_echo "signed char" >&6; } fi fi if test "x$ac_have_mat_int16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 16 #matio sizeof(short) not 16 bits #endif int main () { short i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int16_t=yes else ac_have_mat_int16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int16_t short _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: short" >&5 $as_echo "short" >&6; } fi fi if test "x$ac_have_mat_int16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 16 #matio sizeof(int) not 16 bits #endif int main () { int i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int16_t=yes else ac_have_mat_int16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int16_t int _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: int" >&5 $as_echo "int" >&6; } fi fi if test "x$ac_have_mat_int16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 16 #matio sizeof(long) not 16 bits #endif int main () { long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int16_t=yes else ac_have_mat_int16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int16_t long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: long" >&5 $as_echo "long" >&6; } fi fi if test "x$ac_have_mat_int16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 16 #matio sizeof(long long) not 16 bits #endif int main () { long long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int16_t=yes else ac_have_mat_int16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int16_t long long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: long long" >&5 $as_echo "long long" >&6; } fi fi if test "x$ac_have_mat_int16_t" != "xyes" then { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } fi { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mat_uint16_t" >&5 $as_echo_n "checking for mat_uint16_t... " >&6; } cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif int main () { uint16_t i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint16_t=yes else ac_have_mat_uint16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint16_t" = "xyes" then ac_have_mat_uint16_t=yes cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint16_t uint16_t _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: uint16_t" >&5 $as_echo "uint16_t" >&6; } fi if test "x$ac_have_mat_uint16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 16 #matio sizeof(signed char) not 16 bits #endif int main () { unsigned char i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint16_t=yes else ac_have_mat_uint16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint16_t unsigned char _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned char" >&5 $as_echo "unsigned char" >&6; } fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 16 #matio sizeof(short) not 16 bits #endif int main () { unsigned short i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint16_t=yes else ac_have_mat_uint16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint16_t unsigned short _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned short" >&5 $as_echo "unsigned short" >&6; } fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 16 #matio sizeof(int) not 16 bits #endif int main () { unsigned int i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint16_t=yes else ac_have_mat_uint16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint16_t unsigned int _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned int" >&5 $as_echo "unsigned int" >&6; } fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 16 #matio sizeof(long) not 16 bits #endif int main () { unsigned long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint16_t=yes else ac_have_mat_uint16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint16_t unsigned long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned long" >&5 $as_echo "unsigned long" >&6; } fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 16 #matio sizeof(long long) not 16 bits #endif int main () { unsigned long long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint16_t=yes else ac_have_mat_uint16_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint16_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT16_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint16_t unsigned long long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned long long" >&5 $as_echo "unsigned long long" >&6; } fi fi if test "x$ac_have_mat_uint16_t" != "xyes" then { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } fi { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mat_int8_t" >&5 $as_echo_n "checking for mat_int8_t... " >&6; } cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif int main () { int8_t i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int8_t=yes else ac_have_mat_int8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int8_t" = "xyes" then ac_have_mat_int8_t=yes cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int8_t int8_t _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: int8_t" >&5 $as_echo "int8_t" >&6; } fi if test "x$ac_have_mat_int8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 8 #matio sizeof(signed char) not 8 bits #endif int main () { signed char i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int8_t=yes else ac_have_mat_int8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int8_t signed char _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: signed char" >&5 $as_echo "signed char" >&6; } fi fi if test "x$ac_have_mat_int8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 8 #matio sizeof(short) not 8 bits #endif int main () { short i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int8_t=yes else ac_have_mat_int8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int8_t short _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: short" >&5 $as_echo "short" >&6; } fi fi if test "x$ac_have_mat_int8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 8 #matio sizeof(int) not 8 bits #endif int main () { int i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int8_t=yes else ac_have_mat_int8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int8_t int _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: int" >&5 $as_echo "int" >&6; } fi fi if test "x$ac_have_mat_int8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 8 #matio sizeof(long) not 8 bits #endif int main () { long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int8_t=yes else ac_have_mat_int8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int8_t long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: long" >&5 $as_echo "long" >&6; } fi fi if test "x$ac_have_mat_int8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 8 #matio sizeof(long long) not 8 bits #endif int main () { long long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_int8_t=yes else ac_have_mat_int8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_int8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_INT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_int8_t long long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: long long" >&5 $as_echo "long long" >&6; } fi fi if test "x$ac_have_mat_int8_t" != "xyes" then { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } fi { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mat_uint8_t" >&5 $as_echo_n "checking for mat_uint8_t... " >&6; } cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif int main () { uint8_t i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint8_t=yes else ac_have_mat_uint8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint8_t" = "xyes" then ac_have_mat_uint8_t=yes cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint8_t uint8_t _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: uint8_t" >&5 $as_echo "uint8_t" >&6; } fi if test "x$ac_have_mat_uint8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT != 8 #matio sizeof(signed char) not 8 bits #endif int main () { unsigned char i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint8_t=yes else ac_have_mat_uint8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint8_t unsigned char _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned char" >&5 $as_echo "unsigned char" >&6; } fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_SHORT != 8 #matio sizeof(short) not 8 bits #endif int main () { unsigned short i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint8_t=yes else ac_have_mat_uint8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint8_t unsigned short _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned short" >&5 $as_echo "unsigned short" >&6; } fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_INT != 8 #matio sizeof(int) not 8 bits #endif int main () { unsigned int i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint8_t=yes else ac_have_mat_uint8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint8_t unsigned int _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned int" >&5 $as_echo "unsigned int" >&6; } fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG != 8 #matio sizeof(long) not 8 bits #endif int main () { unsigned long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint8_t=yes else ac_have_mat_uint8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint8_t unsigned long _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned long" >&5 $as_echo "unsigned long" >&6; } fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #include #if CHAR_BIT*SIZEOF_LONG_LONG != 8 #matio sizeof(long long) not 8 bits #endif int main () { unsigned long long i = 0; ; return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : ac_have_mat_uint8_t=yes else ac_have_mat_uint8_t=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext if test "x$ac_have_mat_uint8_t" = "xyes" then cat >>confdefs.h <<_ACEOF #define HAVE_MAT_UINT8_T /**/ _ACEOF cat >>confdefs.h <<_ACEOF #define _mat_uint8_t unsigned long longint8 type _ACEOF { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsigned long long" >&5 $as_echo "unsigned long long" >&6; } fi fi if test "x$ac_have_mat_uint8_t" != "xyes" then { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } fi if test "x$ac_have_mat_uint64_t" = "xyes"; then HAVE_UINT64=1 else HAVE_UINT64=0 fi if test "x$ac_have_mat_int64_t" = "xyes"; then HAVE_INT64=1 else HAVE_INT64=0 fi HAVE_UINT64=$HAVE_UINT64 HAVE_INT64=$HAVE_INT64 { $as_echo "$as_me:${as_lineno-$LINENO}: checking for va_copy()" >&5 $as_echo_n "checking for va_copy()... " >&6; } if ${matio_cv_have_va_copy+:} false; then : $as_echo_n "(cached) " >&6 else cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include void f (int i, ...) { va_list args1, args2; va_start (args1, i); va_copy (args2, args1); if (va_arg (args2, int) != 42 || va_arg (args1, int) != 42) exit (1); va_end (args1); va_end (args2); } int main() { f (0, 42); return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : matio_cv_have_va_copy=yes else matio_cv_have_va_copy=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $matio_cv_have_va_copy" >&5 $as_echo "$matio_cv_have_va_copy" >&6; } if test "$matio_cv_have_va_copy" = "no" then { $as_echo "$as_me:${as_lineno-$LINENO}: checking for __va_copy()" >&5 $as_echo_n "checking for __va_copy()... " >&6; } if ${matio_cv_have___va_copy+:} false; then : $as_echo_n "(cached) " >&6 else cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include void f (int i, ...) { va_list args1, args2; va_start (args1, i); __va_copy (args2, args1); if (va_arg (args2, int) != 42 || va_arg (args1, int) != 42) exit (1); va_end (args1); va_end (args2); } int main() { f (0, 42); return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : matio_cv_have___va_copy=yes else matio_cv_have___va_copy=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $matio_cv_have___va_copy" >&5 $as_echo "$matio_cv_have___va_copy" >&6; } if test "matio_cv_have___va_copy" = "yes" then cat >>confdefs.h <<_ACEOF #define HAVE___VA_COPY /**/ _ACEOF fi else cat >>confdefs.h <<_ACEOF #define HAVE_VA_COPY /**/ _ACEOF fi { $as_echo "$as_me:${as_lineno-$LINENO}: checking for vsnprintf()" >&5 $as_echo_n "checking for vsnprintf()... " >&6; } if ${matio_cv_have_vsnprintf+:} false; then : $as_echo_n "(cached) " >&6 else cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #include #include int main() { va_list ap; vsnprintf(NULL,0,"%d",ap); return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : matio_cv_have_vsnprintf=yes else matio_cv_have_vsnprintf=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $matio_cv_have_vsnprintf" >&5 $as_echo "$matio_cv_have_vsnprintf" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: checking for snprintf()" >&5 $as_echo_n "checking for snprintf()... " >&6; } if ${matio_cv_have_snprintf+:} false; then : $as_echo_n "(cached) " >&6 else cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #include #include int main() { snprintf(NULL,0,"%d",0); return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : matio_cv_have_snprintf=yes else matio_cv_have_snprintf=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $matio_cv_have_snprintf" >&5 $as_echo "$matio_cv_have_snprintf" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: checking for vasprintf()" >&5 $as_echo_n "checking for vasprintf()... " >&6; } if ${matio_cv_have_vasprintf+:} false; then : $as_echo_n "(cached) " >&6 else cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #include #include int main() { va_list ap; vasprintf(NULL,"%d",ap); return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : matio_cv_have_vasprintf=yes else matio_cv_have_vasprintf=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $matio_cv_have_vasprintf" >&5 $as_echo "$matio_cv_have_vasprintf" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: checking for asprintf()" >&5 $as_echo_n "checking for asprintf()... " >&6; } if ${matio_cv_have_asprintf+:} false; then : $as_echo_n "(cached) " >&6 else cat confdefs.h - <<_ACEOF >conftest.$ac_ext /* end confdefs.h. */ #include #include #include int main() { asprintf(NULL,0,"%d",0); return 0; } _ACEOF if ac_fn_c_try_link "$LINENO"; then : matio_cv_have_asprintf=yes else matio_cv_have_asprintf=no fi rm -f core conftest.err conftest.$ac_objext \ conftest$ac_exeext conftest.$ac_ext fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: $matio_cv_have_asprintf" >&5 $as_echo "$matio_cv_have_asprintf" >&6; } if test "$matio_cv_have_vsnprintf" = "yes" then cat >>confdefs.h <<_ACEOF #define HAVE_VSNPRINTF /**/ _ACEOF fi if test "$matio_cv_have_snprintf" = "yes" then cat >>confdefs.h <<_ACEOF #define HAVE_SNPRINTF /**/ _ACEOF fi if test "$matio_cv_have_vasprintf" = "yes" then cat >>confdefs.h <<_ACEOF #define HAVE_VASPRINTF /**/ _ACEOF fi if test "$matio_cv_have_asprintf" = "yes" then cat >>confdefs.h <<_ACEOF #define HAVE_ASPRINTF /**/ _ACEOF fi # Check whether --with-matlab was given. if test "${with_matlab+set}" = set; then : withval=$with_matlab; MATLAB_DIR="$withval" else MATLAB_DIR="" fi if test -n "$MATLAB_DIR" -a -d "$MATLAB_DIR"; then MATLAB_PATH="$PATH_SEPARATOR$MATLAB_DIR" fi # Do not use MATLAB as the program name because it can cause the matlab # script to faile # Extract the first word of "matlab", so it can be a program name with args. set dummy matlab; ac_word=$2 { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5 $as_echo_n "checking for $ac_word... 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|| _lt_function_replace_fail=: fi if test x"$_lt_function_replace_fail" = x":"; then { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: Unable to substitute extended shell functions in $ofile" >&5 $as_echo "$as_me: WARNING: Unable to substitute extended shell functions in $ofile" >&2;} fi mv -f "$cfgfile" "$ofile" || (rm -f "$ofile" && cp "$cfgfile" "$ofile" && rm -f "$cfgfile") chmod +x "$ofile" ;; "test/atconfig":C) cat >test/atconfig </dev/null $SHELL $CONFIG_STATUS $ac_config_status_args || ac_cs_success=false exec 5>>config.log # Use ||, not &&, to avoid exiting from the if with $? = 1, which # would make configure fail if this is the last instruction. $ac_cs_success || as_fn_exit 1 fi if test -n "$ac_unrecognized_opts" && test "$enable_option_checking" != no; then { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: unrecognized options: $ac_unrecognized_opts" >&5 $as_echo "$as_me: WARNING: unrecognized options: $ac_unrecognized_opts" >&2;} fi { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: MATIO Configuration Summary " >&5 $as_echo " MATIO Configuration Summary " >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: ==============================================================" >&5 $as_echo "==============================================================" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: C Compiler: $CC" >&5 $as_echo " C Compiler: $CC" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: CFLAGS: $CFLAGS" >&5 $as_echo " CFLAGS: $CFLAGS" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: Shared Libraries: $enable_shared" >&5 $as_echo " Shared Libraries: $enable_shared" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: Static Libraries: $enable_static" >&5 $as_echo " Static Libraries: $enable_static" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: default MAT version: $file_ver" >&5 $as_echo " default MAT version: $file_ver" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: Features --------------------------------------------" >&5 $as_echo "Features --------------------------------------------" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: MAT v7.3 file support: $mat73" >&5 $as_echo "MAT v7.3 file support: $mat73" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: Packages --------------------------------------------" >&5 $as_echo "Packages --------------------------------------------" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: zlib: $ZLIB_LIBS" >&5 $as_echo " zlib: $ZLIB_LIBS" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: hdf5: $HDF5_LIBS" >&5 $as_echo " hdf5: $HDF5_LIBS" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: MATLAB: $MATLABEXE" >&5 $as_echo " MATLAB: $MATLABEXE" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } { $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5 $as_echo "" >&6; } PDL-IO-Matlab-release-0.005/matio-1.5.0/configure.ac000066400000000000000000000271241206363665300213340ustar00rootroot00000000000000dnl configure.ac dnl dnl NOTE: Process this file with GNU autoconf to produce a configure script. dnl dnl Copyright (C) 2005-2012 Christopher C. Hulbert dnl dnl All rights reserved. dnl dnl Redistribution and use in source and binary forms, with or without dnl modification, are permitted provided that the following conditions are met: dnl dnl 1. Redistributions of source code must retain the above copyright notice, dnl this list of conditions and the following disclaimer. dnl dnl 2. Redistributions in binary form must reproduce the above copyright dnl notice, this list of conditions and the following disclaimer in the dnl documentation and/or other materials provided with the distribution. dnl dnl THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY dnl EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED dnl WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE dnl DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE dnl LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR dnl CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF dnl SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS dnl INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN dnl CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) dnl ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE dnl POSSIBILITY OF SUCH DAMAGE. AC_INIT([MATIO],[1.5.0],[chulbe2lsu@users.sourceforge.net],[], [http://sourceforge.net/projects/matio]) AC_CONFIG_SRCDIR([src/matio.h]) AC_CONFIG_AUX_DIR([config]) AC_CONFIG_MACRO_DIR([config]) AM_INIT_AUTOMAKE([foreign 1.8 no-dependencies]) m4_ifdef([AM_SILENT_RULES], [AM_SILENT_RULES]) AM_MAINTAINER_MODE AC_PREREQ(2.60) AC_CANONICAL_HOST AC_DEFINE_UNQUOTED([MATIO_PLATFORM],"${host}",[Platform]) AC_DEFINE_UNQUOTED([MATIO_MAJOR_VERSION],1,[Matio major version number]) AC_DEFINE_UNQUOTED([MATIO_MINOR_VERSION],5,[Matio minor version number]) AC_DEFINE_UNQUOTED([MATIO_RELEASE_LEVEL],0,[Matio release level number]) AC_DEFINE_UNQUOTED([MATIO_VERSION],150,[Matio version number]) PACKAGE_RELEASE_DATE="15 April 2012" AC_SUBST(PACKAGE_RELEASE_DATE) AC_ARG_VAR([FCLDFLAGS],[Fortran compiler-specific flags at link time]) AC_ARG_VAR([LT_CFLAGS],[C compiler flags passed to libtool in compile mode]) AC_ARG_VAR([LT_LDFLAGS],[Flags passed to libtool in link mode]) dnl dnl Build programs, C compiler, F77 compiler, make, install, etc. dnl AC_PROG_CC([pgcc icc gcc cc]) dnl dnl Check whether to build in debug mode dnl AC_ARG_ENABLE(debug,AS_HELP_STRING([--enable-debug=yes],[Turn on debugging]), debug=$enableval,debug=no) AC_MSG_CHECKING(debug mode) if test "$debug" = "no" then AC_MSG_RESULT(no) AC_DEFINE_UNQUOTED([NODEBUG],[],[Debug disabled]) else AC_MSG_RESULT(yes) AC_DEFINE_UNQUOTED([DEBUG],[],[Debug enabled]) debug=yes fi dnl dnl Check whether to build in profile mode dnl AC_ARG_ENABLE(profile,AS_HELP_STRING([--enable-profile=yes],[Turn on profile]), profile=$enableval,profile=no) AC_MSG_CHECKING(profile mode) if test "$profile" = "no" then AC_MSG_RESULT(no) AC_DEFINE_UNQUOTED([NODEBUG],[],[Debug disabled]) else AC_MSG_RESULT(yes) AC_DEFINE_UNQUOTED([DEBUG],[],[Debug enabled]) profile=yes fi dnl dnl Check for user-defined suffix to the library/include directories for dnl installation and search. i.e. --with-libdir-suffix=64 looks in lib64 and dnl --with-libdir-suffix=/x86_64 would look in lib/x86_64 dnl MATIO_CHECK_LIBDIR_SUFFIX dnl dnl Set library directories to include libdir suffix dnl acl_libdirstem="lib$with_libdir_suffix" dnl dnl If debugging is enabled, add debugging options to the flags dnl if test "$debug" = "yes" then CFLAGS="$CFLAGS $DEBUG_CFLAGS" FCFLAGS="$FCFLAGS $DEBUG_FCFLAGS" else CFLAGS="$REL_CFLAGS $CFLAGS" FCFLAGS="$REL_FCFLAGS $FCFLAGS" fi dnl dnl If profiling is enabled, add profile options to the flags dnl if test "$profile" = "yes" then CFLAGS="$PROFILE_CFLAGS $CFLAGS" FCFLAGS="$PROFILE_FCFLAGS $FCFLAGS" fi AC_ENABLE_SHARED AC_ENABLE_STATIC AC_PROG_LIBTOOL AC_PROG_MAKE_SET AC_PROG_INSTALL AC_PROG_GREP dnl dnl Libraries dnl AC_CHECK_LIB([m],[pow]) dnl dnl Headers dnl AC_CONFIG_HEADERS([src/matioConfig.h src/matio_pubconf.h]) AC_STDC_HEADERS AC_CHECK_HEADER([inttypes.h],[AC_DEFINE_UNQUOTED([MATIO_HAVE_INTTYPES_H],[1],[Matio has access to inttypes.h])]) AC_CHECK_HEADER([stdint.h],[AC_DEFINE_UNQUOTED([MATIO_HAVE_STDINT_H],[1],[Matio has access to stdint.h])]) AC_CHECK_HEADER([strings.h],[AC_DEFINE_UNQUOTED([HAVE_STRINGS_H],[1],[Matio has access to strings.h])]) AC_CHECK_HEADER([unistd.h],[AC_DEFINE_UNQUOTED([HAVE_UNISTD_H],[1],[Matio has access to unistd.h])]) MATIO_CHECK_GETOPT_LONG AC_CHECK_SIZEOF([double]) AC_CHECK_SIZEOF([float]) AC_CHECK_SIZEOF([long long]) AC_CHECK_SIZEOF([long]) AC_CHECK_SIZEOF([int]) AC_CHECK_SIZEOF([short]) AC_CHECK_SIZEOF([char]) AC_CHECK_SIZEOF([void *]) AC_CHECK_SIZEOF([size_t]) dnl dnl Substitute size of int, size_t, and void * to matio_t.inc SIZEOF_INT="$ac_cv_sizeof_int" SIZEOF_SIZE_T="$ac_cv_sizeof_size_t" SIZEOF_VOID_P="$ac_cv_sizeof_void_p" AC_SUBST(SIZEOF_INT) AC_SUBST(SIZEOF_SIZE_T) AC_SUBST(SIZEOF_VOID_P) CHECK_MATIO_INT64_T CHECK_MATIO_UINT64_T CHECK_MATIO_INT32_T CHECK_MATIO_UINT32_T CHECK_MATIO_INT16_T CHECK_MATIO_UINT16_T CHECK_MATIO_INT8_T CHECK_MATIO_UINT8_T if test "x$ac_have_mat_uint64_t" = "xyes"; then HAVE_UINT64=1 else HAVE_UINT64=0 fi if test "x$ac_have_mat_int64_t" = "xyes"; then HAVE_INT64=1 else HAVE_INT64=0 fi AC_SUBST([HAVE_UINT64],[$HAVE_UINT64]) AC_SUBST([HAVE_INT64], [$HAVE_INT64]) AC_CACHE_CHECK([for va_copy()],matio_cv_have_va_copy,[ AC_LINK_IFELSE([AC_LANG_SOURCE([[ #include void f (int i, ...) { va_list args1, args2; va_start (args1, i); va_copy (args2, args1); if (va_arg (args2, int) != 42 || va_arg (args1, int) != 42) exit (1); va_end (args1); va_end (args2); } int main() { f (0, 42); return 0; }]])], [matio_cv_have_va_copy=yes], [matio_cv_have_va_copy=no]) ]) if test "$matio_cv_have_va_copy" = "no" then AC_CACHE_CHECK([for __va_copy()],matio_cv_have___va_copy,[ AC_LINK_IFELSE([AC_LANG_SOURCE([[#include void f (int i, ...) { va_list args1, args2; va_start (args1, i); __va_copy (args2, args1); if (va_arg (args2, int) != 42 || va_arg (args1, int) != 42) exit (1); va_end (args1); va_end (args2); } int main() { f (0, 42); return 0; }]])], [matio_cv_have___va_copy=yes], [matio_cv_have___va_copy=no]) ]) if test "matio_cv_have___va_copy" = "yes" then AC_DEFINE_UNQUOTED([HAVE___VA_COPY],[],[Have va_copy]) fi else AC_DEFINE_UNQUOTED([HAVE_VA_COPY],[],[Have va_copy]) fi AC_CACHE_CHECK([for vsnprintf()],matio_cv_have_vsnprintf,[ AC_LINK_IFELSE([AC_LANG_SOURCE([[ #include #include #include int main() { va_list ap; vsnprintf(NULL,0,"%d",ap); return 0; }]])], [matio_cv_have_vsnprintf=yes], [matio_cv_have_vsnprintf=no]) ]) AC_CACHE_CHECK([for snprintf()],matio_cv_have_snprintf,[ AC_LINK_IFELSE([AC_LANG_SOURCE([[ #include #include #include int main() { snprintf(NULL,0,"%d",0); return 0; }]])], [matio_cv_have_snprintf=yes], [matio_cv_have_snprintf=no]) ]) AC_CACHE_CHECK([for vasprintf()],matio_cv_have_vasprintf,[ AC_LINK_IFELSE([AC_LANG_SOURCE([[ #include #include #include int main() { va_list ap; vasprintf(NULL,"%d",ap); return 0; }]])], [matio_cv_have_vasprintf=yes], [matio_cv_have_vasprintf=no]) ]) AC_CACHE_CHECK([for asprintf()],matio_cv_have_asprintf,[ AC_LINK_IFELSE([AC_LANG_SOURCE([[ #include #include #include int main() { asprintf(NULL,0,"%d",0); return 0; }]])], [matio_cv_have_asprintf=yes], [matio_cv_have_asprintf=no]) ]) if test "$matio_cv_have_vsnprintf" = "yes" then AC_DEFINE_UNQUOTED([HAVE_VSNPRINTF],[],[Have vsnprintf]) fi if test "$matio_cv_have_snprintf" = "yes" then AC_DEFINE_UNQUOTED([HAVE_SNPRINTF],[],[Have snprintf]) fi if test "$matio_cv_have_vasprintf" = "yes" then AC_DEFINE_UNQUOTED([HAVE_VASPRINTF],[],[Have vasprintf]) fi if test "$matio_cv_have_asprintf" = "yes" then AC_DEFINE_UNQUOTED([HAVE_ASPRINTF],[],[Have asprintf]) fi MATIO_CHECK_MATLAB MATIO_CHECK_ZLIB MATIO_CHECK_HDF5 dnl dnl Check whether to enable MAT v7.3 files dnl AC_ARG_ENABLE(mat73, AS_HELP_STRING([--enable-mat73=yes],[Enable MAT v7.3 file support]), mat73=$enableval,mat73=yes) AC_MSG_CHECKING(enable enable MAT v7.3 file support) if test "x$mat73" = "xno" then AC_MSG_RESULT([no]) mat73=no elif test "x$ac_have_hdf5" = "xno" then AC_MSG_RESULT([no]) AC_DEFINE_UNQUOTED([MAT73],[0],[MAT v7.3 file support]) mat73=no else AC_MSG_RESULT([yes]) AC_DEFINE_UNQUOTED([MAT73],[1],[MAT v7.3 file support]) mat73=yes fi AM_CONDITIONAL(MAT73, test "x$mat73" = "xyes") MATIO_CHECK_DEFAULT_FILE_VERSION dnl dnl Check whether to build in debug mode dnl AC_ARG_ENABLE(extended-sparse,AS_HELP_STRING([--enable-extended-sparse=yes],[Enable extended sparse matrix data types not supported in Matlab]), extended_sparse=$enableval,extended_sparse=yes) AC_MSG_CHECKING(enable extended sparse types) if test "$extended_sparse" = "no" then AC_MSG_RESULT(no) else AC_MSG_RESULT(yes) AC_DEFINE_UNQUOTED([EXTENDED_SPARSE],[],[Extended sparse matrix data types]) fi linux="no" winnt="no" sun="no" case $build_os in *linux*) linux="yes" AC_DEFINE_UNQUOTED([LINUX],[],[OS is Linux]);; *mingw*) winnt="yes" AC_DEFINE_UNQUOTED([WINNT],[],[OS is WinNT]);; *cygwin*) winnt="yes" AC_DEFINE_UNQUOTED([WINNT],[],[OS is CygWin]);; *sun*) sun="yes" AC_DEFINE_UNQUOTED([SUN],[],[OS is Sun]);; *solaris*) sun="yes" AC_DEFINE_UNQUOTED([SUN],[],[OS is Solaris]);; esac AM_CONDITIONAL(LINUX, test "x$linux" = "xyes") AM_CONDITIONAL(WINNT, test "x$winnt" = "xyes") AM_CONDITIONAL(SUN, test "x$sun" = "xyes") # Initialize the test suite. AC_CONFIG_TESTDIR([test]) AC_SUBST([AUTOM4TE], [${AUTOM4TE=autom4te}]) AC_SUBST([AUTOTEST], ['$(AUTOM4TE) --language=Autotest']) AC_CONFIG_FILES([Makefile \ matio.pc \ src/Makefile \ getopt/Makefile \ tools/Makefile \ test/Makefile \ documentation/Makefile]) AC_OUTPUT AC_MSG_RESULT([]) AC_MSG_RESULT([ MATIO Configuration Summary ]) AC_MSG_RESULT([==============================================================]) AC_MSG_RESULT([ C Compiler: $CC]) AC_MSG_RESULT([ CFLAGS: $CFLAGS]) AC_MSG_RESULT([ Shared Libraries: $enable_shared]) AC_MSG_RESULT([ Static Libraries: $enable_static]) AC_MSG_RESULT([ default MAT version: $file_ver]) AC_MSG_RESULT([]) AC_MSG_RESULT([Features --------------------------------------------]) AC_MSG_RESULT([MAT v7.3 file support: $mat73]) AC_MSG_RESULT([]) AC_MSG_RESULT([Packages --------------------------------------------]) AC_MSG_RESULT([ zlib: $ZLIB_LIBS]) AC_MSG_RESULT([ hdf5: $HDF5_LIBS]) AC_MSG_RESULT([ MATLAB: $MATLABEXE]) AC_MSG_RESULT([]) AC_MSG_RESULT([]) PDL-IO-Matlab-release-0.005/matio-1.5.0/documentation/000077500000000000000000000000001206363665300217115ustar00rootroot00000000000000PDL-IO-Matlab-release-0.005/matio-1.5.0/documentation/Makefile.am000066400000000000000000000041211206363665300237430ustar00rootroot00000000000000## Makefile.am -- Process this file with automake to produce Makefile.in ## ## Copyright 2012 Christopher C. Hulbert. ## ## All rights reserved. ## ## Redistribution and use in source and binary forms, with or without ## modification, are permitted provided that the following conditions are met: ## ## 1. Redistributions of source code must retain the above copyright notice, ## this list of conditions and the following disclaimer. ## ## 2. Redistributions in binary form must reproduce the above copyright ## notice, this list of conditions and the following disclaimer in the ## documentation and/or other materials provided with the distribution. ## ## THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY EXPRESS ## OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ## OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO ## EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, ## INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ## (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; ## LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ## ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ## (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS ## SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ## info_TEXINFOS = matio_user_guide.texi matio_user_guide_TEXINFOS = intro.texi quick.texi matvar_structure.texi \ build.texi dist_man3_MANS = \ Mat_Close.3 \ Mat_CreateVer.3 \ Mat_GetFilename.3 \ Mat_GetLibraryVersion.3 \ Mat_GetVersion.3 \ Mat_Open.3 \ Mat_Rewind.3 \ Mat_VarAddStructField.3 \ Mat_VarCreate.3 \ Mat_VarCreateStruct.3 \ Mat_VarFree.3 \ Mat_VarGetNumberOfFields.3 \ Mat_VarGetStructFieldnames.3 \ Mat_VarGetStructs.3 \ Mat_VarGetStructsLinear.3 \ Mat_VarRead.3 \ Mat_VarReadInfo.3 \ Mat_VarReadNext.3 \ Mat_VarReadNextInfo.3 \ Mat_VarWrite.3 PDL-IO-Matlab-release-0.005/matio-1.5.0/documentation/Makefile.in000066400000000000000000000627041206363665300237670ustar00rootroot00000000000000# Makefile.in generated by automake 1.11.4 from Makefile.am. # @configure_input@ # Copyright (C) 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, # 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011 Free Software # Foundation, Inc. # This Makefile.in is free software; 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Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the NetBSD * Foundation, Inc. and its contributors. * 4. Neither the name of The NetBSD Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef _GETOPT_H_ #define _GETOPT_H_ #if !defined(_WIN32) && !defined(_WIN64) # include #endif /* * GNU-like getopt_long()/getopt_long_only() with 4.4BSD optreset extension. * getopt() is declared here too for GNU programs. */ #define no_argument 0 #define required_argument 1 #define optional_argument 2 struct option { /* name of long option */ const char *name; /* * one of no_argument, required_argument, and optional_argument: * whether option takes an argument */ int has_arg; /* if not NULL, set *flag to val when option found */ int *flag; /* if flag not NULL, value to set *flag to; else return value */ int val; }; extern int getopt_long(int, char * const *, const char *, const struct option *, int *); extern int getopt_long_only(int, char * const *, const char *, const struct option *, int *); #ifndef _GETOPT_DECLARED #define _GETOPT_DECLARED int getopt(int, char * const [], const char *); extern char *optarg; /* getopt(3) external variables */ extern int optind, opterr, optopt; #endif #ifndef _OPTRESET_DECLARED #define _OPTRESET_DECLARED extern int optreset; /* getopt(3) external variable */ #endif #endif /* !_GETOPT_H_ */ PDL-IO-Matlab-release-0.005/matio-1.5.0/getopt/getopt_long.c000066400000000000000000000413071206363665300230340ustar00rootroot00000000000000/* $OpenBSD: getopt_long.c,v 1.21 2006/09/22 17:22:05 millert Exp $ */ /* $NetBSD: getopt_long.c,v 1.15 2002/01/31 22:43:40 tv Exp $ */ /* * Copyright (c) 2002 Todd C. Miller * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * * Sponsored in part by the Defense Advanced Research Projects * Agency (DARPA) and Air Force Research Laboratory, Air Force * Materiel Command, USAF, under agreement number F39502-99-1-0512. */ /*- * Copyright (c) 2000 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Dieter Baron and Thomas Klausner. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the NetBSD * Foundation, Inc. and its contributors. * 4. Neither the name of The NetBSD Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #if !defined(_WIN32) && !defined(_WIN64) # include # include #else # include # define warnx printf #endif #include #include #include #include #define GNU_COMPATIBLE /* Be more compatible, configure's use us! */ #ifdef REPLACE_GETOPT int opterr = 1; /* if error message should be printed */ int optind = 1; /* index into parent argv vector */ int optopt = '?'; /* character checked for validity */ int optreset; /* reset getopt */ char *optarg; /* argument associated with option */ #endif #define PRINT_ERROR ((opterr) && (*options != ':')) #define FLAG_PERMUTE 0x01 /* permute non-options to the end of argv */ #define FLAG_ALLARGS 0x02 /* treat non-options as args to option "-1" */ #define FLAG_LONGONLY 0x04 /* operate as getopt_long_only */ /* return values */ #define BADCH (int)'?' #define BADARG ((*options == ':') ? (int)':' : (int)'?') #define INORDER (int)1 #define EMSG "" #ifdef GNU_COMPATIBLE #define NO_PREFIX (-1) #define D_PREFIX 0 #define DD_PREFIX 1 #define W_PREFIX 2 #endif static int getopt_internal(int, char * const *, const char *, const struct option *, int *, int); static int parse_long_options(char * const *, const char *, const struct option *, int *, int, int); static int gcd(int, int); static void permute_args(int, int, int, char * const *); static char *place = EMSG; /* option letter processing */ /* XXX: set optreset to 1 rather than these two */ static int nonopt_start = -1; /* first non option argument (for permute) */ static int nonopt_end = -1; /* first option after non options (for permute) */ /* Error messages */ static const char recargchar[] = "option requires an argument -- %c"; static const char illoptchar[] = "illegal option -- %c"; /* From P1003.2 */ #ifdef GNU_COMPATIBLE static int dash_prefix = NO_PREFIX; static const char gnuoptchar[] = "invalid option -- %c"; static const char recargstring[] = "option `%s%s' requires an argument"; static const char ambig[] = "option `%s%.*s' is ambiguous"; static const char noarg[] = "option `%s%.*s' doesn't allow an argument"; static const char illoptstring[] = "unrecognized option `%s%s'"; #else static const char recargstring[] = "option requires an argument -- %s"; static const char ambig[] = "ambiguous option -- %.*s"; static const char noarg[] = "option doesn't take an argument -- %.*s"; static const char illoptstring[] = "unknown option -- %s"; #endif /* * Compute the greatest common divisor of a and b. */ static int gcd(int a, int b) { int c; c = a % b; while (c != 0) { a = b; b = c; c = a % b; } return (b); } /* * Exchange the block from nonopt_start to nonopt_end with the block * from nonopt_end to opt_end (keeping the same order of arguments * in each block). */ static void permute_args(int panonopt_start, int panonopt_end, int opt_end, char * const *nargv) { int cstart, cyclelen, i, j, ncycle, nnonopts, nopts, pos; char *swap; /* * compute lengths of blocks and number and size of cycles */ nnonopts = panonopt_end - panonopt_start; nopts = opt_end - panonopt_end; ncycle = gcd(nnonopts, nopts); cyclelen = (opt_end - panonopt_start) / ncycle; for (i = 0; i < ncycle; i++) { cstart = panonopt_end+i; pos = cstart; for (j = 0; j < cyclelen; j++) { if (pos >= panonopt_end) pos -= nnonopts; else pos += nopts; swap = nargv[pos]; /* LINTED const cast */ ((char **) nargv)[pos] = nargv[cstart]; /* LINTED const cast */ ((char **)nargv)[cstart] = swap; } } } /* * parse_long_options -- * Parse long options in argc/argv argument vector. * Returns -1 if short_too is set and the option does not match long_options. */ static int parse_long_options(char * const *nargv, const char *options, const struct option *long_options, int *idx, int short_too, int flags) { char *current_argv, *has_equal; #ifdef GNU_COMPATIBLE char *current_dash; #endif size_t current_argv_len; int i, match, exact_match, second_partial_match; current_argv = place; #ifdef GNU_COMPATIBLE switch (dash_prefix) { case D_PREFIX: current_dash = "-"; break; case DD_PREFIX: current_dash = "--"; break; case W_PREFIX: current_dash = "-W "; break; default: current_dash = ""; break; } #endif match = -1; exact_match = 0; second_partial_match = 0; optind++; if ((has_equal = strchr(current_argv, '=')) != NULL) { /* argument found (--option=arg) */ current_argv_len = has_equal - current_argv; has_equal++; } else current_argv_len = strlen(current_argv); for (i = 0; long_options[i].name; i++) { /* find matching long option */ if (strncmp(current_argv, long_options[i].name, current_argv_len)) continue; if (strlen(long_options[i].name) == current_argv_len) { /* exact match */ match = i; exact_match = 1; break; } /* * If this is a known short option, don't allow * a partial match of a single character. */ if (short_too && current_argv_len == 1) continue; if (match == -1) /* first partial match */ match = i; else if ((flags & FLAG_LONGONLY) || long_options[i].has_arg != long_options[match].has_arg || long_options[i].flag != long_options[match].flag || long_options[i].val != long_options[match].val) second_partial_match = 1; } if (!exact_match && second_partial_match) { /* ambiguous abbreviation */ if (PRINT_ERROR) warnx(ambig, #ifdef GNU_COMPATIBLE current_dash, #endif (int)current_argv_len, current_argv); optopt = 0; return (BADCH); } if (match != -1) { /* option found */ if (long_options[match].has_arg == no_argument && has_equal) { if (PRINT_ERROR) warnx(noarg, #ifdef GNU_COMPATIBLE current_dash, #endif (int)current_argv_len, current_argv); /* * XXX: GNU sets optopt to val regardless of flag */ if (long_options[match].flag == NULL) optopt = long_options[match].val; else optopt = 0; #ifdef GNU_COMPATIBLE return (BADCH); #else return (BADARG); #endif } if (long_options[match].has_arg == required_argument || long_options[match].has_arg == optional_argument) { if (has_equal) optarg = has_equal; else if (long_options[match].has_arg == required_argument) { /* * optional argument doesn't use next nargv */ optarg = nargv[optind++]; } } if ((long_options[match].has_arg == required_argument) && (optarg == NULL)) { /* * Missing argument; leading ':' indicates no error * should be generated. */ if (PRINT_ERROR) warnx(recargstring, #ifdef GNU_COMPATIBLE current_dash, #endif current_argv); /* * XXX: GNU sets optopt to val regardless of flag */ if (long_options[match].flag == NULL) optopt = long_options[match].val; else optopt = 0; --optind; return (BADARG); } } else { /* unknown option */ if (short_too) { --optind; return (-1); } if (PRINT_ERROR) warnx(illoptstring, #ifdef GNU_COMPATIBLE current_dash, #endif current_argv); optopt = 0; return (BADCH); } if (idx) *idx = match; if (long_options[match].flag) { *long_options[match].flag = long_options[match].val; return (0); } else return (long_options[match].val); } /* * getopt_internal -- * Parse argc/argv argument vector. Called by user level routines. */ static int getopt_internal(int nargc, char * const *nargv, const char *options, const struct option *long_options, int *idx, int flags) { char *oli; /* option letter list index */ int optchar, short_too; int posixly_correct; /* no static, can be changed on the fly */ if (options == NULL) return (-1); /* * Disable GNU extensions if POSIXLY_CORRECT is set or options * string begins with a '+'. */ posixly_correct = (getenv("POSIXLY_CORRECT") != NULL); #ifdef GNU_COMPATIBLE if (*options == '-') flags |= FLAG_ALLARGS; else if (posixly_correct || *options == '+') flags &= ~FLAG_PERMUTE; #else if (posixly_correct || *options == '+') flags &= ~FLAG_PERMUTE; else if (*options == '-') flags |= FLAG_ALLARGS; #endif if (*options == '+' || *options == '-') options++; /* * XXX Some GNU programs (like cvs) set optind to 0 instead of * XXX using optreset. Work around this braindamage. */ if (optind == 0) optind = optreset = 1; optarg = NULL; if (optreset) nonopt_start = nonopt_end = -1; start: if (optreset || !*place) { /* update scanning pointer */ optreset = 0; if (optind >= nargc) { /* end of argument vector */ place = EMSG; if (nonopt_end != -1) { /* do permutation, if we have to */ permute_args(nonopt_start, nonopt_end, optind, nargv); optind -= nonopt_end - nonopt_start; } else if (nonopt_start != -1) { /* * If we skipped non-options, set optind * to the first of them. */ optind = nonopt_start; } nonopt_start = nonopt_end = -1; return (-1); } if (*(place = nargv[optind]) != '-' || #ifdef GNU_COMPATIBLE place[1] == '\0') { #else (place[1] == '\0' && strchr(options, '-') == NULL)) { #endif place = EMSG; /* found non-option */ if (flags & FLAG_ALLARGS) { /* * GNU extension: * return non-option as argument to option 1 */ optarg = nargv[optind++]; return (INORDER); } if (!(flags & FLAG_PERMUTE)) { /* * If no permutation wanted, stop parsing * at first non-option. */ return (-1); } /* do permutation */ if (nonopt_start == -1) nonopt_start = optind; else if (nonopt_end != -1) { permute_args(nonopt_start, nonopt_end, optind, nargv); nonopt_start = optind - (nonopt_end - nonopt_start); nonopt_end = -1; } optind++; /* process next argument */ goto start; } if (nonopt_start != -1 && nonopt_end == -1) nonopt_end = optind; /* * If we have "-" do nothing, if "--" we are done. */ if (place[1] != '\0' && *++place == '-' && place[1] == '\0') { optind++; place = EMSG; /* * We found an option (--), so if we skipped * non-options, we have to permute. */ if (nonopt_end != -1) { permute_args(nonopt_start, nonopt_end, optind, nargv); optind -= nonopt_end - nonopt_start; } nonopt_start = nonopt_end = -1; return (-1); } } /* * Check long options if: * 1) we were passed some * 2) the arg is not just "-" * 3) either the arg starts with -- we are getopt_long_only() */ if (long_options != NULL && place != nargv[optind] && (*place == '-' || (flags & FLAG_LONGONLY))) { short_too = 0; #ifdef GNU_COMPATIBLE dash_prefix = D_PREFIX; #endif if (*place == '-') { place++; /* --foo long option */ #ifdef GNU_COMPATIBLE dash_prefix = DD_PREFIX; #endif } else if (*place != ':' && strchr(options, *place) != NULL) short_too = 1; /* could be short option too */ optchar = parse_long_options(nargv, options, long_options, idx, short_too, flags); if (optchar != -1) { place = EMSG; return (optchar); } } if ((optchar = (int)*place++) == (int)':' || (optchar == (int)'-' && *place != '\0') || (oli = strchr(options, optchar)) == NULL) { /* * If the user specified "-" and '-' isn't listed in * options, return -1 (non-option) as per POSIX. * Otherwise, it is an unknown option character (or ':'). */ if (optchar == (int)'-' && *place == '\0') return (-1); if (!*place) ++optind; #ifdef GNU_COMPATIBLE if (PRINT_ERROR) warnx(posixly_correct ? illoptchar : gnuoptchar, optchar); #else if (PRINT_ERROR) warnx(illoptchar, optchar); #endif optopt = optchar; return (BADCH); } if (long_options != NULL && optchar == 'W' && oli[1] == ';') { /* -W long-option */ if (*place) /* no space */ /* NOTHING */; else if (++optind >= nargc) { /* no arg */ place = EMSG; if (PRINT_ERROR) warnx(recargchar, optchar); optopt = optchar; return (BADARG); } else /* white space */ place = nargv[optind]; #ifdef GNU_COMPATIBLE dash_prefix = W_PREFIX; #endif optchar = parse_long_options(nargv, options, long_options, idx, 0, flags); place = EMSG; return (optchar); } if (*++oli != ':') { /* doesn't take argument */ if (!*place) ++optind; } else { /* takes (optional) argument */ optarg = NULL; if (*place) /* no white space */ optarg = place; else if (oli[1] != ':') { /* arg not optional */ if (++optind >= nargc) { /* no arg */ place = EMSG; if (PRINT_ERROR) warnx(recargchar, optchar); optopt = optchar; return (BADARG); } else optarg = nargv[optind]; } place = EMSG; ++optind; } /* dump back option letter */ return (optchar); } #ifdef REPLACE_GETOPT /* * getopt -- * Parse argc/argv argument vector. * * [eventually this will replace the BSD getopt] */ int getopt(int nargc, char * const *nargv, const char *options) { /* * We don't pass FLAG_PERMUTE to getopt_internal() since * the BSD getopt(3) (unlike GNU) has never done this. * * Furthermore, since many privileged programs call getopt() * before dropping privileges it makes sense to keep things * as simple (and bug-free) as possible. */ return (getopt_internal(nargc, nargv, options, NULL, NULL, 0)); } #endif /* REPLACE_GETOPT */ /* * getopt_long -- * Parse argc/argv argument vector. */ int getopt_long(int nargc, char * const *nargv, const char *options, const struct option *long_options, int *idx) { return (getopt_internal(nargc, nargv, options, long_options, idx, FLAG_PERMUTE)); } /* * getopt_long_only -- * Parse argc/argv argument vector. */ int getopt_long_only(int nargc, char * const *nargv, const char *options, const struct option *long_options, int *idx) { return (getopt_internal(nargc, nargv, options, long_options, idx, FLAG_PERMUTE|FLAG_LONGONLY)); } PDL-IO-Matlab-release-0.005/matio-1.5.0/matio.pc.in000066400000000000000000000003631206363665300211040ustar00rootroot00000000000000prefix=@prefix@ exec_prefix=@exec_prefix@ libdir=@libdir@ includedir=@includedir@ Name: MATIO Description: MATIO Library Version: @VERSION@ Libs: -L${libdir} -lmatio @HDF5_LIBS@ @ZLIB_LIBS@ Cflags: -I${includedir} @HDF5_CFLAGS@ @ZLIB_CFLAGS@ PDL-IO-Matlab-release-0.005/matio-1.5.0/patches/000077500000000000000000000000001206363665300204675ustar00rootroot00000000000000PDL-IO-Matlab-release-0.005/matio-1.5.0/patches/inflate.patch000066400000000000000000000017351206363665300231400ustar00rootroot00000000000000*** inflate.c Sun Oct 3 19:33:51 2004 --- inflate-1.2.2p1.c Tue May 24 21:31:00 2005 *************** *** 1263,1270 **** /* copy state */ *dest = *source; 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\ rm -f libmatio.ps; \ curdir=`pwd`; \ cd $(srcdir); \ for f in $$list; do \ enscript -2 -G -r -Ec --color -o - $$f >> $$curdir/libmatio.ps;\ done; \ cd $$curdir # Tell versions [3.59,3.63) of GNU make to not export all variables. # Otherwise a system limit (for SysV at least) may be exceeded. .NOEXPORT: PDL-IO-Matlab-release-0.005/matio-1.5.0/src/endian.c000066400000000000000000000126231206363665300212350ustar00rootroot00000000000000/** @file endian.c * @brief Functions to handle endian specifics */ /* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include "matio_private.h" /** @brief swap the bytes @c a and @c b * @ingroup mat_internal */ #define swap(a,b) a^=b;b^=a;a^=b #ifdef HAVE_MAT_INT64_T /** @brief swap the bytes of a 64-bit signed integer * @ingroup mat_internal * @param a pointer to integer to swap * @return the swapped integer */ mat_int64_t Mat_int64Swap( mat_int64_t *a ) { union { mat_int8_t i1[8]; mat_int64_t i8; } tmp; tmp.i8 = *a; swap( tmp.i1[0], tmp.i1[7] ); swap( tmp.i1[1], tmp.i1[6] ); swap( tmp.i1[2], tmp.i1[5] ); swap( tmp.i1[3], tmp.i1[4] ); *a = tmp.i8; return *a; } #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T /** @brief swap the bytes of a 64-bit unsigned integer * @ingroup mat_internal * @param a pointer to integer to swap * @return the swapped integer */ mat_uint64_t Mat_uint64Swap( mat_uint64_t *a ) { union { mat_uint8_t i1[8]; mat_uint64_t i8; } tmp; tmp.i8 = *a; swap( tmp.i1[0], tmp.i1[7] ); swap( tmp.i1[1], tmp.i1[6] ); swap( tmp.i1[2], tmp.i1[5] ); swap( tmp.i1[3], tmp.i1[4] ); *a = tmp.i8; return *a; } #endif /* HAVE_MAT_UINT64_T */ /** @brief swap the bytes of a 32-bit signed integer * @ingroup mat_internal * @param a pointer to integer to swap * @return the swapped integer */ mat_int32_t Mat_int32Swap( mat_int32_t *a ) { union { mat_int8_t i1[4]; mat_int32_t i4; } tmp; tmp.i4 = *a; swap( tmp.i1[0], tmp.i1[3] ); swap( tmp.i1[1], tmp.i1[2] ); *a = tmp.i4; return *a; } /** @brief swap the bytes of a 32-bit unsigned integer * @ingroup mat_internal * @param a pointer to integer to swap * @return the swapped integer */ mat_uint32_t Mat_uint32Swap( mat_uint32_t *a ) { union { mat_uint8_t i1[4]; mat_uint32_t i4; } tmp; tmp.i4 = *a; swap( tmp.i1[0], tmp.i1[3] ); swap( tmp.i1[1], tmp.i1[2] ); *a = tmp.i4; return *a; } /** @brief swap the bytes of a 16-bit signed integer * @ingroup mat_internal * @param a pointer to integer to swap * @return the swapped integer */ mat_int16_t Mat_int16Swap( mat_int16_t *a ) { union { mat_int8_t i1[2]; mat_int16_t i2; } tmp; tmp.i2 = *a; swap( tmp.i1[0], tmp.i1[1] ); *a = tmp.i2; return *a; } /** @brief swap the bytes of a 16-bit unsigned integer * @ingroup mat_internal * @param a pointer to integer to swap * @return the swapped integer */ mat_uint16_t Mat_uint16Swap( mat_uint16_t *a ) { union { mat_uint8_t i1[2]; mat_uint16_t i2; } tmp; tmp.i2 = *a; swap( tmp.i1[0], tmp.i1[1] ); *a = tmp.i2; return *a; } /** @brief swap the bytes of a 4 byte single-precision float * @ingroup mat_internal * @param a pointer to integer to swap * @return the swapped integer */ float Mat_floatSwap( float *a ) { union { char i1[4]; float r4; } tmp; tmp.r4 = *a; swap( tmp.i1[0], tmp.i1[3] ); swap( tmp.i1[1], tmp.i1[2] ); *a = tmp.r4; return *a; } /** @brief swap the bytes of a 4 or 8 byte double-precision float * @ingroup mat_internal * @param a pointer to integer to swap * @return the swapped integer */ double Mat_doubleSwap( double *a ) { #ifndef SIZEOF_DOUBLE #define SIZEOF_DOUBLE 8 #endif union { char a[SIZEOF_DOUBLE]; double b; } tmp; tmp.b = *a; #if SIZEOF_DOUBLE == 4 swap( tmp.a[0], tmp.a[3] ); swap( tmp.a[1], tmp.a[2] ); #elif SIZEOF_DOUBLE == 8 swap( tmp.a[0], tmp.a[7] ); swap( tmp.a[1], tmp.a[6] ); swap( tmp.a[2], tmp.a[5] ); swap( tmp.a[3], tmp.a[4] ); #elif SIZEOF_DOUBLE == 16 swap( tmp.a[0], tmp.a[15] ); swap( tmp.a[1], tmp.a[14] ); swap( tmp.a[2], tmp.a[13] ); swap( tmp.a[3], tmp.a[12] ); swap( tmp.a[4], tmp.a[11] ); swap( tmp.a[5], tmp.a[10] ); swap( tmp.a[6], tmp.a[9] ); swap( tmp.a[7], tmp.a[8] ); #endif *a = tmp.b; return *a; } PDL-IO-Matlab-release-0.005/matio-1.5.0/src/inflate.c000066400000000000000000000646211206363665300214260ustar00rootroot00000000000000/** @file inflate.c * @brief Functions to inflate data/tags * @ingroup MAT */ /* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include "matio_private.h" #if HAVE_ZLIB /** @cond mat_devman */ /** @brief Inflate the data until @c nbytes of uncompressed data has been * inflated * * @ingroup mat_internal * @param mat Pointer to the MAT file * @param z zlib compression stream * @param nbytes Number of uncompressed bytes to skip * @return Number of bytes read from the file */ int InflateSkip(mat_t *mat, z_stream *z, int nbytes) { mat_uint8_t comp_buf[512],uncomp_buf[512]; int bytesread = 0, n,err, cnt = 0; if ( nbytes < 1 ) return 0; n = (nbytes<512) ? nbytes : 512; if ( !z->avail_in ) { z->next_in = comp_buf; z->avail_in += fread(comp_buf,1,n,mat->fp); bytesread += z->avail_in; } z->avail_out = n; z->next_out = uncomp_buf; err = inflate(z,Z_FULL_FLUSH); if ( err == Z_STREAM_END ) { return bytesread; } else if ( err != Z_OK ) { Mat_Critical("InflateSkip: inflate returned %d",err); return bytesread; } if ( !z->avail_out ) { cnt += n; n = ((nbytes-cnt)<512) ? nbytes-cnt : 512; z->avail_out = n; z->next_out = uncomp_buf; } while ( cnt < nbytes ) { if ( !z->avail_in ) { z->next_in = comp_buf; z->avail_in += fread(comp_buf,1,n,mat->fp); bytesread += z->avail_in; } err = inflate(z,Z_FULL_FLUSH); if ( err == Z_STREAM_END ) { break; } else if ( err != Z_OK ) { Mat_Critical("InflateSkip: inflate returned %d",err); break; } if ( !z->avail_out ) { cnt += n; n = ((nbytes-cnt)<512) ? nbytes-cnt : 512; z->avail_out = n; z->next_out = uncomp_buf; } } if ( z->avail_in ) { long offset = -(long)z->avail_in; fseek(mat->fp,offset,SEEK_CUR); bytesread -= z->avail_in; z->avail_in = 0; } return bytesread; } /** @brief Inflate the data until @c nbytes of compressed data has been * inflated * * @ingroup mat_internal * @param mat Pointer to the MAT file * @param z zlib compression stream * @param nbytes Number of uncompressed bytes to skip * @return Number of bytes read from the file */ int InflateSkip2(mat_t *mat, matvar_t *matvar, int nbytes) { mat_uint8_t comp_buf[32],uncomp_buf[32]; int bytesread = 0, err, cnt = 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = 1; matvar->internal->z->next_out = uncomp_buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateSkip2: %s - inflate returned %d",matvar->name,err); return bytesread; } if ( !matvar->internal->z->avail_out ) { matvar->internal->z->avail_out = 1; matvar->internal->z->next_out = uncomp_buf; } while ( cnt < nbytes ) { if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); cnt++; } err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateSkip2: %s - inflate returned %d",matvar->name,err); return bytesread; } if ( !matvar->internal->z->avail_out ) { matvar->internal->z->avail_out = 1; matvar->internal->z->next_out = uncomp_buf; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /** @brief Inflate the data until @c len elements of compressed data with data * type @c data_type has been inflated * * @ingroup mat_internal * @param mat Pointer to the MAT file * @param z zlib compression stream * @param data_type Data type (matio_types enumerations) * @param len Number of elements of datatype @c data_type to skip * @return Number of bytes read from the file */ int InflateSkipData(mat_t *mat,z_stream *z,enum matio_types data_type,int len) { int data_size = 0; if ( (mat == NULL) || (z == NULL) ) return 0; else if ( len < 1 ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: data_size = sizeof(double); break; case MAT_T_SINGLE: data_size = sizeof(float); break; #ifdef HAVE_MAT_INT64_T case MAT_T_INT64: data_size = sizeof(mat_int64_t); break; #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T case MAT_T_UINT64: data_size = sizeof(mat_uint64_t); break; #endif /* HAVE_MAT_UINT64_T */ case MAT_T_INT32: data_size = sizeof(mat_int32_t); break; case MAT_T_UINT32: data_size = sizeof(mat_uint32_t); break; case MAT_T_INT16: data_size = sizeof(mat_int16_t); break; case MAT_T_UINT16: data_size = sizeof(mat_uint16_t); break; case MAT_T_UINT8: data_size = sizeof(mat_uint8_t); break; case MAT_T_INT8: data_size = sizeof(mat_int8_t); break; } InflateSkip(mat,z,len*data_size); return len; } /** @brief Inflates the variable's tag. * * @c buf must hold at least 8 bytes * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the 8-byte variable tag * @return Number of bytes read from the file */ int InflateVarTag(mat_t *mat, matvar_t *matvar, void *buf) { mat_uint8_t comp_buf[32]; int bytesread = 0, err; if (buf == NULL) return 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = 8; matvar->internal->z->next_out = buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateVarTag: inflate returned %d",err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateVarTag: inflate returned %d",err); return bytesread; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /** @brief Inflates the Array Flags Tag and the Array Flags data. * * @c buf must hold at least 16 bytes * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the 16-byte array flags tag and data * @return Number of bytes read from the file */ int InflateArrayFlags(mat_t *mat, matvar_t *matvar, void *buf) { mat_uint8_t comp_buf[32]; int bytesread = 0, err; if (buf == NULL) return 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = 16; matvar->internal->z->next_out = buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateArrayFlags: inflate returned %d",err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateArrayFlags: inflate returned %d",err); return bytesread; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /** @brief Inflates the dimensions tag and the dimensions data * * @c buf must hold at least (8+4*rank) bytes where rank is the number of * dimensions. If the end of the dimensions data is not aligned on an 8-byte * boundary, this function eats up those bytes and stores then in @c buf. * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the dimensions flag and data * @return Number of bytes read from the file */ int InflateDimensions(mat_t *mat, matvar_t *matvar, void *buf) { mat_uint8_t comp_buf[32]; mat_int32_t tag[2]; int bytesread = 0, err, rank, i; if ( buf == NULL ) return 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = 8; matvar->internal->z->next_out = buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateDimensions: inflate returned %d",err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateDimensions: inflate returned %d",err); return bytesread; } } tag[0] = *(int *)buf; tag[1] = *((int *)buf+1); if ( mat->byteswap ) { Mat_int32Swap(tag); Mat_int32Swap(tag+1); } if ( (tag[0] & 0x0000ffff) != MAT_T_INT32 ) { Mat_Critical("InflateDimensions: Reading dimensions expected type MAT_T_INT32"); return bytesread; } rank = tag[1]; if ( rank % 8 != 0 ) i = 8-(rank %8); else i = 0; rank+=i; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = rank; matvar->internal->z->next_out = (void *)((mat_int32_t *)buf+2); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateDimensions: inflate returned %d",err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateDimensions: inflate returned %d",err); return bytesread; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /** @brief Inflates the variable name tag * * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the variables name tag * @return Number of bytes read from the file */ int InflateVarNameTag(mat_t *mat, matvar_t *matvar, void *buf) { mat_uint8_t comp_buf[32]; int bytesread = 0, err; if ( buf == NULL ) return 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = 8; matvar->internal->z->next_out = buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateVarNameTag: inflate returned %d",err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateVarNameTag: inflate returned %d",err); return bytesread; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /** @brief Inflates the variable name * * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the variables name * @param N Number of characters in the name * @return Number of bytes read from the file */ int InflateVarName(mat_t *mat, matvar_t *matvar, void *buf, int N) { mat_uint8_t comp_buf[32]; int bytesread = 0, err; if ( buf == NULL ) return 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = N; matvar->internal->z->next_out = buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateVarName: inflate returned %d",err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateVarName: inflate returned %d",err); return bytesread; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /** @brief Inflates the data's tag * * buf must hold at least 8 bytes * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the data tag * @return Number of bytes read from the file */ int InflateDataTag(mat_t *mat, matvar_t *matvar, void *buf) { mat_uint8_t comp_buf[32]; int bytesread = 0, err; if ( buf == NULL ) return 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = 8; matvar->internal->z->next_out = buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err == Z_STREAM_END ) { return bytesread; } else if ( err != Z_OK ) { Mat_Critical("InflateDataTag: %s - inflate returned %d",matvar->name,err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err == Z_STREAM_END ) { break; } else if ( err != Z_OK ) { Mat_Critical("InflateDataTag: %s - inflate returned %d",matvar->name,err); return bytesread; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /** @brief Inflates the data's type * * buf must hold at least 4 bytes * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the data type * @return Number of bytes read from the file */ int InflateDataType(mat_t *mat, z_stream *z, void *buf) { mat_uint8_t comp_buf[32]; int bytesread = 0, err; if ( buf == NULL ) return 0; if ( !z->avail_in ) { z->avail_in = 1; z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } z->avail_out = 4; z->next_out = buf; err = inflate(z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateDataType: inflate returned %d",err); return bytesread; } while ( z->avail_out && !z->avail_in ) { z->avail_in = 1; z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateDataType: inflate returned %d",err); return bytesread; } } if ( z->avail_in ) { fseek(mat->fp,-(int)z->avail_in,SEEK_CUR); bytesread -= z->avail_in; z->avail_in = 0; } return bytesread; } /** @brief Inflates the data * * buf must hold at least @c nBytes bytes * @ingroup mat_internal * @param mat Pointer to the MAT file * @param z zlib compression stream * @param buf Pointer to store the data type * @param nBytes Number of bytes to inflate * @return Number of bytes read from the file */ int InflateData(mat_t *mat, z_stream *z, void *buf, int nBytes) { mat_uint8_t comp_buf[1024]; int bytesread = 0, err; if ( buf == NULL ) return 0; if ( nBytes < 1 ) { Mat_Critical("InflateData: nBytes must be > 0"); return bytesread; } if ( !z->avail_in ) { if ( nBytes > 1024 ) { z->avail_in = fread(comp_buf,1,1024,mat->fp); bytesread += z->avail_in; z->next_in = comp_buf; } else { z->avail_in = fread(comp_buf,1,nBytes,mat->fp); bytesread += z->avail_in; z->next_in = comp_buf; } } z->avail_out = nBytes; z->next_out = buf; err = inflate(z,Z_FULL_FLUSH); if ( err == Z_STREAM_END ) { return bytesread; } else if ( err != Z_OK ) { Mat_Critical("InflateData: inflate returned %d",err); return bytesread; } while ( z->avail_out && !z->avail_in ) { if ( (nBytes-bytesread) > 1024 ) { z->avail_in = fread(comp_buf,1,1024,mat->fp); bytesread += z->avail_in; z->next_in = comp_buf; } else if ( (nBytes-bytesread) < 1 ) { /* Read a byte at a time */ z->avail_in = fread(comp_buf,1,1,mat->fp); bytesread += z->avail_in; z->next_in = comp_buf; } else { z->avail_in = fread(comp_buf,1,nBytes-bytesread,mat->fp); bytesread += z->avail_in; z->next_in = comp_buf; } err = inflate(z,Z_FULL_FLUSH); if ( err == Z_STREAM_END ) { break; } else if ( err != Z_OK && err != Z_BUF_ERROR ) { Mat_Critical("InflateData: inflate returned %d",err); break; } } if ( z->avail_in ) { long offset = -(long)z->avail_in; fseek(mat->fp,offset,SEEK_CUR); bytesread -= z->avail_in; z->avail_in = 0; } return bytesread; } /** @brief Inflates the structure's fieldname length * * buf must hold at least 8 bytes * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the fieldname length * @return Number of bytes read from the file */ int InflateFieldNameLength(mat_t *mat, matvar_t *matvar, void *buf) { mat_uint8_t comp_buf[32]; int bytesread = 0, err; if ( buf == NULL ) return 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = 8; matvar->internal->z->next_out = buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateFieldNameLength: inflate returned %d",err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateFieldNameLength: inflate returned %d",err); return bytesread; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /** @brief Inflates the structure's fieldname tag * * buf must hold at least 8 bytes * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the fieldname tag * @return Number of bytes read from the file */ int InflateFieldNamesTag(mat_t *mat, matvar_t *matvar, void *buf) { mat_uint8_t comp_buf[32]; int bytesread = 0, err; if ( buf == NULL ) return 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = 8; matvar->internal->z->next_out = buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateFieldNamesTag: inflate returned %d",err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateFieldNamesTag: inflate returned %d",err); return bytesread; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /* * Inflates the structure's fieldname length. buf must hold at least * nfields*fieldname_length bytes */ /** @brief Inflates the structure's fieldnames * * buf must hold at least @c nfields * @c fieldname_length bytes * @ingroup mat_internal * @param mat Pointer to the MAT file * @param matvar Pointer to the MAT variable * @param buf Pointer to store the fieldnames * @param nfields Number of fields * @param fieldname_length Maximum length in bytes of each field * @param padding Number of padding bytes * @return Number of bytes read from the file */ int InflateFieldNames(mat_t *mat,matvar_t *matvar,void *buf,int nfields, int fieldname_length,int padding) { mat_uint8_t comp_buf[32]; int bytesread = 0, err; if ( buf == NULL ) return 0; if ( !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); } matvar->internal->z->avail_out = nfields*fieldname_length+padding; matvar->internal->z->next_out = buf; err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateFieldNames: inflate returned %d",err); return bytesread; } while ( matvar->internal->z->avail_out && !matvar->internal->z->avail_in ) { matvar->internal->z->avail_in = 1; matvar->internal->z->next_in = comp_buf; bytesread += fread(comp_buf,1,1,mat->fp); err = inflate(matvar->internal->z,Z_NO_FLUSH); if ( err != Z_OK ) { Mat_Critical("InflateFieldNames: inflate returned %d",err); return bytesread; } } if ( matvar->internal->z->avail_in ) { fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); bytesread -= matvar->internal->z->avail_in; matvar->internal->z->avail_in = 0; } return bytesread; } /** @endcond */ #endif PDL-IO-Matlab-release-0.005/matio-1.5.0/src/io.c000066400000000000000000000271751206363665300204160ustar00rootroot00000000000000/** @file io.c * MAT File I/O Utility Functions */ /* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include "matio_private.h" #if !defined(HAVE_VA_COPY) && defined(HAVE___VA_COPY) # define va_copy(d,s) __va_copy(d,s) #elif !defined(HAVE_VA_COPY) # define va_copy(d,s) memcpy(&(d),&(s),sizeof(va_list)) #endif #ifndef HAVE_VSNPRINTF # define vsnprintf mat_vsnprintf # ifdef __cplusplus extern "C" int vsnprintf(char *,size_t,const char *,va_list); # else extern int vsnprintf(char *,size_t,const char *,va_list); # endif #endif #ifndef HAVE_SNPRINTF # define snprintf mat_snprintf # ifdef __cplusplus extern "C" int snprintf(char *str,size_t size,const char *format,...); # else extern int snprintf(char *str,size_t size,const char *format,...); # endif #endif #ifndef HAVE_VASPRINTF # define vasprintf mat_vasprintf #endif #ifndef HAVE_ASPRINTF # define asprintf mat_asprintf #endif /** @cond 0 */ #define LOG_LEVEL_ERROR 1 #define LOG_LEVEL_CRITICAL 1 << 1 #define LOG_LEVEL_WARNING 1 << 2 #define LOG_LEVEL_MESSAGE 1 << 3 #define LOG_LEVEL_DEBUG 1 << 4 /** @endcond */ static void (*logfunc)(int log_level, char *message ) = NULL; static const char *progname = NULL; /** @brief Allocates and prints to a new string * * @ingroup mat_util * @param format format string * @param ap variable argument list * @return Newly allocated string with format printed to it */ char * strdup_vprintf(const char* format, va_list ap) { va_list ap2; int size; char* buffer; va_copy(ap2, ap); size = vsnprintf(NULL, 0, format, ap2)+1; va_end(ap2); buffer = malloc(size+1); if ( !buffer ) return NULL; vsnprintf(buffer, size, format, ap); return buffer; } /** @brief Allocates and prints to a new string using printf format * * @ingroup mat_util * @param format format string * @return Pointer to resulting string, or NULL if there was an error */ char * strdup_printf(const char* format, ...) { char* buffer; va_list ap; va_start(ap, format); buffer = strdup_vprintf(format, ap); va_end(ap); return buffer; } static void matio_error_func( int log_level, char *message ) { if ( progname ) { if ( log_level & LOG_LEVEL_CRITICAL) { fprintf(stderr,"-E- %s: %s\n", progname, message); fflush(stderr); } else if ( log_level & LOG_LEVEL_ERROR ) { fprintf(stderr,"-E- %s: %s\n", progname, message); fflush(stderr); abort(); } else if ( log_level & LOG_LEVEL_WARNING ) { fprintf(stderr,"-W- %s: %s\n", progname, message); fflush(stderr); } else if ( log_level & LOG_LEVEL_DEBUG ) { fprintf(stderr,"-D- %s: %s\n", progname, message); fflush(stderr); } else if ( log_level & LOG_LEVEL_MESSAGE ) { fprintf(stdout,"%s\n", message); fflush(stdout); } } else { if ( log_level & LOG_LEVEL_CRITICAL) { fprintf(stderr,"-E- : %s\n", message); fflush(stderr); } else if ( log_level & LOG_LEVEL_ERROR ) { fprintf(stderr,"-E- : %s\n", message); fflush(stderr); abort(); } else if ( log_level & LOG_LEVEL_WARNING ) { fprintf(stderr,"-W- : %s\n", message); fflush(stderr); } else if ( log_level & LOG_LEVEL_DEBUG ) { fprintf(stderr,"-D- : %s\n", message); fflush(stderr); } else if ( log_level & LOG_LEVEL_MESSAGE ) { fprintf(stdout,"%s\n", message); fflush(stdout); } } } static void mat_log(int loglevel, const char *format, va_list ap) { char* buffer; if ( !logfunc ) return; buffer = strdup_vprintf(format, ap); (*logfunc)(loglevel,buffer); free(buffer); return; } /** @var debug * @brief holds the verbose level set in @ref SetVerbose * This variable is used to determine if information should be printed to * the screen * @ingroup mat_util */ static int debug = 0; /** @var verbose * @brief holds the verbose level set in @ref SetVerbose * This variable is used to determine if information should be printed to * the screen * @ingroup mat_util */ static int verbose = 0; /** @var silent * @brief holds the silent level set in @ref SetVerbose * If set, all output which is not an error is not displayed regardless * of verbose level * @ingroup mat_util */ static int silent = 0; /** @brief Sets verbose parameters * * Sets the verbose level and silent level. These values are used by * programs to determine what information should be printed to the screen * @ingroup mat_util * @param verb sets logging verbosity level * @param s sets logging silent level */ int Mat_SetVerbose( int verb, int s ) { verbose = verb; silent = s; return 0; } /** @brief Sets verbose parameters * * Sets the verbose level and silent level. These values are used by * programs to determine what information should be printed to the screen * @ingroup mat_util * @param verb sets logging verbosity level * @param s sets logging silent level */ int Mat_SetDebug( int d ) { debug = d; return 0; } /** @brief Log a message unless silent * * Logs the message unless the silent option is set (See @ref SetVerbose). * To log a message based on the verbose level, use @ref Mat_VerbMessage * @ingroup mat_util * @param format message format */ int Mat_Message( const char *format, ... ) { va_list ap; if ( silent ) return 0; if ( !logfunc ) return 0; va_start(ap, format ); mat_log(LOG_LEVEL_MESSAGE, format, ap ); va_end(ap); return 0; } /** @brief Log a message based on verbose level * * If @e level is less than or equal to the set verbose level, the message * is printed. If the level is higher than the set verbose level nothing * is displayed. * @ingroup mat_util * @param level verbose level * @param format message format */ int Mat_DebugMessage( int level, const char *format, ... ) { va_list ap; if ( silent ) return 0; if ( level > debug ) return 0; va_start(ap, format ); mat_log(LOG_LEVEL_DEBUG, format, ap ); va_end(ap); return 0; } /** @brief Log a message based on verbose level * * If @e level is less than or equal to the set verbose level, the message * is printed. If the level is higher than the set verbose level nothing * is displayed. * @ingroup mat_util * @param level verbose level * @param format message format */ int Mat_VerbMessage( int level, const char *format, ... ) { va_list ap; if ( silent ) return 0; if ( level > verbose ) return 0; va_start(ap, format ); mat_log(LOG_LEVEL_MESSAGE, format, ap ); va_end(ap); return 0; } /** @brief Logs a Critical message and returns to the user * * Logs a Critical message and returns to the user. If the program should * stop running, use @ref Mat_Error * @ingroup mat_util * @param format format string identical to printf format * @param ... arguments to the format string */ void Mat_Critical( const char *format, ... ) { va_list ap; va_start(ap, format ); mat_log(LOG_LEVEL_CRITICAL, format, ap ); va_end(ap); } /** @brief Logs a Critical message and aborts the program * * Logs an Error message and aborts * @ingroup mat_util * @param format format string identical to printf format * @param ... arguments to the format string */ void Mat_Error( const char *format, ... ) { va_list ap; va_start(ap, format ); mat_log( LOG_LEVEL_ERROR, format, ap ); va_end(ap); } /** @brief Prints a helpstring to stdout and exits with status 1 * * Prints the array of strings to stdout and exits with status 1. The array * of strings should have NULL as its last element * @code * char *helpstr[] = {"My Help string line1","My help string line 2",NULL}; * Mat_Help(helpstr); * @endcode * @ingroup mat_util * @param helpstr array of strings with NULL as its last element */ void Mat_Help( const char *helpstr[] ) { int i; for (i = 0; helpstr[i] != NULL; i++) printf("%s\n",helpstr[i]); exit(EXIT_SUCCESS); } /** @brief Closes the logging system * * @ingroup mat_util * @retval 1 */ int Mat_LogClose( void ) { logfunc = NULL; return 1; } /** @brief Intializes the logging system * * @ingroup mat_util * @param prog_name Name of the program initializing the logging functions * @return 0 on success */ int Mat_LogInit( const char *prog_name ) { logfunc = &matio_error_func; verbose = 0; silent = 0; return 0; } /** @brief Intializes the logging system * * @ingroup mat_util * @param prog_name Name of the program initializing the logging functions * @param log_func pointer to the function to do the logging * @return 0 on success */ int Mat_LogInitFunc(const char *prog_name, void (*log_func)(int log_level,char *message)) { logfunc = log_func; progname = prog_name; verbose = 0; silent = 0; return 0; } /** @brief Prints a warning message to stdout * * Logs a warning message then returns * @ingroup mat_util * @param format format string identical to printf format * @param ... arguments to the format string */ void Mat_Warning( const char *format, ... ) { va_list ap; va_start(ap, format ); mat_log(LOG_LEVEL_WARNING, format, ap ); va_end(ap); } /** @brief Calculate the size of MAT data types * * @ingroup mat_util * @param data_type Data type enumeration * @return size of the data type in bytes */ size_t Mat_SizeOf(enum matio_types data_type) { switch (data_type) { case MAT_T_DOUBLE: return sizeof(double); case MAT_T_SINGLE: return sizeof(float); #ifdef HAVE_MAT_INT64_T case MAT_T_INT64: return sizeof(mat_int64_t); #endif #ifdef HAVE_MAT_INT64_T case MAT_T_UINT64: return sizeof(mat_uint64_t); #endif case MAT_T_INT32: return sizeof(mat_int32_t); case MAT_T_UINT32: return sizeof(mat_uint32_t); case MAT_T_INT16: return sizeof(mat_int16_t); case MAT_T_UINT16: return sizeof(mat_uint16_t); case MAT_T_INT8: return sizeof(mat_int8_t); case MAT_T_UINT8: return sizeof(mat_uint8_t); default: return 0; } } PDL-IO-Matlab-release-0.005/matio-1.5.0/src/mat.c000066400000000000000000001710061206363665300205610ustar00rootroot00000000000000/** @file mat.c * Matlab MAT version 5 file functions * @ingroup MAT */ /* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* FIXME: Implement Unicode support */ #include #include #include #include #include #include "matio_private.h" #include "mat5.h" #include "mat4.h" #if defined(MAT73) && MAT73 # include "mat73.h" #endif static void ReadData(mat_t *mat, matvar_t *matvar) { if ( mat == NULL || matvar == NULL || mat->fp == NULL ) return; else if ( mat->version == MAT_FT_MAT5 ) Read5(mat,matvar); #if defined(MAT73) && MAT73 else if ( mat->version == MAT_FT_MAT73 ) Mat_VarRead73(mat,matvar); #endif else if ( mat->version == MAT_FT_MAT4 ) Read4(mat,matvar); return; } static void Mat_PrintNumber(enum matio_types type, void *data) { switch ( type ) { case MAT_T_DOUBLE: printf("%g",*(double*)data); break; case MAT_T_SINGLE: printf("%g",*(float*)data); break; #ifdef HAVE_MAT_INT64_T case MAT_T_INT64: printf("%lld",*(mat_int64_t*)data); break; #endif #ifdef HAVE_MAT_UINT64_T case MAT_T_UINT64: printf("%llu",*(mat_uint64_t*)data); break; #endif case MAT_T_INT32: printf("%d",*(mat_int32_t*)data); break; case MAT_T_UINT32: printf("%u",*(mat_uint32_t*)data); break; case MAT_T_INT16: printf("%hd",*(mat_int16_t*)data); break; case MAT_T_UINT16: printf("%hu",*(mat_uint16_t*)data); break; case MAT_T_INT8: printf("%hhd",*(mat_int8_t*)data); break; case MAT_T_UINT8: printf("%hhu",*(mat_uint8_t*)data); break; } } /* *==================================================================== * Public Functions *==================================================================== */ /** @brief Get the version of the library * * Gets the version number of the library * @param major Pointer to store the library major version number * @param major Pointer to store the library major version number * @param major Pointer to store the library major version number */ void Mat_GetLibraryVersion(int *major,int *minor,int *release) { if ( NULL != major ) *major = MATIO_MAJOR_VERSION; if ( NULL != minor ) *minor = MATIO_MINOR_VERSION; if ( NULL != release ) *release = MATIO_RELEASE_LEVEL; } /** @brief Creates a new Matlab MAT file * * Tries to create a new Matlab MAT file with the given name and optional * header string. If no header string is given, the default string * is used containing the software, version, and date in it. If a header * string is given, at most the first 116 characters is written to the file. * The given header string need not be the full 116 characters, but MUST be * NULL terminated. * @ingroup MAT * @param matname Name of MAT file to create * @param hdr_str Optional header string, NULL to use default * @param mat_file_ver MAT file version to create * @return A pointer to the MAT file or NULL if it failed. This is not a * simple FILE * and should not be used as one. */ mat_t * Mat_CreateVer(const char *matname,const char *hdr_str,enum mat_ft mat_file_ver) { mat_t *mat; if ( MAT_FT_MAT5 == mat_file_ver ) mat = Mat_Create5(matname,hdr_str); else if ( MAT_FT_MAT73 == mat_file_ver ) #if defined(MAT73) && MAT73 mat = Mat_Create73(matname,hdr_str); #else mat = NULL; #endif else mat = Mat_Create5(matname,hdr_str); return mat; } /** @brief Opens an existing Matlab MAT file * * Tries to open a Matlab MAT file with the given name * @ingroup MAT * @param matname Name of MAT file to open * @param mode File access mode (MAT_ACC_RDONLY,MAT_ACC_RDWR,etc). * @return A pointer to the MAT file or NULL if it failed. This is not a * simple FILE * and should not be used as one. */ mat_t * Mat_Open(const char *matname,int mode) { FILE *fp = NULL; mat_int16_t tmp, tmp2; int err; mat_t *mat = NULL; if ( (mode & 0x00000001) == MAT_ACC_RDONLY ) { fp = fopen( matname, "rb" ); if ( !fp ) return NULL; } else if ( (mode & 0x00000001) == MAT_ACC_RDWR ) { fp = fopen( matname, "r+b" ); if ( !fp ) { mat = Mat_CreateVer(matname,NULL,mode&0xfffffffe); return mat; } } else { mat = Mat_CreateVer(matname,NULL,mode&0xfffffffe); return mat; } mat = malloc(sizeof(*mat)); if ( NULL == mat ) { Mat_Critical("Couldn't allocate memory for the MAT file"); fclose(fp); return NULL; } mat->fp = fp; mat->header = calloc(128,1); mat->subsys_offset = calloc(8,1); mat->filename = NULL; mat->byteswap = 0; err = fread(mat->header,1,116,fp); mat->header[116] = '\0'; err = fread(mat->subsys_offset,1,8,fp); err = fread(&tmp2,2,1,fp); fread(&tmp,1,2,fp); mat->byteswap = -1; if (tmp == 0x4d49) mat->byteswap = 0; else if (tmp == 0x494d) { mat->byteswap = 1; Mat_int16Swap(&tmp2); } mat->version = (int)tmp2; if ( (mat->version == 0x0100 || mat->version == 0x0200) && -1 != mat->byteswap ) { mat->bof = ftell(mat->fp); mat->next_index = 0; } else { /* Maybe a V4 MAT file */ matvar_t *var; if ( NULL != mat->header ) free(mat->header); if ( NULL != mat->subsys_offset ) free(mat->subsys_offset); mat->header = NULL; mat->subsys_offset = NULL; mat->fp = fp; mat->version = MAT_FT_MAT4; mat->byteswap = 0; mat->mode = mode; mat->bof = 0; mat->next_index = 0; Mat_Rewind(mat); var = Mat_VarReadNextInfo4(mat); /* Check sanity of variable information */ if ( NULL == var || NULL == var->name || (var->class_type != MAT_C_DOUBLE && var->class_type != MAT_C_SPARSE && var->class_type != MAT_C_CHAR) ) { /* Does not seem to be a valid V4 file */ Mat_Critical("%s does not seem to be a valid MAT file",matname); if ( NULL != var ) Mat_VarFree(var); Mat_Close(mat); mat = NULL; } else { Mat_VarFree(var); Mat_Rewind(mat); } } if ( NULL == mat ) return mat; mat->filename = strdup_printf("%s",matname); mat->mode = mode; if ( mat->version == 0x0200 ) { fclose(mat->fp); #if defined(MAT73) && MAT73 mat->fp = malloc(sizeof(hid_t)); if ( (mode & 0x00ff) == MAT_ACC_RDONLY ) *(hid_t*)mat->fp=H5Fopen(mat->filename,H5F_ACC_RDONLY,H5P_DEFAULT); else if ( (mode & 0x00ff) == MAT_ACC_RDWR ) *(hid_t*)mat->fp=H5Fopen(mat->filename,H5F_ACC_RDWR,H5P_DEFAULT); if ( -1 < *(hid_t*)mat->fp ) { hsize_t num_objs; H5Gget_num_objs(*(hid_t*)mat->fp,&num_objs); mat->num_datasets = num_objs; mat->refs_id = -1; } #else mat->fp = NULL; Mat_Close(mat); mat = NULL; #endif } return mat; } /** @brief Closes an open Matlab MAT file * * Closes the given Matlab MAT file and frees any memory with it. * @ingroup MAT * @param mat Pointer to the MAT file * @retval 0 */ int Mat_Close( mat_t *mat ) { if ( NULL != mat ) { #if defined(MAT73) && MAT73 if ( mat->version == 0x0200 ) { if ( mat->refs_id > -1 ) H5Gclose(mat->refs_id); H5Fclose(*(hid_t*)mat->fp); free(mat->fp); mat->fp = NULL; } #endif if ( mat->fp ) fclose(mat->fp); if ( mat->header ) free(mat->header); if ( mat->subsys_offset ) free(mat->subsys_offset); if ( mat->filename ) free(mat->filename); free(mat); } return 0; } /** @brief Gets the filename for the given MAT file * * Gets the filename for the given MAT file * @ingroup MAT * @param mat Pointer to the MAT file * @return MAT filename */ const char * Mat_GetFilename(mat_t *matfp) { const char *filename = NULL; if ( NULL != matfp ) filename = matfp->filename; return filename; } /** @brief Gets the version of the given MAT file * * Gets the version of the given MAT file * @ingroup MAT * @param mat Pointer to the MAT file * @return MAT file version */ enum mat_ft Mat_GetVersion(mat_t *matfp) { enum mat_ft file_type = 0; if ( NULL != matfp ) file_type = matfp->version; return file_type; } /** @brief Rewinds a Matlab MAT file to the first variable * * Rewinds a Matlab MAT file to the first variable * @ingroup MAT * @param mat Pointer to the MAT file * @retval 0 on success */ int Mat_Rewind( mat_t *mat ) { switch ( mat->version ) { case MAT_FT_MAT73: mat->next_index = 0; break; case MAT_FT_MAT5: fseek(mat->fp,128L,SEEK_SET); break; case MAT_FT_MAT4: fseek(mat->fp,0L,SEEK_SET); break; default: return -1; } return 0; } /** @brief Returns the size of a Matlab Class * * Returns the size (in bytes) of the matlab class class_type * @ingroup MAT * @param class_type Matlab class type (MAT_C_*) * @returns Size of the class */ size_t Mat_SizeOfClass(int class_type) { switch (class_type) { case MAT_C_DOUBLE: return sizeof(double); case MAT_C_SINGLE: return sizeof(float); #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: return sizeof(mat_int64_t); #endif #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: return sizeof(mat_uint64_t); #endif case MAT_C_INT32: return sizeof(mat_int32_t); case MAT_C_UINT32: return sizeof(mat_uint32_t); case MAT_C_INT16: return sizeof(mat_int16_t); case MAT_C_UINT16: return sizeof(mat_uint16_t); case MAT_C_INT8: return sizeof(mat_int8_t); case MAT_C_UINT8: return sizeof(mat_uint8_t); case MAT_C_CHAR: return sizeof(mat_int16_t); default: return 0; } } /* *=================================================================== * MAT Variable Functions *=================================================================== */ /** @brief Allocates memory for a new matvar_t and initializes all the fields * * @ingroup MAT * @return A newly allocated matvar_t */ matvar_t * Mat_VarCalloc(void) { matvar_t *matvar; matvar = malloc(sizeof(*matvar)); if ( NULL != matvar ) { matvar->nbytes = 0; matvar->rank = 0; matvar->data_type = MAT_T_UNKNOWN; matvar->data_size = 0; matvar->class_type = MAT_C_EMPTY; matvar->isComplex = 0; matvar->isGlobal = 0; matvar->isLogical = 0; matvar->dims = NULL; matvar->name = NULL; matvar->data = NULL; matvar->mem_conserve = 0; matvar->compression = 0; matvar->internal = malloc(sizeof(*matvar->internal)); if ( NULL == matvar->internal ) { free(matvar); matvar = NULL; } else { matvar->internal->hdf5_name = NULL; matvar->internal->hdf5_ref = 0; matvar->internal->id = -1; matvar->internal->fp = NULL; matvar->internal->fpos = 0; matvar->internal->datapos = 0; matvar->internal->fieldnames = NULL; matvar->internal->num_fields = 0; #if defined(HAVE_ZLIB) matvar->internal->z = NULL; #endif } } return matvar; } /** @brief Creates a MAT Variable with the given name and (optionally) data * * Creates a MAT variable that can be written to a Matlab MAT file with the * given name, data type, dimensions and data. Rank should always be 2 or more. * i.e. Scalar values would have rank=2 and dims[2] = {1,1}. Data type is * one of the MAT_T types. MAT adds MAT_T_STRUCT and MAT_T_CELL to create * Structures and Cell Arrays respectively. For MAT_T_STRUCT, data should be a * NULL terminated array of matvar_t * variables (i.e. for a 3x2 structure with * 10 fields, there should be 61 matvar_t * variables where the last one is * NULL). For cell arrays, the NULL termination isn't necessary. So to create * a cell array of size 3x2, data would be the address of an array of 6 * matvar_t * variables. * * EXAMPLE: * To create a struct of size 3x2 with 3 fields: * @code * int rank=2, dims[2] = {3,2}, nfields = 3; * matvar_t **vars; * * vars = malloc((3*2*nfields+1)*sizeof(matvar_t *)); * vars[0] = Mat_VarCreate(...); * : * vars[3*2*nfields-1] = Mat_VarCreate(...); * vars[3*2*nfields] = NULL; * @endcode * * EXAMPLE: * To create a cell array of size 3x2: * @code * int rank=2, dims[2] = {3,2}; * matvar_t **vars; * * vars = malloc(3*2*sizeof(matvar_t *)); * vars[0] = Mat_VarCreate(...); * : * vars[5] = Mat_VarCreate(...); * @endcode * * @ingroup MAT * @param name Name of the variable to create * @param class_type class type of the variable in Matlab(one of the mx Classes) * @param data_type data type of the variable (one of the MAT_T_ Types) * @param rank Rank of the variable * @param dims array of dimensions of the variable of size rank * @param data pointer to the data * @param opt 0, or bitwise or of the following options: * - MAT_F_DONT_COPY_DATA to just use the pointer to the data and not copy the * data itself. Note that the pointer should not be freed until you are * done with the mat variable. The Mat_VarFree function will NOT free * data that was created with MAT_F_DONT_COPY_DATA, so free it yourself. * - MAT_F_COMPLEX to specify that the data is complex. The data variable * should be a pointer to a mat_complex_split_t type. * - MAT_F_GLOBAL to assign the variable as a global variable * - MAT_F_LOGICAL to specify that it is a logical variable * @return A MAT variable that can be written to a file or otherwise used */ matvar_t * Mat_VarCreate(const char *name,enum matio_classes class_type, enum matio_types data_type,int rank,size_t *dims,void *data,int opt) { size_t i, nmemb = 1, nfields = 0, data_size; matvar_t *matvar = NULL; if (dims == NULL) return NULL; matvar = Mat_VarCalloc(); if ( NULL == matvar ) return NULL; matvar->compression = MAT_COMPRESSION_NONE; matvar->isComplex = opt & MAT_F_COMPLEX; matvar->isGlobal = opt & MAT_F_GLOBAL; matvar->isLogical = opt & MAT_F_LOGICAL; if ( name ) matvar->name = strdup_printf("%s",name); matvar->rank = rank; matvar->dims = malloc(matvar->rank*sizeof(*matvar->dims)); for ( i = 0; i < matvar->rank; i++ ) { matvar->dims[i] = dims[i]; nmemb *= dims[i]; } matvar->class_type = class_type; matvar->data_type = data_type; switch ( data_type ) { case MAT_T_INT8: data_size = 1; break; case MAT_T_UINT8: data_size = 1; break; case MAT_T_INT16: data_size = 2; break; case MAT_T_UINT16: data_size = 2; break; case MAT_T_INT64: data_size = 8; break; case MAT_T_UINT64: data_size = 8; break; case MAT_T_INT32: data_size = 4; break; case MAT_T_UINT32: data_size = 4; break; case MAT_T_SINGLE: data_size = sizeof(float); break; case MAT_T_DOUBLE: data_size = sizeof(double); break; case MAT_T_UTF8: data_size = 1; break; case MAT_T_UTF16: data_size = 2; break; case MAT_T_UTF32: data_size = 4; break; case MAT_T_CELL: data_size = sizeof(matvar_t **); break; case MAT_T_STRUCT: { matvar_t **fields; data_size = sizeof(matvar_t **); if ( data != NULL ) { fields = data; nfields = 0; while ( fields[nfields] != NULL ) nfields++; if ( nmemb ) nfields = nfields / nmemb; matvar->internal->num_fields = nfields; matvar->internal->fieldnames = calloc(nfields,sizeof(*matvar->internal->fieldnames)); for ( i = 0; i < nfields; i++ ) matvar->internal->fieldnames[i] = strdup(fields[i]->name); if ( nfields ) nmemb *= nfields; } break; } default: Mat_Error("Unrecognized data_type"); Mat_VarFree(matvar); return NULL; } if ( matvar->class_type == MAT_C_SPARSE ) { matvar->data_size = sizeof(mat_sparse_t); matvar->nbytes = matvar->data_size; } else { matvar->data_size = data_size; matvar->nbytes = nmemb*matvar->data_size; } if ( data == NULL ) { if ( MAT_C_CELL == matvar->class_type && nmemb > 0 ) matvar->data = calloc(nmemb,sizeof(matvar_t*)); else matvar->data = NULL; } else if ( opt & MAT_F_DONT_COPY_DATA ) { matvar->data = data; matvar->mem_conserve = 1; } else if ( MAT_C_SPARSE == matvar->class_type ) { mat_sparse_t *sparse_data, *sparse_data_in; sparse_data_in = data; sparse_data = malloc(sizeof(mat_sparse_t)); if ( NULL != sparse_data ) { sparse_data->nzmax = sparse_data_in->nzmax; sparse_data->nir = sparse_data_in->nir; sparse_data->njc = sparse_data_in->njc; sparse_data->ndata = sparse_data_in->ndata; sparse_data->ir = malloc(sparse_data->nir*sizeof(*sparse_data->ir)); if ( NULL != sparse_data->ir ) memcpy(sparse_data->ir,sparse_data_in->ir, sparse_data->nir*sizeof(*sparse_data->ir)); sparse_data->jc = malloc(sparse_data->njc*sizeof(*sparse_data->jc)); if ( NULL != sparse_data->jc ) memcpy(sparse_data->jc,sparse_data_in->jc, sparse_data->njc*sizeof(*sparse_data->jc)); if ( matvar->isComplex ) { sparse_data->data = malloc(sizeof(mat_complex_split_t)); if ( NULL != sparse_data->data ) { mat_complex_split_t *complex_data,*complex_data_in; complex_data = sparse_data->data; complex_data_in = sparse_data_in->data; complex_data->Re = malloc(sparse_data->ndata*data_size); complex_data->Im = malloc(sparse_data->ndata*data_size); if ( NULL != complex_data->Re ) memcpy(complex_data->Re,complex_data_in->Re, sparse_data->ndata*data_size); if ( NULL != complex_data->Im ) memcpy(complex_data->Im,complex_data_in->Im, sparse_data->ndata*data_size); } } else { sparse_data->data = malloc(sparse_data->ndata*data_size); if ( NULL != sparse_data->data ) memcpy(sparse_data->data,sparse_data_in->data, sparse_data->ndata*data_size); } } matvar->data = sparse_data; } else { if ( matvar->isComplex ) { matvar->data = malloc(sizeof(mat_complex_split_t)); if ( NULL != matvar->data && matvar->nbytes > 0 ) { mat_complex_split_t *complex_data = matvar->data; mat_complex_split_t *complex_data_in = data; complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL != complex_data->Re ) memcpy(complex_data->Re,complex_data_in->Re,matvar->nbytes); if ( NULL != complex_data->Im ) memcpy(complex_data->Im,complex_data_in->Im,matvar->nbytes); } } else if ( matvar->nbytes > 0 ) { matvar->data = malloc(matvar->nbytes); if ( NULL != matvar->data ) memcpy(matvar->data,data,matvar->nbytes); } matvar->mem_conserve = 0; } return matvar; } /** @brief Deletes a variable from a file * * @ingroup MAT * @param mat Pointer to the mat_t file structure * @param name Name of the variable to delete * @returns 0 on success */ int Mat_VarDelete(mat_t *mat, const char *name) { int err = 1; enum mat_ft mat_file_ver; char *tmp_name, *new_name, *temp; mat_t *tmp; matvar_t *matvar; switch ( mat->version ) { case 0x0200: mat_file_ver = MAT_FT_MAT73; break; case 0x0100: mat_file_ver = MAT_FT_MAT5; break; case 0x0010: mat_file_ver = MAT_FT_MAT4; break; } temp = strdup_printf("XXXXXX"); tmp_name = mktemp(temp); tmp = Mat_CreateVer(tmp_name,mat->header,mat_file_ver); if ( tmp != NULL ) { while ( NULL != (matvar = Mat_VarReadNext(mat)) ) { if ( strcmp(matvar->name,name) ) Mat_VarWrite(tmp,matvar,0); else err = 0; Mat_VarFree(matvar); } /* FIXME: Memory leak */ new_name = strdup_printf("%s",mat->filename); fclose(mat->fp); if ( (err = remove(new_name)) == -1 ) { Mat_Critical("remove of %s failed",new_name); } else if ( !Mat_Close(tmp) && (err=rename(tmp_name,new_name))==-1) { Mat_Critical("rename failed oldname=%s,newname=%s",tmp_name, new_name); } else { tmp = Mat_Open(new_name,mat->mode); memcpy(mat,tmp,sizeof(mat_t)); } free(tmp); free(new_name); } free(temp); return err; } /** @brief Duplicates a matvar_t structure * * Provides a clean function for duplicating a matvar_t structure. * @ingroup MAT * @param in pointer to the matvar_t structure to be duplicated * @param opt 0 does a shallow duplicate and only assigns the data pointer to * the duplicated array. 1 will do a deep duplicate and actually * duplicate the contents of the data. Warning: If you do a shallow * copy and free both structures, the data will be freed twice and * memory will be corrupted. This may be fixed in a later release. * @returns Pointer to the duplicated matvar_t structure. */ matvar_t * Mat_VarDuplicate(const matvar_t *in, int opt) { matvar_t *out; int i; out = Mat_VarCalloc(); if ( out == NULL ) return NULL; out->nbytes = in->nbytes; out->rank = in->rank; out->data_type = in->data_type; out->data_size = in->data_size; out->class_type = in->class_type; out->isComplex = in->isComplex; out->isGlobal = in->isGlobal; out->isLogical = in->isLogical; out->mem_conserve = in->mem_conserve; out->compression = in->compression; out->name = NULL; out->dims = NULL; out->data = NULL; if ( NULL != in->internal->hdf5_name ) out->internal->hdf5_name = strdup(in->internal->hdf5_name); out->internal->hdf5_ref = in->internal->hdf5_ref; out->internal->id = in->internal->id; out->internal->fpos = in->internal->fpos; out->internal->datapos = in->internal->datapos; #if defined(HAVE_ZLIB) out->internal->z = NULL; #endif out->internal->num_fields = in->internal->num_fields; if ( NULL != in->internal->fieldnames && in->internal->num_fields > 0 ) { out->internal->fieldnames = calloc(in->internal->num_fields, sizeof(*in->internal->fieldnames)); for ( i = 0; i < in->internal->num_fields; i++ ) { if ( NULL != in->internal->fieldnames[i] ) out->internal->fieldnames[i] = strdup(in->internal->fieldnames[i]); } } if (in->name != NULL && (NULL != (out->name = malloc(strlen(in->name)+1)))) memcpy(out->name,in->name,strlen(in->name)+1); out->dims = malloc(in->rank*sizeof(*out->dims)); if ( out->dims != NULL ) memcpy(out->dims,in->dims,in->rank*sizeof(*out->dims)); #if defined(HAVE_ZLIB) if ( (in->internal->z != NULL) && (NULL != (out->internal->z = malloc(sizeof(z_stream)))) ) inflateCopy(out->internal->z,in->internal->z); #endif if ( !opt ) { out->data = in->data; } else if ( (in->data != NULL) && (in->class_type == MAT_C_STRUCT) ) { matvar_t **infields, **outfields; int nfields = 0; out->data = malloc(in->nbytes); if ( out->data != NULL && in->data_size > 0 ) { nfields = in->nbytes / in->data_size; infields = (matvar_t **)in->data; outfields = (matvar_t **)out->data; for ( i = 0; i < nfields; i++ ) { outfields[i] = Mat_VarDuplicate(infields[i],opt); } } } else if ( (in->data != NULL) && (in->class_type == MAT_C_CELL) ) { matvar_t **incells, **outcells; int ncells = 0; out->data = malloc(in->nbytes); if ( out->data != NULL && in->data_size > 0 ) { ncells = in->nbytes / in->data_size; incells = (matvar_t **)in->data; outcells = (matvar_t **)out->data; for ( i = 0; i < ncells; i++ ) { outcells[i] = Mat_VarDuplicate(incells[i],opt); } } } else if ( in->data != NULL ) { if ( out->isComplex ) { out->data = malloc(sizeof(mat_complex_split_t)); if ( out->data != NULL ) { mat_complex_split_t *out_data = out->data; mat_complex_split_t *in_data = in->data; out_data->Re = malloc(out->nbytes); if ( NULL != out_data->Re ) memcpy(out_data->Re,in_data->Re,out->nbytes); out_data->Im = malloc(out->nbytes); if ( NULL != out_data->Im ) memcpy(out_data->Im,in_data->Im,out->nbytes); } } else { out->data = malloc(in->nbytes); if ( out->data != NULL ) memcpy(out->data,in->data,in->nbytes); } } return out; } /** @brief Frees all the allocated memory associated with the structure * * Frees memory used by a MAT variable. Frees the data associated with a * MAT variable if it's non-NULL and MAT_F_DONT_COPY_DATA was not used. * @ingroup MAT * @param matvar Pointer to the matvar_t structure */ void Mat_VarFree(matvar_t *matvar) { size_t nmemb = 0, i; if ( !matvar ) return; if ( matvar->dims ) { nmemb = 1; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; free(matvar->dims); } if ( matvar->name ) free(matvar->name); if ( matvar->data != NULL) { switch (matvar->class_type ) { case MAT_C_STRUCT: if ( !matvar->mem_conserve && NULL != matvar->data ) { matvar_t **fields = matvar->data; int nfields = matvar->internal->num_fields; for ( i = 0; i < nmemb*nfields; i++ ) Mat_VarFree(fields[i]); free(matvar->data); break; } case MAT_C_CELL: if ( !matvar->mem_conserve && NULL != matvar->data ) { matvar_t **cells = matvar->data; for ( i = 0; i < nmemb; i++ ) Mat_VarFree(cells[i]); free(matvar->data); } break; case MAT_C_SPARSE: if ( !matvar->mem_conserve ) { mat_sparse_t *sparse; sparse = matvar->data; if ( sparse->ir != NULL ) free(sparse->ir); if ( sparse->jc != NULL ) free(sparse->jc); if ( matvar->isComplex && NULL != sparse->data ) { mat_complex_split_t *complex_data = sparse->data; free(complex_data->Re); free(complex_data->Im); free(complex_data); } else if ( sparse->data != NULL ) { free(sparse->data); } free(sparse); } break; case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: case MAT_C_CHAR: if ( !matvar->mem_conserve && NULL != matvar->data ) { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = matvar->data; free(complex_data->Re); free(complex_data->Im); free(complex_data); } else { free(matvar->data); } } break; } } if ( NULL != matvar->internal ) { #if defined(HAVE_ZLIB) if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { inflateEnd(matvar->internal->z); free(matvar->internal->z); } #endif #if defined(MAT73) && MAT73 if ( -1 < matvar->internal->id ) { switch ( H5Iget_type(matvar->internal->id) ) { case H5I_GROUP: H5Gclose(matvar->internal->id); matvar->internal->id = -1; break; case H5I_DATASET: H5Dclose(matvar->internal->id); matvar->internal->id = -1; break; default: break; } } if ( 0 < matvar->internal->hdf5_ref ) { switch ( H5Iget_type(matvar->internal->id) ) { case H5I_GROUP: H5Gclose(matvar->internal->id); matvar->internal->hdf5_ref = -1; break; case H5I_DATASET: H5Dclose(matvar->internal->id); matvar->internal->hdf5_ref = -1; break; default: break; } } if ( NULL != matvar->internal->hdf5_name ) { free(matvar->internal->hdf5_name); matvar->internal->hdf5_name = NULL; } #endif if ( NULL != matvar->internal->fieldnames && matvar->internal->num_fields > 0 ) { size_t i; for ( i = 0; i < matvar->internal->num_fields; i++ ) { if ( NULL != matvar->internal->fieldnames[i] ) free(matvar->internal->fieldnames[i]); } free(matvar->internal->fieldnames); } free(matvar->internal); matvar->internal = NULL; } /* FIXME: Why does this cause a SEGV? */ #if 0 memset(matvar,0,sizeof(matvar_t)); #endif free(matvar); } void Mat_VarFree2(matvar_t *matvar) { if ( !matvar ) return; if ( matvar->dims ) free(matvar->dims); if ( matvar->name ) free(matvar->name); if ( (matvar->data != NULL) && (matvar->class_type == MAT_C_STRUCT || matvar->class_type == MAT_C_CELL) && matvar->data_size > 0 ) { int i; matvar_t **fields = (matvar_t **)matvar->data; int nfields = matvar->nbytes / matvar->data_size; for ( i = 0; i < nfields; i++ ) Mat_VarFree(fields[i]); free(matvar->data); } else if ( (matvar->data != NULL) && (!matvar->mem_conserve) && (matvar->class_type == MAT_C_SPARSE) ) { mat_sparse_t *sparse; sparse = matvar->data; if ( sparse->ir != NULL ) free(sparse->ir); if ( sparse->jc != NULL ) free(sparse->jc); if ( sparse->data != NULL ) free(sparse->data); free(sparse); } else { if ( matvar->data && !matvar->mem_conserve ) free(matvar->data); } #if defined(HAVE_ZLIB) if ( matvar->compression == MAT_COMPRESSION_ZLIB ) inflateEnd(matvar->internal->z); #endif /* FIXME: Why does this cause a SEGV? */ #if 0 memset(matvar,0,sizeof(matvar_t)); #endif } /** @brief Calculate a single subscript from a set of subscript values * * Calculates a single linear subscript (0-relative) given a 1-relative * subscript for each dimension. The calculation uses the formula below where * index is the linear index, s is an array of length RANK where each element * is the subscript for the correspondind dimension, D is an array whose * elements are the dimensions of the variable. * \f[ * index = \sum\limits_{k=0}^{RANK-1} [(s_k - 1) \prod\limits_{l=0}^{k} D_l ] * \f] * @ingroup MAT * @param rank Rank of the variable * @param dims dimensions of the variable * @param subs Dimension subscripts * @return Single (linear) subscript */ int Mat_CalcSingleSubscript(int rank,int *dims,int *subs) { int index = 0, i, j, k, err = 0; for ( i = 0; i < rank; i++ ) { k = subs[i]; if ( k > dims[i] ) { err = 1; Mat_Critical("Mat_CalcSingleSubscript: index out of bounds"); break; } else if ( k < 1 ) { err = 1; break; } k--; for ( j = i; j--; ) k *= dims[j]; index += k; } if ( err ) index = -1; return index; } /** @brief Calculate a set of subscript values from a single(linear) subscript * * Calculates 1-relative subscripts for each dimension given a 0-relative * linear index. Subscripts are calculated as follows where s is the array * of dimension subscripts, D is the array of dimensions, and index is the * linear index. * \f[ * s_k = \lfloor\frac{1}{L} \prod\limits_{l = 0}^{k} D_l\rfloor + 1 * \f] * \f[ * L = index - \sum\limits_{l = k}^{RANK - 1} s_k \prod\limits_{m = 0}^{k} D_m * \f] * @ingroup MAT * @param rank Rank of the variable * @param dims dimensions of the variable * @param index linear index * @return Array of dimension subscripts */ int * Mat_CalcSubscripts(int rank,int *dims,int index) { int i, j, k, *subs; double l; subs = malloc(rank*sizeof(int)); l = index; for ( i = rank; i--; ) { k = 1; for ( j = i; j--; ) k *= dims[j]; subs[i] = floor(l / (double)k); l -= subs[i]*k; subs[i]++; } return subs; } /** @brief Calculates the size of a matlab variable in bytes * * @ingroup MAT * @param matvar matlab variable * @returns size of the variable in bytes */ size_t Mat_VarGetSize(matvar_t *matvar) { int nmemb, i; size_t bytes = 0; if ( matvar->class_type == MAT_C_STRUCT ) { int nfields; matvar_t **fields; /* This is really nmemb*nfields, but we'll get a * more accurate count of the bytes by loopoing over all of them */ nfields = matvar->internal->num_fields; fields = matvar->data; for ( i = 0; i < nfields; i++ ) bytes += Mat_VarGetSize(fields[i]); } else if ( matvar->class_type == MAT_C_CELL ) { int ncells; matvar_t **cells; ncells = matvar->nbytes / matvar->data_size; cells = matvar->data; for ( i = 0; i < ncells; i++ ) bytes += Mat_VarGetSize(cells[i]); } else { nmemb = 1; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; bytes += nmemb*Mat_SizeOfClass(matvar->class_type); } return bytes; } /** @brief Prints the variable information * * Prints to stdout the values of the @ref matvar_t structure * @ingroup MAT * @param matvar Pointer to the matvar_t structure * @param printdata set to 1 if the Variables data should be printed, else 0 */ void Mat_VarPrint( matvar_t *matvar, int printdata ) { size_t nmemb; int i, j; const char *class_type_desc[16] = {"Undefined","Cell Array","Structure", "Object","Character Array","Sparse Array","Double Precision Array", "Single Precision Array", "8-bit, signed integer array", "8-bit, unsigned integer array","16-bit, signed integer array", "16-bit, unsigned integer array","32-bit, signed integer array", "32-bit, unsigned integer array","64-bit, signed integer array", "64-bit, unsigned integer array"}; const char *data_type_desc[23] = {"Unknown","8-bit, signed integer", "8-bit, unsigned integer","16-bit, signed integer", "16-bit, unsigned integer","32-bit, signed integer", "32-bit, unsigned integer","IEEE 754 single-precision","RESERVED", "IEEE 754 double-precision","RESERVED","RESERVED", "64-bit, signed integer","64-bit, unsigned integer", "Matlab Array", "Compressed Data","Unicode UTF-8 Encoded Character Data", "Unicode UTF-16 Encoded Character Data", "Unicode UTF-32 Encoded Character Data","","String","Cell Array", "Structure"}; if ( matvar == NULL ) return; if ( matvar->name ) printf(" Name: %s\n", matvar->name); printf(" Rank: %d\n", matvar->rank); if ( matvar->rank == 0 ) return; printf("Dimensions: %zu",matvar->dims[0]); nmemb = matvar->dims[0]; for ( i = 1; i < matvar->rank; i++ ) { printf(" x %zu",matvar->dims[i]); nmemb *= matvar->dims[i]; } printf("\n"); printf("Class Type: %s",class_type_desc[matvar->class_type]); if ( matvar->isComplex ) printf(" (complex)"); printf("\n"); if ( matvar->data_type ) printf(" Data Type: %s\n", data_type_desc[matvar->data_type]); if ( MAT_C_STRUCT == matvar->class_type ) { matvar_t **fields = (matvar_t **)matvar->data; int nfields = matvar->internal->num_fields; if ( nmemb*nfields > 0 ) { printf("Fields[%zu] {\n", nfields*nmemb); for ( i = 0; i < nfields*nmemb; i++ ) { if ( NULL == fields[i] ) { printf(" Name: %s\n Rank: %d\n", matvar->internal->fieldnames[i%nfields],0); } else { Mat_VarPrint(fields[i],printdata); } } printf("}\n"); } else { printf("Fields[%d] {\n", nfields); for ( i = 0; i < nfields; i++ ) printf(" Name: %s\n Rank: %d\n", matvar->internal->fieldnames[i],0); printf("}\n"); } return; } else if ( matvar->data == NULL || matvar->data_size < 1 ) { return; } else if ( MAT_C_CELL == matvar->class_type ) { matvar_t **cells = (matvar_t **)matvar->data; int ncells = matvar->nbytes / matvar->data_size; printf("{\n"); for ( i = 0; i < ncells; i++ ) Mat_VarPrint(cells[i],printdata); printf("}\n"); return; } else if ( !printdata ) { return; } printf("{\n"); if ( matvar->rank > 2 ) { printf("I can't print more than 2 dimensions\n"); } else if ( matvar->rank == 1 && matvar->dims[0] > 15 ) { printf("I won't print more than 15 elements in a vector\n"); } else if ( matvar->rank==2 ) { switch( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: #endif #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: #endif case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: { size_t stride = Mat_SizeOf(matvar->data_type); if ( matvar->isComplex ) { mat_complex_split_t *complex_data = matvar->data; char *rp = complex_data->Re; char *ip = complex_data->Im; for ( i = 0; i < matvar->dims[0] && i < 15; i++ ) { for ( j = 0; j < matvar->dims[1] && j < 15; j++ ) { size_t idx = matvar->dims[0]*j+i; Mat_PrintNumber(matvar->data_type,rp+idx*stride); printf(" + "); Mat_PrintNumber(matvar->data_type,ip+idx*stride); printf("i "); } if ( j < matvar->dims[1] ) printf("..."); printf("\n"); } if ( i < matvar->dims[0] ) printf(".\n.\n.\n"); } else { char *data = matvar->data; for ( i = 0; i < matvar->dims[0] && i < 15; i++ ) { for ( j = 0; j < matvar->dims[1] && j < 15; j++ ) { size_t idx = matvar->dims[0]*j+i; Mat_PrintNumber(matvar->data_type, data+idx*stride); printf(" "); } if ( j < matvar->dims[1] ) printf("..."); printf("\n"); } if ( i < matvar->dims[0] ) printf(".\n.\n.\n"); } break; } case MAT_C_CHAR: { char *data = matvar->data; if ( !printdata ) break; for ( i = 0; i < matvar->dims[0]; i++ ) { j = 0; for ( j = 0; j < matvar->dims[1]; j++ ) printf("%c",data[j*matvar->dims[0]+i]); printf("\n"); } break; } case MAT_C_SPARSE: { mat_sparse_t *sparse; size_t stride = Mat_SizeOf(matvar->data_type); #if !defined(EXTENDED_SPARSE) if ( MAT_T_DOUBLE != matvar->data_type ) break; #endif sparse = matvar->data; if ( matvar->isComplex ) { mat_complex_split_t *complex_data = sparse->data; char *re,*im; re = complex_data->Re; im = complex_data->Im; for ( i = 0; i < sparse->njc-1; i++ ) { for (j = sparse->jc[i]; jjc[i+1] && jndata;j++ ) { printf(" (%d,%d) ",sparse->ir[j]+1,i+1); Mat_PrintNumber(matvar->data_type,re+j*stride); printf(" + "); Mat_PrintNumber(matvar->data_type,im+j*stride); printf("i\n"); } } } else { char *data; data = sparse->data; for ( i = 0; i < sparse->njc-1; i++ ) { for (j = sparse->jc[i]; jjc[i+1] && jndata;j++ ){ printf(" (%d,%d) ",sparse->ir[j]+1,i+1); Mat_PrintNumber(matvar->data_type,data+j*stride); printf("\n"); } } } break; } /* case MAT_C_SPARSE: */ } /* switch( matvar->class_type ) */ } printf("}\n"); return; } /** @brief Reads MAT variable data from a file * * Reads data from a MAT variable. The variable must have been read by * Mat_VarReadInfo. * @ingroup MAT * @param mat MAT file to read data from * @param matvar MAT variable information * @param data pointer to store data in (must be pre-allocated) * @param start array of starting indeces * @param stride stride of data * @param edge array specifying the number to read in each direction * @retval 0 on success */ int Mat_VarReadData(mat_t *mat,matvar_t *matvar,void *data, int *start,int *stride,int *edge) { int err = 0; if ( mat->version != MAT_FT_MAT4 ) err = ReadData5(mat,matvar,data,start,stride,edge); else err = ReadData4(mat,matvar,data,start,stride,edge); return err; } /** @brief Reads all the data for a matlab variable * * Allocates memory for an reads the data for a given matlab variable. * @ingroup MAT * @param mat Matlab MAT file structure pointer * @param matvar Variable whose data is to be read * @returns non-zero on error */ int Mat_VarReadDataAll(mat_t *mat,matvar_t *matvar) { int err = 0; if ( (mat == NULL) || (matvar == NULL) ) err = 1; else ReadData(mat,matvar); return err; } /** @brief Reads MAT variable data from a file * * Reads data from a MAT variable using a linear indexingmode. The variable * must have been read by Mat_VarReadInfo. * @ingroup MAT * @param mat MAT file to read data from * @param matvar MAT variable information * @param data pointer to store data in (must be pre-allocated) * @param start starting index * @param stride stride of data * @param edge number of elements to read * @retval 0 on success */ int Mat_VarReadDataLinear(mat_t *mat,matvar_t *matvar,void *data,int start, int stride,int edge) { int err = 0, nmemb = 1, i, real_bytes = 0; mat_int32_t tag[2]; #if defined(HAVE_ZLIB) z_stream z; #endif if ( mat->version == MAT_FT_MAT4 ) return -1; fseek(mat->fp,matvar->internal->datapos,SEEK_SET); if ( matvar->compression == MAT_COMPRESSION_NONE ) { fread(tag,4,2,mat->fp); if ( mat->byteswap ) { Mat_int32Swap(tag); Mat_int32Swap(tag+1); } matvar->data_type = tag[0] & 0x000000ff; if ( tag[0] & 0xffff0000 ) { /* Data is packed in the tag */ fseek(mat->fp,-4,SEEK_CUR); real_bytes = 4+(tag[0] >> 16); } else { real_bytes = 8+tag[1]; } #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { matvar->internal->z->avail_in = 0; err = inflateCopy(&z,matvar->internal->z); InflateDataType(mat,&z,tag); if ( mat->byteswap ) { Mat_int32Swap(tag); Mat_int32Swap(tag+1); } matvar->data_type = tag[0] & 0x000000ff; if ( !(tag[0] & 0xffff0000) ) {/* Data is NOT packed in the tag */ /* We're cheating, but InflateDataType just inflates 4 bytes */ InflateDataType(mat,&z,tag+1); if ( mat->byteswap ) { Mat_int32Swap(tag+1); } real_bytes = 8+tag[1]; } else { real_bytes = 4+(tag[0] >> 16); } #endif } if ( real_bytes % 8 ) real_bytes += (8-(real_bytes % 8)); for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; if ( stride*(edge-1)+start+1 > nmemb ) { err = 1; } else if ( matvar->compression == MAT_COMPRESSION_NONE ) { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = data; ReadDataSlab1(mat,complex_data->Re,matvar->class_type, matvar->data_type,start,stride,edge); fseek(mat->fp,matvar->internal->datapos+real_bytes,SEEK_SET); fread(tag,4,2,mat->fp); if ( mat->byteswap ) { Mat_int32Swap(tag); Mat_int32Swap(tag+1); } matvar->data_type = tag[0] & 0x000000ff; if ( tag[0] & 0xffff0000 ) { /* Data is packed in the tag */ fseek(mat->fp,-4,SEEK_CUR); } ReadDataSlab1(mat,complex_data->Im,matvar->class_type, matvar->data_type,start,stride,edge); } else { ReadDataSlab1(mat,data,matvar->class_type, matvar->data_type,start,stride,edge); } #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = data; ReadCompressedDataSlab1(mat,&z,complex_data->Re, matvar->class_type,matvar->data_type,start,stride,edge); fseek(mat->fp,matvar->internal->datapos,SEEK_SET); /* Reset zlib knowledge to before reading real tag */ inflateEnd(&z); err = inflateCopy(&z,matvar->internal->z); InflateSkip(mat,&z,real_bytes); z.avail_in = 0; InflateDataType(mat,&z,tag); if ( mat->byteswap ) { Mat_int32Swap(tag); } matvar->data_type = tag[0] & 0x000000ff; if ( !(tag[0] & 0xffff0000) ) {/*Data is NOT packed in the tag*/ InflateSkip(mat,&z,4); } ReadCompressedDataSlab1(mat,&z,complex_data->Im, matvar->class_type,matvar->data_type,start,stride,edge); inflateEnd(&z); } else { ReadCompressedDataSlab1(mat,&z,data,matvar->class_type, matvar->data_type,start,stride,edge); inflateEnd(&z); } #endif } switch(matvar->class_type) { case MAT_C_DOUBLE: matvar->data_type = MAT_T_DOUBLE; matvar->data_size = sizeof(double); break; case MAT_C_SINGLE: matvar->data_type = MAT_T_SINGLE; matvar->data_size = sizeof(float); break; #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: matvar->data_type = MAT_T_INT64; matvar->data_size = sizeof(mat_int64_t); break; #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: matvar->data_type = MAT_T_UINT64; matvar->data_size = sizeof(mat_uint64_t); break; #endif /* HAVE_MAT_UINT64_T */ case MAT_C_INT32: matvar->data_type = MAT_T_INT32; matvar->data_size = sizeof(mat_int32_t); break; case MAT_C_UINT32: matvar->data_type = MAT_T_UINT32; matvar->data_size = sizeof(mat_uint32_t); break; case MAT_C_INT16: matvar->data_type = MAT_T_INT16; matvar->data_size = sizeof(mat_int16_t); break; case MAT_C_UINT16: matvar->data_type = MAT_T_UINT16; matvar->data_size = sizeof(mat_uint16_t); break; case MAT_C_INT8: matvar->data_type = MAT_T_INT8; matvar->data_size = sizeof(mat_int8_t); break; case MAT_C_UINT8: matvar->data_type = MAT_T_UINT8; matvar->data_size = sizeof(mat_uint8_t); break; } return err; } /** @brief Reads the information of the next variable in a MAT file * * Reads the next variable's information (class,flags-complex/global/logical, * rank,dimensions, name, etc) from the Matlab MAT file. After reading, the MAT * file is positioned past the current variable. * @ingroup MAT * @param mat Pointer to the MAT file * @return Pointer to the @ref matvar_t structure containing the MAT * variable information */ matvar_t * Mat_VarReadNextInfo( mat_t *mat ) { if( mat == NULL ) return NULL; else if ( mat->version == MAT_FT_MAT5 ) return Mat_VarReadNextInfo5(mat); #if defined(MAT73) && MAT73 else if ( mat->version == MAT_FT_MAT73 ) return Mat_VarReadNextInfo73(mat); #endif else return Mat_VarReadNextInfo4(mat); return NULL; } /** @brief Reads the information of a variable with the given name from a MAT file * * Reads the named variable (or the next variable if name is NULL) information * (class,flags-complex/global/logical,rank,dimensions,and name) from the * Matlab MAT file * @ingroup MAT * @param mat Pointer to the MAT file * @param name Name of the variable to read * @return Pointer to the @ref matvar_t structure containing the MAT * variable information */ matvar_t * Mat_VarReadInfo( mat_t *mat, const char *name ) { long fpos; matvar_t *matvar = NULL; if ( (mat == NULL) || (name == NULL) ) return NULL; if ( mat->version == MAT_FT_MAT73 ) { do { matvar = Mat_VarReadNextInfo(mat); if ( matvar != NULL ) { if ( !matvar->name ) { Mat_VarFree(matvar); matvar = NULL; } else if ( strcmp(matvar->name,name) ) { Mat_VarFree(matvar); matvar = NULL; } } else { Mat_Critical("An error occurred in reading the MAT file"); break; } } while ( NULL == matvar && mat->next_index < mat->num_datasets); } else { fpos = ftell(mat->fp); fseek(mat->fp,mat->bof,SEEK_SET); do { matvar = Mat_VarReadNextInfo(mat); if ( matvar != NULL ) { if ( !matvar->name ) { Mat_VarFree(matvar); matvar = NULL; } else if ( strcmp(matvar->name,name) ) { Mat_VarFree(matvar); matvar = NULL; } } else { Mat_Critical("An error occurred in reading the MAT file"); break; } } while ( !matvar && !feof(mat->fp) ); fseek(mat->fp,fpos,SEEK_SET); } return matvar; } /** @brief Reads the variable with the given name from a MAT file * * Reads the next variable in the Matlab MAT file * @ingroup MAT * @param mat Pointer to the MAT file * @param name Name of the variable to read * @return Pointer to the @ref matvar_t structure containing the MAT * variable information */ matvar_t * Mat_VarRead( mat_t *mat, const char *name ) { long fpos; matvar_t *matvar = NULL;; if ( (mat == NULL) || (name == NULL) ) return NULL; if ( MAT_FT_MAT73 != mat->version ) fpos = ftell(mat->fp); matvar = Mat_VarReadInfo(mat,name); if ( matvar ) ReadData(mat,matvar); if ( MAT_FT_MAT73 != mat->version ) fseek(mat->fp,fpos,SEEK_SET); return matvar; } /** @brief Reads the next variable in a MAT file * * Reads the next variable in the Matlab MAT file * @ingroup MAT * @param mat Pointer to the MAT file * @return Pointer to the @ref matvar_t structure containing the MAT * variable information */ matvar_t * Mat_VarReadNext( mat_t *mat ) { long fpos; matvar_t *matvar = NULL; if ( mat->version != MAT_FT_MAT73 ) { if ( feof(mat->fp) ) return NULL; /* Read position so we can reset the file position if an error occurs */ fpos = ftell(mat->fp); } matvar = Mat_VarReadNextInfo(mat); if ( matvar ) ReadData(mat,matvar); else if (mat->version != MAT_FT_MAT73 ) fseek(mat->fp,fpos,SEEK_SET); return matvar; } /** @brief Writes the given MAT variable to a MAT file * * Writes the MAT variable information stored in matvar to the given MAT file. * The variable will be written to the end of the file. * @ingroup MAT * @param mat MAT file to write to * @param matvar MAT variable information to write * @retval 0 on success */ int Mat_VarWriteInfo(mat_t *mat, matvar_t *matvar ) { if ( mat == NULL || matvar == NULL || mat->fp == NULL ) return -1; else if ( mat->version != MAT_FT_MAT4 ) WriteInfo5(mat,matvar); #if 0 else if ( mat->version == MAT_FT_MAT4 ) WriteInfo4(mat,matvar); #endif return 0; } /** @brief Writes the given data to the MAT variable * * Writes data to a MAT variable. The variable must have previously been * written with Mat_VarWriteInfo. * @ingroup MAT * @param mat MAT file to write to * @param matvar MAT variable information to write * @param data pointer to the data to write * @param start array of starting indeces * @param stride stride of data * @param edge array specifying the number to read in each direction * @retval 0 on success */ int Mat_VarWriteData(mat_t *mat,matvar_t *matvar,void *data, int *start,int *stride,int *edge) { int err = 0, k, N = 1; fseek(mat->fp,matvar->internal->datapos+8,SEEK_SET); if ( mat == NULL || matvar == NULL || data == NULL ) { err = -1; } else if ( start == NULL && stride == NULL && edge == NULL ) { for ( k = 0; k < matvar->rank; k++ ) N *= matvar->dims[k]; if ( matvar->compression == MAT_COMPRESSION_NONE ) WriteData(mat,data,N,matvar->data_type); #if 0 else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { WriteCompressedData(mat,matvar->internal->z,data,N,matvar->data_type); (void)deflateEnd(matvar->internal->z); free(matvar->internal->z); matvar->internal->z = NULL; } #endif } else if ( matvar->rank == 2 ) { if ( stride[0]*(edge[0]-1)+start[0]+1 > matvar->dims[0] ) { err = 1; } else if ( stride[1]*(edge[1]-1)+start[1]+1 > matvar->dims[1] ) { err = 1; } else { switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: WriteDataSlab2(mat,data,matvar->data_type,matvar->dims, start,stride,edge); break; case MAT_C_CHAR: WriteCharDataSlab2(mat,data,matvar->data_type,matvar->dims, start,stride,edge); break; } } } return err; } /** @brief Writes the given MAT variable to a MAT file * * Writes the MAT variable information stored in matvar to the given MAT file. * The variable will be written to the end of the file. * @ingroup MAT * @param mat MAT file to write to * @param matvar MAT variable information to write * @param compress Whether or not to compress the data * (Only valid for version 5 MAT files and variables with numeric data) * @retval 0 on success */ int Mat_VarWrite(mat_t *mat,matvar_t *matvar,enum matio_compression compress) { if ( mat == NULL || matvar == NULL ) return -1; else if ( mat->version == MAT_FT_MAT5 ) Mat_VarWrite5(mat,matvar,compress); #if defined(MAT73) && MAT73 else if ( mat->version == MAT_FT_MAT73 ) Mat_VarWrite73(mat,matvar,compress); #endif return 0; } PDL-IO-Matlab-release-0.005/matio-1.5.0/src/mat4.c000066400000000000000000000232161206363665300206440ustar00rootroot00000000000000/** @file mat4.c * Matlab MAT version 4 file functions * @ingroup MAT */ /* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include "matio_private.h" #include "mat4.h" /** @if mat_devman * @brief Reads the data of a version 4 MAT file variable * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar MAT variable pointer to read the data * @endif */ void Read4(mat_t *mat,matvar_t *matvar) { unsigned int N; if ( fseek(mat->fp,matvar->internal->datapos,SEEK_SET) ) return; N = matvar->dims[0]*matvar->dims[1]; switch ( matvar->class_type ) { case MAT_C_DOUBLE: matvar->data_size = sizeof(double); if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = N*sizeof(double); complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); matvar->data = complex_data; if ( complex_data != NULL && complex_data->Re != NULL && complex_data->Im != NULL ) { ReadDoubleData(mat, complex_data->Re, matvar->data_type, N); ReadDoubleData(mat, complex_data->Im, matvar->data_type, N); } } else { matvar->nbytes = N*sizeof(double); matvar->data = malloc(matvar->nbytes); if ( matvar->data != NULL ) ReadDoubleData(mat, matvar->data, matvar->data_type, N); } /* Update data type to match format of matvar->data */ matvar->data_type = MAT_T_DOUBLE; break; case MAT_C_CHAR: matvar->data_size = 1; matvar->nbytes = N; matvar->data = malloc(matvar->nbytes); if ( NULL == matvar->data ) Mat_Critical("Memory allocation failure"); else ReadUInt8Data(mat,matvar->data,matvar->data_type,N); matvar->data_type = MAT_T_UINT8; break; default: Mat_Critical("MAT V4 data type error"); return; } return; } /** @if mat_devman * @brief Reads a slab of data from a version 4 MAT file for the @c matvar variable * * @ingroup mat_internal * @param mat Version 4 MAT file pointer * @param matvar pointer to the mat variable * @param data pointer to store the read data in (must be of size * edge[0]*...edge[rank-1]*Mat_SizeOfClass(matvar->class_type)) * @param start index to start reading data in each dimension * @param stride write data every @c stride elements in each dimension * @param edge number of elements to read in each dimension * @retval 0 on success * @endif */ int ReadData4(mat_t *mat,matvar_t *matvar,void *data, int *start,int *stride,int *edge) { int err = 0; enum matio_classes class_type = MAT_C_EMPTY; fseek(mat->fp,matvar->internal->datapos,SEEK_SET); switch( matvar->data_type ) { case MAT_T_DOUBLE: class_type = MAT_C_DOUBLE; break; case MAT_T_SINGLE: class_type = MAT_C_SINGLE; break; case MAT_T_INT32: class_type = MAT_C_INT32; break; case MAT_T_INT16: class_type = MAT_C_INT16; break; case MAT_T_UINT16: class_type = MAT_C_UINT16; break; case MAT_T_UINT8: class_type = MAT_C_UINT8; break; } if ( matvar->rank == 2 ) { if ( stride[0]*(edge[0]-1)+start[0]+1 > matvar->dims[0] ) err = 1; else if ( stride[1]*(edge[1]-1)+start[1]+1 > matvar->dims[1] ) err = 1; if ( matvar->isComplex ) { mat_complex_split_t *cdata = data; long nbytes = edge[0]*edge[1]*Mat_SizeOf(matvar->data_type); ReadDataSlab2(mat,cdata->Re,class_type,matvar->data_type, matvar->dims,start,stride,edge); fseek(mat->fp,matvar->internal->datapos+nbytes,SEEK_SET); ReadDataSlab2(mat,cdata->Im,class_type, matvar->data_type,matvar->dims,start,stride,edge); } else { ReadDataSlab2(mat,data,class_type,matvar->data_type, matvar->dims,start,stride,edge); } } else { if ( matvar->isComplex ) { int i; mat_complex_split_t *cdata = data; long nbytes = Mat_SizeOf(matvar->data_type); for ( i = 0; i < matvar->rank; i++ ) nbytes *= edge[i]; ReadDataSlabN(mat,cdata->Re,class_type,matvar->data_type, matvar->rank,matvar->dims,start,stride,edge); fseek(mat->fp,matvar->internal->datapos+nbytes,SEEK_SET); ReadDataSlab2(mat,cdata->Im,class_type, matvar->data_type,matvar->dims,start,stride,edge); } else { ReadDataSlabN(mat,data,class_type,matvar->data_type, matvar->rank,matvar->dims,start,stride,edge); } } return err; } /** @if mat_devman * @brief Reads the header information for the next MAT variable in a version 4 MAT file * * @ingroup mat_internal * @param mat MAT file pointer * @retuen pointer to the MAT variable or NULL * @endif */ matvar_t * Mat_VarReadNextInfo4(mat_t *mat) { int tmp,M,O,data_type,class_type; long nBytes; size_t err; matvar_t *matvar = NULL; if ( mat == NULL || mat->fp == NULL ) return NULL; else if ( NULL == (matvar = Mat_VarCalloc()) ) return NULL; matvar->internal->fp = mat; matvar->internal->fpos = ftell(mat->fp); err = fread(&tmp,sizeof(int),1,mat->fp); if ( !err ) { free(matvar); return NULL; } /* See if MOPT may need byteswapping */ if ( tmp < 0 || tmp > 4052 ) { if ( Mat_int32Swap(&tmp) > 4052 ) { Mat_VarFree(matvar); return NULL; } } M = floor(tmp / 1000.0); tmp -= M*1000; O = floor(tmp / 100.0); tmp -= O*100; data_type = floor(tmp / 10.0); tmp -= data_type*10; class_type = floor(tmp); mat->byteswap = (M == 1) ? 1 : 0; /* Convert the V4 data type */ switch ( data_type ) { case 0: matvar->data_type = MAT_T_DOUBLE; break; case 1: matvar->data_type = MAT_T_SINGLE; break; case 2: matvar->data_type = MAT_T_INT32; break; case 3: matvar->data_type = MAT_T_INT16; break; case 4: matvar->data_type = MAT_T_UINT16; break; case 5: matvar->data_type = MAT_T_UINT8; break; default: matvar->data_type = MAT_T_UNKNOWN; break; } switch ( class_type ) { case 0: matvar->class_type = MAT_C_DOUBLE; break; case 1: matvar->class_type = MAT_C_CHAR; break; case 2: matvar->class_type = MAT_C_SPARSE; break; } matvar->rank = 2; /* FIXME: Check allocation */ matvar->dims = malloc(2*sizeof(*matvar->dims)); err = fread(&tmp,sizeof(int),1,mat->fp); if ( mat->byteswap ) Mat_int32Swap(&tmp); matvar->dims[0] = tmp; if ( !err ) { Mat_VarFree(matvar); return NULL; } err = fread(&tmp,sizeof(int),1,mat->fp); if ( mat->byteswap ) Mat_int32Swap(&tmp); matvar->dims[1] = tmp; if ( !err ) { Mat_VarFree(matvar); return NULL; } err = fread(&(matvar->isComplex),sizeof(int),1,mat->fp); if ( !err ) { Mat_VarFree(matvar); return NULL; } err = fread(&tmp,sizeof(int),1,mat->fp); if ( !err ) { Mat_VarFree(matvar); return NULL; } if ( mat->byteswap ) Mat_int32Swap(&tmp); /* FIXME: Check allocation */ matvar->name = malloc(tmp); err = fread(matvar->name,1,tmp,mat->fp); if ( !err ) { Mat_VarFree(matvar); return NULL; } matvar->internal->datapos = ftell(mat->fp); nBytes = matvar->dims[0]*matvar->dims[1]*Mat_SizeOf(matvar->data_type); if ( matvar->isComplex ) nBytes *= 2; fseek(mat->fp,nBytes,SEEK_CUR); return matvar; } PDL-IO-Matlab-release-0.005/matio-1.5.0/src/mat4.h000066400000000000000000000031261206363665300206470ustar00rootroot00000000000000/* * Copyright (C) 2008-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef MAT4_H #define MAT4_H void Read4(mat_t *mat, matvar_t *matvar); int ReadData4(mat_t *mat,matvar_t *matvar,void *data, int *start,int *stride,int *edge); matvar_t *Mat_VarReadNextInfo4(mat_t *mat); #endif PDL-IO-Matlab-release-0.005/matio-1.5.0/src/mat5.c000066400000000000000000010176571206363665300206620ustar00rootroot00000000000000/** @file mat5.c * Matlab MAT version 5 file functions * @ingroup MAT */ /* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* FIXME: Implement Unicode support */ #include #include #include #include #include #include "matio_private.h" #include "mat5.h" #define TYPE_FROM_TAG(a) (enum matio_types)((a) & 0x000000ff) #define CLASS_FROM_ARRAY_FLAGS(a) (enum matio_classes)((a) & 0x000000ff) #define CLASS_TYPE_MASK 0x000000ff static mat_complex_split_t null_complex_data = {NULL,NULL}; /* * ------------------------------------------------------------- * Private Functions * ------------------------------------------------------------- */ /** @brief determines the number of bytes needed to store the given struct field * * @ingroup mat_internal * @param matvar field of a structure * @return the number of bytes needed to store the struct field */ static size_t GetStructFieldBufSize(matvar_t *matvar) { size_t nBytes = 0, data_bytes = 0; size_t tag_size = 8, array_flags_size = 8; int nmemb = 1, i; if ( matvar == NULL ) return nBytes; /* Add the Array Flags tag and space to the number of bytes */ nBytes += tag_size + array_flags_size; /* In a struct field, the name is just a tag with 0 bytes */ nBytes += tag_size; /* Add rank and dimensions, padded to an 8 byte block */ for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; if ( matvar->rank % 2 ) nBytes += tag_size + matvar->rank*4 + 4; else nBytes += tag_size + matvar->rank*4; switch ( matvar->class_type ) { case MAT_C_STRUCT: { matvar_t **fields = matvar->data; int i, nfields = 0; size_t maxlen = 0; nfields = matvar->internal->num_fields; for ( i = 0; i < nfields; i++ ) { char *fieldname = matvar->internal->fieldnames[i]; if ( NULL != fieldname && strlen(fieldname) > maxlen ) maxlen = strlen(fieldname); } maxlen++; while ( nfields*maxlen % 8 != 0 ) maxlen++; nBytes += tag_size + tag_size + maxlen*nfields; /* FIXME: Add bytes for the fieldnames */ if ( NULL != fields && nfields > 0 ) { for ( i = 0; i < nfields*nmemb; i++ ) nBytes += tag_size + GetStructFieldBufSize(fields[i]); } break; } case MAT_C_CELL: { matvar_t **cells = matvar->data; int i, ncells; if ( matvar->nbytes == 0 || matvar->data_size == 0 ) break; ncells = matvar->nbytes / matvar->data_size; if ( NULL != cells && ncells > 0 ) { for ( i = 0; i < ncells; i++ ) nBytes += tag_size + GetCellArrayFieldBufSize(cells[i]); } break; } case MAT_C_SPARSE: { mat_sparse_t *sparse = matvar->data; data_bytes = sparse->nir*sizeof(mat_int32_t); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; data_bytes = sparse->njc*sizeof(mat_int32_t); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; data_bytes = sparse->ndata*Mat_SizeOf(matvar->data_type); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; if ( matvar->isComplex ) nBytes += tag_size + data_bytes; break; } default: data_bytes = nmemb*Mat_SizeOf(matvar->data_type); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; if ( matvar->isComplex ) nBytes += tag_size + data_bytes; } /* switch ( matvar->class_type ) */ return nBytes; } /** @brief determines the number of bytes needed to store the cell array element * * @ingroup mat_internal * @param matvar MAT variable * @return the number of bytes needed to store the variable */ static size_t GetCellArrayFieldBufSize(matvar_t *matvar) { size_t nBytes = 0, len, data_bytes; size_t tag_size = 8, array_flags_size = 8; int nmemb = 1, i; if ( matvar == NULL ) return nBytes; /* Add the Array Flags tag and space to the number of bytes */ nBytes += tag_size + array_flags_size; /* In an element of a cell array, the name is just a tag with 0 bytes */ nBytes += tag_size; /* Add rank and dimensions, padded to an 8 byte block */ for ( i = 0, len = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; if ( matvar->rank % 2 ) nBytes += tag_size + matvar->rank*4 + 4; else nBytes += tag_size + matvar->rank*4; switch ( matvar->class_type ) { case MAT_C_STRUCT: { matvar_t **fields = matvar->data; int i, nfields = 0; size_t maxlen = 0; nfields = matvar->internal->num_fields; for ( i = 0; i < nfields; i++ ) { char *fieldname = matvar->internal->fieldnames[i]; if ( NULL != fieldname && strlen(fieldname) > maxlen ) maxlen = strlen(fieldname); } maxlen++; while ( nfields*maxlen % 8 != 0 ) maxlen++; nBytes += tag_size + tag_size + maxlen*nfields; if ( NULL != fields && nfields > 0 ) { for ( i = 0; i < nfields*nmemb; i++ ) nBytes += tag_size + GetStructFieldBufSize(fields[i]); } break; } case MAT_C_CELL: { matvar_t **cells = matvar->data; int i, ncells; if ( matvar->nbytes == 0 || matvar->data_size == 0 ) break; ncells = matvar->nbytes / matvar->data_size; if ( NULL != cells && ncells > 0 ) { for ( i = 0; i < ncells; i++ ) nBytes += tag_size + GetCellArrayFieldBufSize(cells[i]); } break; } case MAT_C_SPARSE: { mat_sparse_t *sparse = matvar->data; data_bytes = sparse->nir*sizeof(mat_int32_t); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; data_bytes = sparse->njc*sizeof(mat_int32_t); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; data_bytes = sparse->ndata*Mat_SizeOf(matvar->data_type); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; if ( matvar->isComplex ) nBytes += tag_size + data_bytes; break; } default: data_bytes = nmemb*Mat_SizeOf(matvar->data_type); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; if ( matvar->isComplex ) nBytes += tag_size + data_bytes; } /* switch ( matvar->class_type ) */ return nBytes; } /** @brief determines the number of bytes needed to store the given variable * * @ingroup mat_internal * @param matvar MAT variable * @return the number of bytes needed to store the variable */ static size_t GetEmptyMatrixMaxBufSize(const char *name,int rank) { size_t nBytes = 0, len; size_t tag_size = 8, array_flags_size = 8; /* Add the Array Flags tag and space to the number of bytes */ nBytes += tag_size + array_flags_size; /* Get size of variable name, pad it to an 8 byte block, and add it to nBytes */ if ( NULL != name ) len = strlen(name); else len = 4; if ( len <= 4 ) { nBytes += tag_size; } else { if ( len % 8 ) len = len + (8 - len % 8); nBytes += tag_size + len; } /* Add rank and dimensions, padded to an 8 byte block */ if ( rank % 2 ) nBytes += tag_size + rank*4 + 4; else nBytes += tag_size + rank*4; /* Data tag */ nBytes += tag_size; return nBytes; } /** @brief determines the number of bytes needed to store the given variable * * @ingroup mat_internal * @param matvar MAT variable * @return the number of bytes needed to store the variable */ static size_t GetMatrixMaxBufSize(matvar_t *matvar) { size_t nBytes = 0, len, data_bytes; size_t tag_size = 8, array_flags_size = 8; int nmemb = 1, i; if ( matvar == NULL ) return nBytes; /* Add the Array Flags tag and space to the number of bytes */ nBytes += tag_size + array_flags_size; /* Get size of variable name, pad it to an 8 byte block, and add it to nBytes */ if ( NULL != matvar->name ) len = strlen(matvar->name); else len=4; if ( len <= 4 ) { nBytes += tag_size; } else { if ( len % 8 ) len = len + (8 - len % 8); nBytes += tag_size + len; } /* Add rank and dimensions, padded to an 8 byte block */ for ( i = 0, len = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; if ( matvar->rank % 2 ) nBytes += tag_size + matvar->rank*4 + 4; else nBytes += tag_size + matvar->rank*4; switch ( matvar->class_type ) { case MAT_C_STRUCT: { matvar_t **fields = matvar->data; int i, nfields = 0; size_t maxlen = 0; nfields = matvar->internal->num_fields; for ( i = 0; i < nfields; i++ ) { char *fieldname = matvar->internal->fieldnames[i]; if ( NULL != fieldname && strlen(fieldname) > maxlen ) maxlen = strlen(fieldname); } maxlen++; while ( nfields*maxlen % 8 != 0 ) maxlen++; nBytes += tag_size + tag_size + maxlen*nfields; /* FIXME: Add bytes for the fieldnames */ if ( NULL != fields && nfields > 0 ) { for ( i = 0; i < nfields*nmemb; i++ ) nBytes += tag_size + GetStructFieldBufSize(fields[i]); } break; } case MAT_C_CELL: { matvar_t **cells = matvar->data; int i, ncells; if ( matvar->nbytes == 0 || matvar->data_size == 0 ) break; ncells = matvar->nbytes / matvar->data_size; if ( NULL != cells && ncells > 0 ) { for ( i = 0; i < ncells; i++ ) nBytes += tag_size + GetCellArrayFieldBufSize(cells[i]); } break; } case MAT_C_SPARSE: { mat_sparse_t *sparse = matvar->data; data_bytes = sparse->nir*sizeof(mat_int32_t); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; data_bytes = sparse->njc*sizeof(mat_int32_t); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; data_bytes = sparse->ndata*Mat_SizeOf(matvar->data_type); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; if ( matvar->isComplex ) nBytes += tag_size + data_bytes; break; } default: data_bytes = nmemb*Mat_SizeOf(matvar->data_type); if ( data_bytes % 8 ) data_bytes += (8 - (data_bytes % 8)); nBytes += tag_size + data_bytes; if ( matvar->isComplex ) nBytes += tag_size + data_bytes; } /* switch ( matvar->class_type ) */ return nBytes; } /** @if mat_devman * @brief Creates a new Matlab MAT version 5 file * * Tries to create a new Matlab MAT file with the given name and optional * header string. If no header string is given, the default string * is used containing the software, version, and date in it. If a header * string is given, at most the first 116 characters is written to the file. * The given header string need not be the full 116 characters, but MUST be * NULL terminated. * @ingroup MAT * @param matname Name of MAT file to create * @param hdr_str Optional header string, NULL to use default * @return A pointer to the MAT file or NULL if it failed. This is not a * simple FILE * and should not be used as one. * @endif */ mat_t * Mat_Create5(const char *matname,const char *hdr_str) { FILE *fp = NULL; mat_int16_t endian = 0, version; mat_t *mat = NULL; size_t err; time_t t; fp = fopen(matname,"wb"); if ( !fp ) return NULL; mat = malloc(sizeof(*mat)); if ( !mat ) { fclose(fp); return NULL; } mat->fp = NULL; mat->header = NULL; mat->subsys_offset = NULL; mat->filename = NULL; mat->version = 0; mat->byteswap = 0; mat->mode = 0; mat->bof = 0; mat->next_index = 0; t = time(NULL); mat->fp = fp; mat->filename = strdup_printf("%s",matname); mat->mode = MAT_ACC_RDWR; mat->byteswap = 0; mat->header = calloc(1,128); mat->subsys_offset = calloc(1,16); memset(mat->header,' ',128); if ( hdr_str == NULL ) { err = mat_snprintf(mat->header,116,"MATLAB 5.0 MAT-file, Platform: %s, " "Created By: libmatio v%d.%d.%d on %s", MATIO_PLATFORM, MATIO_MAJOR_VERSION, MATIO_MINOR_VERSION, MATIO_RELEASE_LEVEL, ctime(&t)); mat->header[115] = '\0'; /* Just to make sure it's NULL terminated */ } else { err = mat_snprintf(mat->header,116,"%s",hdr_str); } mat->header[err] = ' '; mat_snprintf(mat->subsys_offset,15," "); mat->version = (int)0x0100; endian = 0x4d49; version = 0x0100; err = fwrite(mat->header,1,116,mat->fp); err = fwrite(mat->subsys_offset,1,8,mat->fp); err = fwrite(&version,2,1,mat->fp); err = fwrite(&endian,2,1,mat->fp); return mat; } /** @if mat_devman * @brief Writes @c data as character data * * This function uses the knowledge that the data is part of a character class * to avoid some pitfalls with Matlab listed below. * @li Matlab character data cannot be unsigned 8-bit integers, it needs at * least unsigned 16-bit integers * * @ingroup mat_internal * @param mat MAT file pointer * @param data character data to write * @param N Number of elements to write * @param data_type character data type (enum matio_types) * @return number of bytes written * @endif */ int WriteCharData(mat_t *mat, void *data, int N,enum matio_types data_type) { int nBytes = 0, bytesread = 0, i; mat_int8_t pad1 = 0; switch ( data_type ) { case MAT_T_UINT16: { nBytes = N*2; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); if ( NULL != data && N > 0 ) fwrite(data,2,N,mat->fp); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); break; } case MAT_T_INT8: case MAT_T_UINT8: { mat_uint8_t *ptr; mat_uint16_t c; /* Matlab can't read MAT_C_CHAR as uint8, needs uint16 */ nBytes = N*2; data_type = MAT_T_UINT16; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); ptr = data; if ( NULL == ptr ) break; for ( i = 0; i < N; i++ ) { c = (mat_uint16_t)*(char *)ptr; fwrite(&c,2,1,mat->fp); ptr++; } if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); break; } case MAT_T_UTF8: { mat_uint8_t *ptr; nBytes = N; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); ptr = data; if ( NULL != ptr && nBytes > 0 ) fwrite(ptr,1,nBytes,mat->fp); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); break; } } bytesread+=nBytes; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Writes @c data as compressed character data * * This function uses the knowledge that the data is part of a character class * to avoid some pitfalls with Matlab listed below. * @li Matlab character data cannot be unsigned 8-bit integers, it needs at * least unsigned 16-bit integers * * @ingroup mat_internal * @param mat MAT file pointer * @param z pointer to the zlib compression stream * @param data character data to write * @param N Number of elements to write * @param data_type character data type (enum matio_types) * @return number of bytes written */ static size_t WriteCompressedCharData(mat_t *mat,z_stream *z,void *data,int N, enum matio_types data_type) { int data_size, data_tag[2], err, byteswritten = 0; int buf_size = 1024, i; mat_uint8_t buf[1024], pad[8] = {0,}; if ((mat == NULL) || (mat->fp == NULL)) return 0; switch ( data_type ) { case MAT_T_UINT16: { data_size = 2; data_tag[0] = MAT_T_UINT16; data_tag[1] = N*data_size; z->next_in = ZLIB_BYTE_PTR(data_tag); z->avail_in = 8; z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); /* exit early if this is a empty data */ if ( NULL == data || N < 1 ) break; z->next_in = data; z->avail_in = data_size*N; do { z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); } while ( z->avail_out == 0 ); /* Add/Compress padding to pad to 8-byte boundary */ if ( N*data_size % 8 ) { z->next_in = pad; z->avail_in = 8 - (N*data_size % 8); z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); } break; } case MAT_T_INT8: case MAT_T_UINT8: { mat_uint8_t *ptr; mat_uint16_t c; /* Matlab can't read MAT_C_CHAR as uint8, needs uint16 */ data_size = 2; data_tag[0] = MAT_T_UINT16; data_tag[1] = N*data_size; z->next_in = ZLIB_BYTE_PTR(data_tag); z->avail_in = 8; z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); /* exit early if this is a empty data */ if ( NULL == data || N < 1 ) break; z->next_in = data; z->avail_in = data_size*N; ptr = data; for ( i = 0; i < N; i++ ) { c = (mat_uint16_t)*(char *)ptr; z->next_in = ZLIB_BYTE_PTR(&c); z->avail_in = 2; z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); ptr++; } /* Add/Compress padding to pad to 8-byte boundary */ if ( N*data_size % 8 ) { z->next_in = pad; z->avail_in = 8 - (N*data_size % 8); z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); } break; } case MAT_T_UTF8: { data_size = 1; data_tag[0] = MAT_T_UTF8; data_tag[1] = N*data_size; z->next_in = ZLIB_BYTE_PTR(data_tag); z->avail_in = 8; z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); /* exit early if this is a empty data */ if ( NULL == data || N < 1 ) break; z->next_in = data; z->avail_in = data_size*N; do { z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); } while ( z->avail_out == 0 ); /* Add/Compress padding to pad to 8-byte boundary */ if ( N*data_size % 8 ) { z->next_in = pad; z->avail_in = 8 - (N*data_size % 8); z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); } break; } } return byteswritten; } #endif /** @if mat_devman * @brief Writes empty characters to the MAT file * * This function uses the knowledge that the data is part of a character class * to avoid some pitfalls with Matlab listed below. * @li Matlab character data cannot be unsigned 8-bit integers, it needs at * least unsigned 16-bit integers * @ingroup mat_internal * @param mat MAT file pointer * @param data character data to write * @param N Number of elements to write * @param data_type character data type (enum matio_types) * @return number of bytes written * @endif */ static int WriteEmptyCharData(mat_t *mat, int N, enum matio_types data_type) { int nBytes = 0, bytesread = 0, i; mat_int8_t pad1 = 0; switch ( data_type ) { case MAT_T_UINT8: /* Matlab MAT_C_CHAR needs uint16 */ case MAT_T_INT8: /* Matlab MAT_C_CHAR needs uint16 */ data_type = MAT_T_UINT16; case MAT_T_UINT16: { mat_uint16_t u16 = 0; nBytes = N*sizeof(mat_uint16_t); fwrite(&data_type,sizeof(mat_int32_t),1,mat->fp); fwrite(&nBytes,sizeof(mat_int32_t),1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&u16,sizeof(mat_uint16_t),1,mat->fp); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); break; } case MAT_T_UTF8: { mat_uint8_t u8 = 0; nBytes = N; fwrite(&data_type,sizeof(mat_int32_t),1,mat->fp); fwrite(&nBytes,sizeof(mat_int32_t),1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&u8,sizeof(mat_uint8_t),1,mat->fp); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); break; } } bytesread+=nBytes; return bytesread; } /** @if mat_devman * @brief Writes the data tags and empty data to the file * * Writes the data tags and empty data to the file to save space for the * variable when the actual data is written * @ingroup mat_internal * @param mat MAT file pointer * @param N number of elements to write * @param data_type data type to write * @return Number of bytes written * @endif */ static int WriteEmptyData(mat_t *mat,int N,enum matio_types data_type) { int nBytes = 0, data_size, i; if ( (mat == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d = 0.0; data_size = sizeof(double); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&d,data_size,1,mat->fp); break; } case MAT_T_SINGLE: { float f = 0.0; data_size = sizeof(float); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&f,data_size,1,mat->fp); break; } case MAT_T_INT8: { mat_int8_t i8 = 0; data_size = sizeof(mat_int8_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&i8,data_size,1,mat->fp); break; } case MAT_T_UINT8: { mat_uint8_t ui8 = 0; data_size = sizeof(mat_uint8_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&ui8,data_size,1,mat->fp); break; } case MAT_T_INT16: { mat_int16_t i16 = 0; data_size = sizeof(mat_int16_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&i16,data_size,1,mat->fp); break; } case MAT_T_UINT16: { mat_uint16_t ui16 = 0; data_size = sizeof(mat_uint16_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&ui16,data_size,1,mat->fp); break; } case MAT_T_INT32: { mat_int32_t i32 = 0; data_size = sizeof(mat_int32_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&i32,data_size,1,mat->fp); break; } case MAT_T_UINT32: { mat_uint32_t ui32 = 0; data_size = sizeof(mat_uint32_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&ui32,data_size,1,mat->fp); break; } #ifdef HAVE_MAT_INT64_T case MAT_T_INT64: { mat_int64_t i64 = 0; data_size = sizeof(mat_int64_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&i64,data_size,1,mat->fp); break; } #endif #ifdef HAVE_MAT_UINT64_T case MAT_T_UINT64: { mat_uint64_t ui64 = 0; data_size = sizeof(mat_uint64_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&ui64,data_size,1,mat->fp); break; } #endif default: nBytes = 0; } return nBytes; } #if defined(HAVE_ZLIB) static int WriteCompressedEmptyData(mat_t *mat,z_stream *z,int N, enum matio_types data_type) { int nBytes = 0, data_size, i, err, byteswritten = 0; if ( (mat == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { mat_uint32_t uncomp_buf[32] = {0,}; mat_uint32_t comp_buf[32] = {0,}; double data_uncomp_buf[4] = {0.0,}; data_size = sizeof(double); nBytes = N*data_size; uncomp_buf[0] = data_type; uncomp_buf[1] = 0; z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = 32*sizeof(*comp_buf); z->avail_in = 8; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,32*sizeof(*comp_buf)-z->avail_out,mat->fp); for ( i = 0; i < N; i++ ) { z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(data_uncomp_buf); z->avail_out = 32*sizeof(*comp_buf); z->avail_in = 8; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,32*sizeof(*comp_buf)-z->avail_out,1,mat->fp); } break; } case MAT_T_SINGLE: { float f = 0.0; data_size = sizeof(float); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&f,data_size,1,mat->fp); break; } case MAT_T_INT8: { mat_int8_t i8 = 0; data_size = sizeof(mat_int8_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&i8,data_size,1,mat->fp); break; } case MAT_T_UINT8: { mat_uint8_t ui8 = 0; data_size = sizeof(mat_uint8_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&ui8,data_size,1,mat->fp); break; } case MAT_T_INT16: { mat_int16_t i16 = 0; data_size = sizeof(mat_int16_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&i16,data_size,1,mat->fp); break; } case MAT_T_UINT16: { mat_uint16_t ui16 = 0; data_size = sizeof(mat_uint16_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&ui16,data_size,1,mat->fp); break; } case MAT_T_INT32: { mat_int32_t i32 = 0; data_size = sizeof(mat_int32_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&i32,data_size,1,mat->fp); break; } case MAT_T_UINT32: { mat_uint32_t ui32 = 0; data_size = sizeof(mat_uint32_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&ui32,data_size,1,mat->fp); break; } #ifdef HAVE_MAT_INT64_T case MAT_T_INT64: { mat_int64_t i64 = 0; data_size = sizeof(mat_int64_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&i64,data_size,1,mat->fp); break; } #endif #ifdef HAVE_MAT_UINT64_T case MAT_T_UINT64: { mat_uint64_t ui64 = 0; data_size = sizeof(mat_uint64_t); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < N; i++ ) fwrite(&ui64,data_size,1,mat->fp); break; } #endif default: nBytes = 0; } return byteswritten; } #endif /** @if mat_devman * @param Writes a 2-D slab of data to the MAT file * * @ingroup mat_internal * @fixme should return the number of bytes written, but currently returns 0 * @param mat MAT file pointer * @param data pointer to the slab of data * @param data_type data type of the data (enum matio_types) * @param dims dimensions of the dataset * @param start index to start writing the data in each dimension * @param stride write data every @c stride elements * @param edge number of elements to write in each dimension * @return number of byteswritten * @endif */ int WriteDataSlab2(mat_t *mat,void *data,enum matio_types data_type,size_t *dims, int *start,int *stride,int *edge) { int nBytes = 0, data_size, i, j; long pos, row_stride, col_stride; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) || (start == NULL) || (stride == NULL) || (edge == NULL) ) { return 0; } switch ( data_type ) { case MAT_T_DOUBLE: { double *ptr; data_size = sizeof(double); ptr = (double *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_T_SINGLE: { float *ptr; data_size = sizeof(float); ptr = (float *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } #ifdef HAVE_MAT_INT64_T case MAT_T_INT64: { mat_int64_t *ptr; data_size = sizeof(mat_int64_t); ptr = (mat_int64_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } #endif #ifdef HAVE_MAT_UINT64_T case MAT_T_UINT64: { mat_uint64_t *ptr; data_size = sizeof(mat_uint64_t); ptr = (mat_uint64_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } #endif case MAT_T_INT32: { mat_int32_t *ptr; data_size = sizeof(mat_int32_t); ptr = (mat_int32_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_T_UINT32: { mat_uint32_t *ptr; data_size = sizeof(mat_uint32_t); ptr = (mat_uint32_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_T_INT16: { mat_int16_t *ptr; data_size = sizeof(mat_int16_t); ptr = (mat_int16_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_T_UINT16: { mat_uint16_t *ptr; data_size = sizeof(mat_uint16_t); ptr = (mat_uint16_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_T_INT8: { mat_int8_t *ptr; data_size = sizeof(mat_int8_t); ptr = (mat_int8_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_T_UINT8: { mat_uint8_t *ptr; data_size = sizeof(mat_uint8_t); ptr = (mat_uint8_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } default: nBytes = 0; } return nBytes; } /** @if mat_devman * @param Writes a 2-D slab of character data to the MAT file * * This function uses the knowledge that the data is part of a character class * to avoid some pitfalls with Matlab listed below. * @li Matlab character data cannot be unsigned 8-bit integers, it needs at * least unsigned 16-bit integers * @ingroup mat_internal * @fixme should return the number of bytes written, but currently returns 0 * @param mat MAT file pointer * @param data pointer to the slab of data * @param data_type data type of the data (enum matio_types) * @param dims dimensions of the dataset * @param start index to start writing the data in each dimension * @param stride write data every @c stride elements * @param edge number of elements to write in each dimension * @return number of byteswritten * @endif */ int WriteCharDataSlab2(mat_t *mat,void *data,enum matio_types data_type, size_t *dims,int *start,int *stride,int *edge) { int nBytes = 0, data_size, i, j; long pos, row_stride, col_stride; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) || (start == NULL) || (stride == NULL) || (edge == NULL) ) { return 0; } switch ( data_type ) { case MAT_T_UINT16: { mat_uint16_t *ptr; data_size = sizeof(mat_uint16_t); ptr = data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { fwrite(ptr++,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_T_INT8: case MAT_T_UINT8: { /* Matlab can't read MAT_C_CHAR as uint8, needs uint16 */ mat_uint8_t *ptr; mat_uint16_t c; data_size = sizeof(mat_uint16_t); ptr = data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++,ptr++ ) { c = *ptr; fwrite(&c,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_T_UTF8: { mat_uint8_t *ptr; data_size = sizeof(mat_uint8_t); ptr = data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++,ptr++ ) { fwrite(ptr,data_size,1,mat->fp); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } default: nBytes = 0; } return nBytes; } /** @brief Writes the data buffer to the file * * @param mat MAT file pointer * @param data pointer to the data to write * @param N number of elements to write * @param data_type data type of the data * @return number of bytes written */ int WriteData(mat_t *mat,void *data,int N,enum matio_types data_type) { int nBytes = 0, data_size; if ((mat == NULL) || (mat->fp == NULL) || (data == NULL && N > 0)) return 0; data_size = Mat_SizeOf(data_type); nBytes = N*data_size; fwrite(&data_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); fwrite(data,data_size,N,mat->fp); return nBytes; } #if defined(HAVE_ZLIB) /* Compresses the data buffer and writes it to the file */ static size_t WriteCompressedData(mat_t *mat,z_stream *z,void *data,int N, enum matio_types data_type) { int nBytes = 0, data_size, data_tag[2], err, byteswritten = 0; int buf_size = 1024; mat_uint8_t buf[1024], pad[8] = {0,}; if ((mat == NULL) || (mat->fp == NULL)) return 0; data_size = Mat_SizeOf(data_type); data_tag[0] = data_type; data_tag[1] = data_size*N; z->next_in = ZLIB_BYTE_PTR(data_tag); z->avail_in = 8; z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); /* exit early if this is a empty data */ if ( NULL == data || N < 1 ) return byteswritten; z->next_in = data; z->avail_in = N*data_size; do { z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); } while ( z->avail_out == 0 ); /* Add/Compress padding to pad to 8-byte boundary */ if ( N*data_size % 8 ) { z->next_in = pad; z->avail_in = 8 - (N*data_size % 8); z->next_out = buf; z->avail_out = buf_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(buf,1,buf_size-z->avail_out,mat->fp); } nBytes = byteswritten; return nBytes; } #endif /** @brief Reads the next cell of the cell array in @c matvar * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar MAT variable pointer * @return Number of bytes read */ static int ReadNextCell( mat_t *mat, matvar_t *matvar ) { int ncells, bytesread = 0, i, err; matvar_t **cells = NULL; if ( matvar->compression ) { #if defined(HAVE_ZLIB) mat_uint32_t uncomp_buf[16] = {0,}; int nbytes; mat_uint32_t array_flags; ncells = 1; for ( i = 0; i < matvar->rank; i++ ) ncells *= matvar->dims[i]; matvar->data_size = sizeof(matvar_t *); matvar->nbytes = ncells*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) return bytesread; cells = matvar->data; for ( i = 0; i < ncells; i++ ) { cells[i] = Mat_VarCalloc(); if ( NULL == cells[i] ) { Mat_Critical("Couldn't allocate memory for cell %d", i); continue; } cells[i]->internal->fpos = ftell(mat->fp)-matvar->internal->z->avail_in; /* Read variable tag for cell */ uncomp_buf[0] = 0; uncomp_buf[1] = 0; bytesread += InflateVarTag(mat,matvar,uncomp_buf); if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); } nbytes = uncomp_buf[1]; if ( !nbytes ) { /* empty cell */ continue; } else if ( uncomp_buf[0] != MAT_T_MATRIX ) { Mat_Critical("cells[%d], Uncompressed type not MAT_T_MATRIX",i); Mat_VarFree(cells[i]); cells[i] = NULL; break; } cells[i]->compression = 1; bytesread += InflateArrayFlags(mat,matvar,uncomp_buf); nbytes -= 16; if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); (void)Mat_uint32Swap(uncomp_buf+2); (void)Mat_uint32Swap(uncomp_buf+3); } /* Array Flags */ if ( uncomp_buf[0] == MAT_T_UINT32 ) { array_flags = uncomp_buf[2]; cells[i]->class_type = CLASS_FROM_ARRAY_FLAGS(array_flags); cells[i]->isComplex = (array_flags & MAT_F_COMPLEX); cells[i]->isGlobal = (array_flags & MAT_F_GLOBAL); cells[i]->isLogical = (array_flags & MAT_F_LOGICAL); if ( cells[i]->class_type == MAT_C_SPARSE ) { /* Need to find a more appropriate place to store nzmax */ cells[i]->nbytes = uncomp_buf[3]; } } else { Mat_Critical("Expected MAT_T_UINT32 for Array Tags, got %d", uncomp_buf[0]); bytesread+=InflateSkip(mat,matvar->internal->z,nbytes); } bytesread += InflateDimensions(mat,matvar,uncomp_buf); nbytes -= 8; if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); } /* Rank and Dimension */ if ( uncomp_buf[0] == MAT_T_INT32 ) { int j = 0; cells[i]->rank = uncomp_buf[1]; nbytes -= cells[i]->rank; cells[i]->rank /= 4; cells[i]->dims = malloc(cells[i]->rank*sizeof(*cells[i]->dims)); if ( mat->byteswap ) { for ( j = 0; j < cells[i]->rank; j++ ) cells[i]->dims[j] = Mat_uint32Swap(uncomp_buf+2+j); } else { for ( j = 0; j < cells[i]->rank; j++ ) cells[i]->dims[j] = uncomp_buf[2+j]; } if ( cells[i]->rank % 2 != 0 ) nbytes -= 4; } bytesread += InflateVarNameTag(mat,matvar,uncomp_buf); nbytes -= 8; cells[i]->internal->z = calloc(1,sizeof(z_stream)); err = inflateCopy(cells[i]->internal->z,matvar->internal->z); if ( err != Z_OK ) Mat_Critical("inflateCopy returned error %d",err); cells[i]->internal->datapos = ftell(mat->fp)-matvar->internal->z->avail_in; if ( cells[i]->class_type == MAT_C_STRUCT ) bytesread+=ReadNextStructField(mat,cells[i]); else if ( cells[i]->class_type == MAT_C_CELL ) bytesread+=ReadNextCell(mat,cells[i]); fseek(mat->fp,cells[i]->internal->datapos,SEEK_SET); bytesread+=InflateSkip(mat,matvar->internal->z,nbytes); } #else Mat_Critical("Not compiled with zlib support"); #endif } else { int ncells; mat_uint32_t buf[16]; int nbytes,nBytes; mat_uint32_t array_flags; ncells = 1; for ( i = 0; i < matvar->rank; i++ ) ncells *= matvar->dims[i]; matvar->data_size = sizeof(matvar_t *); matvar->nbytes = ncells*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Couldn't allocate memory for %s->data",matvar->name); return bytesread; } cells = (matvar_t **)matvar->data; for ( i = 0; i < ncells; i++ ) { int cell_bytes_read; cells[i] = Mat_VarCalloc(); if ( !cells[i] ) { Mat_Critical("Couldn't allocate memory for cell %d", i); continue; } cells[i]->internal->fpos = ftell(mat->fp); /* Read variable tag for cell */ cell_bytes_read = fread(buf,4,2,mat->fp); /* Empty cells at the end of a file may cause an EOF */ if ( !cell_bytes_read ) continue; bytesread += cell_bytes_read; if ( mat->byteswap ) { (void)Mat_uint32Swap(buf); (void)Mat_uint32Swap(buf+1); } nBytes = buf[1]; if ( !nBytes ) { /* empty cell */ continue; } else if ( buf[0] != MAT_T_MATRIX ) { Mat_Critical("cells[%d] not MAT_T_MATRIX, fpos = %ld",i,ftell(mat->fp)); Mat_VarFree(cells[i]); cells[i] = NULL; break; } cells[i]->compression = 0; #if defined(HAVE_ZLIB) cells[i]->internal->z = NULL; #endif /* Read Array Flags and The Dimensions Tag */ bytesread += fread(buf,4,6,mat->fp); if ( mat->byteswap ) { (void)Mat_uint32Swap(buf); (void)Mat_uint32Swap(buf+1); (void)Mat_uint32Swap(buf+2); (void)Mat_uint32Swap(buf+3); (void)Mat_uint32Swap(buf+4); (void)Mat_uint32Swap(buf+5); } nBytes-=24; /* Array Flags */ if ( buf[0] == MAT_T_UINT32 ) { array_flags = buf[2]; cells[i]->class_type = CLASS_FROM_ARRAY_FLAGS(array_flags); cells[i]->isComplex = (array_flags & MAT_F_COMPLEX); cells[i]->isGlobal = (array_flags & MAT_F_GLOBAL); cells[i]->isLogical = (array_flags & MAT_F_LOGICAL); if ( cells[i]->class_type == MAT_C_SPARSE ) { /* Need to find a more appropriate place to store nzmax */ cells[i]->nbytes = buf[3]; } } /* Rank and Dimension */ if ( buf[4] == MAT_T_INT32 ) { int j; nbytes = buf[5]; nBytes-=nbytes; cells[i]->rank = nbytes / 4; cells[i]->dims = malloc(cells[i]->rank*sizeof(*cells[i]->dims)); /* Assumes rank <= 16 */ if ( cells[i]->rank % 2 != 0 ) { bytesread+=fread(buf,4,cells[i]->rank+1,mat->fp); nBytes-=4; } else bytesread+=fread(buf,4,cells[i]->rank,mat->fp); if ( mat->byteswap ) { for ( j = 0; j < cells[i]->rank; j++ ) cells[i]->dims[j] = Mat_uint32Swap(buf+j); } else { for ( j = 0; j < cells[i]->rank; j++ ) cells[i]->dims[j] = buf[j]; } } /* Variable Name Tag */ bytesread+=fread(buf,1,8,mat->fp); nBytes-=8; cells[i]->internal->datapos = ftell(mat->fp); if ( cells[i]->class_type == MAT_C_STRUCT ) bytesread+=ReadNextStructField(mat,cells[i]); if ( cells[i]->class_type == MAT_C_CELL ) bytesread+=ReadNextCell(mat,cells[i]); fseek(mat->fp,cells[i]->internal->datapos+nBytes,SEEK_SET); } } return bytesread; } /** @brief Reads the next struct field of the structure in @c matvar * * Reads the next struct fields (fieldname length,names,data headers for all * the fields * @ingroup mat_internal * @param mat MAT file pointer * @param matvar MAT variable pointer * @return Number of bytes read */ static int ReadNextStructField( mat_t *mat, matvar_t *matvar ) { int fieldname_size,nfields, bytesread = 0, i, err; matvar_t **fields = NULL; if ( matvar->compression ) { #if defined(HAVE_ZLIB) char *ptr; mat_uint32_t uncomp_buf[16] = {0,}; int nbytes, j, nmemb = 1; mat_uint32_t array_flags; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; /* Inflate Field name length */ bytesread += InflateFieldNameLength(mat,matvar,uncomp_buf); if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); } if ( (uncomp_buf[0] & 0x0000ffff) == MAT_T_INT32 ) { fieldname_size = uncomp_buf[1]; } else { Mat_Warning("Error getting fieldname size"); return bytesread; } bytesread += InflateFieldNamesTag(mat,matvar,uncomp_buf); if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); } nfields = uncomp_buf[1]; nfields = nfields / fieldname_size; matvar->data_size = sizeof(matvar_t *); if ( nfields*fieldname_size % 8 != 0 ) i = 8-(nfields*fieldname_size % 8); else i = 0; ptr = malloc(nfields*fieldname_size+i); bytesread += InflateFieldNames(mat,matvar,ptr,nfields,fieldname_size,i); matvar->internal->num_fields = nfields; matvar->internal->fieldnames = calloc(nfields,sizeof(*matvar->internal->fieldnames)); for ( i = 0; i < nfields; i++ ) { matvar->internal->fieldnames[i] = malloc(fieldname_size); memcpy(matvar->internal->fieldnames[i],ptr+i*fieldname_size, fieldname_size); matvar->internal->fieldnames[i][fieldname_size-1] = '\0'; } free(ptr); matvar->nbytes = nmemb*nfields*matvar->data_size; if ( !matvar->nbytes ) return bytesread; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) return bytesread; fields = matvar->data; for ( i = 0; i < nmemb; i++ ) { for ( j = 0; j < nfields; j++ ) { fields[i*nfields+j] = Mat_VarCalloc(); fields[i*nfields+j]->name = strdup(matvar->internal->fieldnames[j]); } } for ( i = 0; i < nmemb*nfields; i++ ) { fields[i]->internal->fpos = ftell(mat->fp)-matvar->internal->z->avail_in; /* Read variable tag for struct field */ bytesread += InflateVarTag(mat,matvar,uncomp_buf); if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); } nbytes = uncomp_buf[1]; if ( uncomp_buf[0] != MAT_T_MATRIX ) { Mat_Critical("fields[%d], Uncompressed type not MAT_T_MATRIX",i); Mat_VarFree(fields[i]); fields[i] = NULL; continue; } else if ( nbytes == 0 ) { fields[i]->rank = 0; continue; } fields[i]->compression = MAT_COMPRESSION_ZLIB; bytesread += InflateArrayFlags(mat,matvar,uncomp_buf); nbytes -= 16; if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); (void)Mat_uint32Swap(uncomp_buf+2); (void)Mat_uint32Swap(uncomp_buf+3); } /* Array Flags */ if ( uncomp_buf[0] == MAT_T_UINT32 ) { array_flags = uncomp_buf[2]; fields[i]->class_type = CLASS_FROM_ARRAY_FLAGS(array_flags); fields[i]->isComplex = (array_flags & MAT_F_COMPLEX); fields[i]->isGlobal = (array_flags & MAT_F_GLOBAL); fields[i]->isLogical = (array_flags & MAT_F_LOGICAL); if ( fields[i]->class_type == MAT_C_SPARSE ) { /* Need to find a more appropriate place to store nzmax */ fields[i]->nbytes = uncomp_buf[3]; } } else { Mat_Critical("Expected MAT_T_UINT32 for Array Tags, got %d", uncomp_buf[0]); bytesread+=InflateSkip(mat,matvar->internal->z,nbytes); } bytesread += InflateDimensions(mat,matvar,uncomp_buf); nbytes -= 8; if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); } /* Rank and Dimension */ if ( uncomp_buf[0] == MAT_T_INT32 ) { int j = 0; fields[i]->rank = uncomp_buf[1]; nbytes -= fields[i]->rank; fields[i]->rank /= 4; fields[i]->dims = malloc(fields[i]->rank* sizeof(*fields[i]->dims)); if ( mat->byteswap ) { for ( j = 0; j < fields[i]->rank; j++ ) fields[i]->dims[j] = Mat_uint32Swap(uncomp_buf+2+j); } else { for ( j = 0; j < fields[i]->rank; j++ ) fields[i]->dims[j] = uncomp_buf[2+j]; } if ( fields[i]->rank % 2 != 0 ) nbytes -= 4; } bytesread += InflateVarNameTag(mat,matvar,uncomp_buf); nbytes -= 8; fields[i]->internal->z = calloc(1,sizeof(z_stream)); err = inflateCopy(fields[i]->internal->z,matvar->internal->z); if ( err != Z_OK ) { Mat_Critical("inflateCopy returned error %d",err); } fields[i]->internal->datapos = ftell(mat->fp)-matvar->internal->z->avail_in; if ( fields[i]->class_type == MAT_C_STRUCT ) bytesread+=ReadNextStructField(mat,fields[i]); else if ( fields[i]->class_type == MAT_C_CELL ) bytesread+=ReadNextCell(mat,fields[i]); fseek(mat->fp,fields[i]->internal->datapos,SEEK_SET); bytesread+=InflateSkip(mat,matvar->internal->z,nbytes); } #else Mat_Critical("Not compiled with zlib support"); #endif } else { int fieldname_size,nfields; mat_uint32_t buf[16] = {0,}; int nbytes,nBytes,nmemb=1,j; mat_uint32_t array_flags; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; bytesread+=fread(buf,4,2,mat->fp); if ( mat->byteswap ) { (void)Mat_uint32Swap(buf); (void)Mat_uint32Swap(buf+1); } if ( (buf[0] & 0x0000ffff) == MAT_T_INT32 ) { fieldname_size = buf[1]; } else { Mat_Warning("Error getting fieldname size"); return bytesread; } bytesread+=fread(buf,4,2,mat->fp); if ( mat->byteswap ) { (void)Mat_uint32Swap(buf); (void)Mat_uint32Swap(buf+1); } nfields = buf[1]; nfields = nfields / fieldname_size; matvar->data_size = sizeof(matvar_t *); matvar->internal->num_fields = nfields; matvar->internal->fieldnames = calloc(nfields,sizeof(*matvar->internal->fieldnames)); for ( i = 0; i < nfields; i++ ) { matvar->internal->fieldnames[i] = malloc(fieldname_size); bytesread+=fread(matvar->internal->fieldnames[i],1,fieldname_size,mat->fp); matvar->internal->fieldnames[i][fieldname_size-1] = '\0'; } if ( (nfields*fieldname_size) % 8 ) { fseek(mat->fp,8-((nfields*fieldname_size) % 8),SEEK_CUR); bytesread+=8-((nfields*fieldname_size) % 8); } matvar->nbytes = nmemb*nfields*matvar->data_size; if ( !matvar->nbytes ) return bytesread; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) return bytesread; fields = matvar->data; for ( i = 0; i < nmemb; i++ ) { for ( j = 0; j < nfields; j++ ) { fields[i*nfields+j] = Mat_VarCalloc(); fields[i*nfields+j]->name = strdup(matvar->internal->fieldnames[j]); } } for ( i = 0; i < nmemb*nfields; i++ ) { fields[i]->internal->fpos = ftell(mat->fp); /* Read variable tag for struct field */ bytesread += fread(buf,4,2,mat->fp); if ( mat->byteswap ) { (void)Mat_uint32Swap(buf); (void)Mat_uint32Swap(buf+1); } nBytes = buf[1]; if ( buf[0] != MAT_T_MATRIX ) { Mat_Critical("fields[%d] not MAT_T_MATRIX, fpos = %ld",i,ftell(mat->fp)); Mat_VarFree(fields[i]); fields[i] = NULL; return bytesread; } else if ( nBytes == 0 ) { fields[i]->rank = 0; continue; } fields[i]->compression = 0; #if defined(HAVE_ZLIB) fields[i]->internal->z = NULL; #endif /* Read Array Flags and The Dimensions Tag */ bytesread += fread(buf,4,6,mat->fp); if ( mat->byteswap ) { (void)Mat_uint32Swap(buf); (void)Mat_uint32Swap(buf+1); (void)Mat_uint32Swap(buf+2); (void)Mat_uint32Swap(buf+3); (void)Mat_uint32Swap(buf+4); (void)Mat_uint32Swap(buf+5); } nBytes-=24; /* Array Flags */ if ( buf[0] == MAT_T_UINT32 ) { array_flags = buf[2]; fields[i]->class_type = CLASS_FROM_ARRAY_FLAGS(array_flags); fields[i]->isComplex = (array_flags & MAT_F_COMPLEX); fields[i]->isGlobal = (array_flags & MAT_F_GLOBAL); fields[i]->isLogical = (array_flags & MAT_F_LOGICAL); if ( fields[i]->class_type == MAT_C_SPARSE ) { /* Need to find a more appropriate place to store nzmax */ fields[i]->nbytes = buf[3]; } } /* Rank and Dimension */ if ( buf[4] == MAT_T_INT32 ) { int j; nbytes = buf[5]; nBytes-=nbytes; fields[i]->rank = nbytes / 4; fields[i]->dims = malloc(fields[i]->rank* sizeof(*fields[i]->dims)); /* Assumes rank <= 16 */ if ( fields[i]->rank % 2 != 0 ) { bytesread+=fread(buf,4,fields[i]->rank+1,mat->fp); nBytes-=4; } else bytesread+=fread(buf,4,fields[i]->rank,mat->fp); if ( mat->byteswap ) { for ( j = 0; j < fields[i]->rank; j++ ) fields[i]->dims[j] = Mat_uint32Swap(buf+j); } else { for ( j = 0; j < fields[i]->rank; j++ ) fields[i]->dims[j] = buf[j]; } } /* Variable Name Tag */ bytesread+=fread(buf,1,8,mat->fp); nBytes-=8; fields[i]->internal->datapos = ftell(mat->fp); if ( fields[i]->class_type == MAT_C_STRUCT ) bytesread+=ReadNextStructField(mat,fields[i]); else if ( fields[i]->class_type == MAT_C_CELL ) bytesread+=ReadNextCell(mat,fields[i]); fseek(mat->fp,fields[i]->internal->datapos+nBytes,SEEK_SET); } } return bytesread; } /** @brief Reads the function handle data of the function handle in @c matvar * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar MAT variable pointer * @return Number of bytes read */ static int ReadNextFunctionHandle(mat_t *mat, matvar_t *matvar) { int nfunctions = 1, bytesread = 0, i; matvar_t **functions = NULL; for ( i = 0; i < matvar->rank; i++ ) nfunctions *= matvar->dims[i]; matvar->data = malloc(nfunctions*sizeof(matvar_t *)); if ( matvar->data != NULL ) { matvar->data_size = sizeof(matvar_t *); matvar->nbytes = nfunctions*matvar->data_size; functions = matvar->data; for ( i = 0 ; i < nfunctions; i++ ) functions[i] = Mat_VarReadNextInfo(mat); } else { bytesread = 0; matvar->data_size = 0; matvar->nbytes = 0; } return bytesread; } /** @brief Writes the header and blank data for a cell array * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar pointer to the mat variable * @return number of bytes written */ static int WriteCellArrayFieldInfo(mat_t *mat,matvar_t *matvar) { mat_uint32_t array_flags = 0x0; mat_int16_t array_name_type = MAT_T_INT8; int array_flags_type = MAT_T_UINT32, dims_array_type = MAT_T_INT32; int array_flags_size = 8, pad4 = 0, matrix_type = MAT_T_MATRIX; mat_int8_t pad1 = 0; int nBytes, i, nmemb = 1; long start = 0, end = 0; if ((matvar == NULL) || (mat == NULL)) return 0; #if 0 nBytes = GetMatrixMaxBufSize(matvar); #endif fwrite(&matrix_type,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); start = ftell(mat->fp); /* Array Flags */ array_flags = matvar->class_type & CLASS_TYPE_MASK; if ( matvar->isComplex ) array_flags |= MAT_F_COMPLEX; if ( matvar->isGlobal ) array_flags |= MAT_F_GLOBAL; if ( matvar->isLogical ) array_flags |= MAT_F_LOGICAL; if ( mat->byteswap ) array_flags = Mat_int32Swap((mat_int32_t*)&array_flags); fwrite(&array_flags_type,4,1,mat->fp); fwrite(&array_flags_size,4,1,mat->fp); fwrite(&array_flags,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); /* Rank and Dimension */ nBytes = matvar->rank * 4; fwrite(&dims_array_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < matvar->rank; i++ ) { mat_int32_t dim; dim = matvar->dims[i]; nmemb *= dim; fwrite(&dim,4,1,mat->fp); } if ( matvar->rank % 2 != 0 ) fwrite(&pad4,4,1,mat->fp); /* Name of variable */ if ( !matvar->name ) { fwrite(&array_name_type,2,1,mat->fp); fwrite(&pad1,1,1,mat->fp); fwrite(&pad1,1,1,mat->fp); fwrite(&pad4,4,1,mat->fp); } else if ( strlen(matvar->name) <= 4 ) { mat_int16_t array_name_len = (mat_int16_t)strlen(matvar->name); mat_int8_t pad1 = 0; fwrite(&array_name_type,2,1,mat->fp); fwrite(&array_name_len,2,1,mat->fp); fwrite(matvar->name,1,array_name_len,mat->fp); for ( i = array_name_len; i < 4; i++ ) fwrite(&pad1,1,1,mat->fp); } else { mat_int32_t array_name_len = (mat_int32_t)strlen(matvar->name); mat_int8_t pad1 = 0; fwrite(&array_name_type,2,1,mat->fp); fwrite(&pad1,1,1,mat->fp); fwrite(&pad1,1,1,mat->fp); fwrite(&array_name_len,4,1,mat->fp); fwrite(matvar->name,1,array_name_len,mat->fp); if ( array_name_len % 8 ) for ( i = array_name_len % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } matvar->internal->datapos = ftell(mat->fp); switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: nBytes = WriteEmptyData(mat,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); if ( matvar->isComplex ) { nBytes = WriteEmptyData(mat,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } break; case MAT_C_CHAR: { WriteEmptyCharData(mat,nmemb,matvar->data_type); break; } case MAT_C_CELL: { int ncells; matvar_t **cells = (matvar_t **)matvar->data; /* Check for an empty cell array */ if ( matvar->nbytes == 0 || matvar->data_size == 0 || matvar->data == NULL ) break; ncells = matvar->nbytes / matvar->data_size; for ( i = 0; i < ncells; i++ ) WriteCellArrayFieldInfo(mat,cells[i]); break; } /* FIXME: Structures */ } end = ftell(mat->fp); nBytes = (int)(end-start); fseek(mat->fp,(long)-(nBytes+4),SEEK_CUR); fwrite(&nBytes,4,1,mat->fp); fseek(mat->fp,end,SEEK_SET); return 0; } /** @brief Writes the header and data for an element of a cell array * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar pointer to the mat variable * @retval 0 on success */ static int WriteCellArrayField(mat_t *mat,matvar_t *matvar ) { mat_uint32_t array_flags = 0x0; mat_int16_t array_name_type = MAT_T_INT8,fieldname_type = MAT_T_INT32,fieldname_data_size=4; int array_flags_type = MAT_T_UINT32, dims_array_type = MAT_T_INT32; int array_flags_size = 8, pad4 = 0, matrix_type = MAT_T_MATRIX; mat_int8_t pad1 = 0; int nBytes, i, nmemb = 1, nzmax = 0; long start = 0, end = 0; if ((matvar == NULL) || (mat == NULL)) return 1; #if 0 nBytes = GetMatrixMaxBufSize(matvar); #endif fwrite(&matrix_type,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); start = ftell(mat->fp); /* Array Flags */ array_flags = matvar->class_type & CLASS_TYPE_MASK; if ( matvar->isComplex ) array_flags |= MAT_F_COMPLEX; if ( matvar->isGlobal ) array_flags |= MAT_F_GLOBAL; if ( matvar->isLogical ) array_flags |= MAT_F_LOGICAL; if ( matvar->class_type == MAT_C_SPARSE ) nzmax = ((mat_sparse_t *)matvar->data)->nzmax; if ( mat->byteswap ) array_flags = Mat_int32Swap((mat_int32_t*)&array_flags); fwrite(&array_flags_type,4,1,mat->fp); fwrite(&array_flags_size,4,1,mat->fp); fwrite(&array_flags,4,1,mat->fp); fwrite(&nzmax,4,1,mat->fp); /* Rank and Dimension */ nBytes = matvar->rank * 4; fwrite(&dims_array_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < matvar->rank; i++ ) { mat_int32_t dim; dim = matvar->dims[i]; nmemb *= dim; fwrite(&dim,4,1,mat->fp); } if ( matvar->rank % 2 != 0 ) fwrite(&pad4,4,1,mat->fp); /* Name of variable */ if ( !matvar->name ) { fwrite(&array_name_type,2,1,mat->fp); fwrite(&pad1,1,1,mat->fp); fwrite(&pad1,1,1,mat->fp); fwrite(&pad4,4,1,mat->fp); } else if ( strlen(matvar->name) <= 4 ) { mat_int16_t array_name_len = (mat_int16_t)strlen(matvar->name); mat_int8_t pad1 = 0; fwrite(&array_name_type,2,1,mat->fp); fwrite(&array_name_len,2,1,mat->fp); fwrite(matvar->name,1,array_name_len,mat->fp); for ( i = array_name_len; i < 4; i++ ) fwrite(&pad1,1,1,mat->fp); } else { mat_int32_t array_name_len = (mat_int32_t)strlen(matvar->name); mat_int8_t pad1 = 0; fwrite(&array_name_type,2,1,mat->fp); fwrite(&pad1,1,1,mat->fp); fwrite(&pad1,1,1,mat->fp); fwrite(&array_name_len,4,1,mat->fp); fwrite(matvar->name,1,array_name_len,mat->fp); if ( array_name_len % 8 ) for ( i = array_name_len % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = matvar->data; if ( NULL == matvar->data ) complex_data = &null_complex_data; nBytes=WriteData(mat,complex_data->Re,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); nBytes=WriteData(mat,complex_data->Im,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } else { nBytes = WriteData(mat,matvar->data,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } break; } case MAT_C_CHAR: WriteCharData(mat,matvar->data,nmemb,matvar->data_type); break; case MAT_C_CELL: { int ncells; matvar_t **cells = (matvar_t **)matvar->data; /* Check for an empty cell array */ if ( matvar->nbytes == 0 || matvar->data_size == 0 || matvar->data == NULL ) break; ncells = matvar->nbytes / matvar->data_size; for ( i = 0; i < ncells; i++ ) WriteCellArrayField(mat,cells[i]); break; } case MAT_C_STRUCT: { char **fieldnames, *padzero; int fieldname_size, nfields; size_t maxlen = 0; matvar_t **fields = (matvar_t **)matvar->data; unsigned fieldname; if ( nmemb && matvar->data_size ) nfields = matvar->nbytes / (nmemb*matvar->data_size); else if ( matvar->data_size ) nfields = matvar->nbytes / matvar->data_size; else break; fieldnames = malloc(nfields*sizeof(char *)); for ( i = 0; i < nfields; i++ ) { fieldnames[i] = fields[i]->name; if ( strlen(fieldnames[i]) > maxlen ) maxlen = strlen(fieldnames[i]); } maxlen++; fieldname_size = maxlen; while ( nfields*fieldname_size % 8 != 0 ) fieldname_size++; #if 0 fwrite(&fieldname_type,2,1,mat->fp); fwrite(&fieldname_data_size,2,1,mat->fp); #else fieldname = (fieldname_data_size<<16) | fieldname_type; fwrite(&fieldname,4,1,mat->fp); #endif fwrite(&fieldname_size,4,1,mat->fp); fwrite(&array_name_type,2,1,mat->fp); fwrite(&pad1,1,1,mat->fp); fwrite(&pad1,1,1,mat->fp); nBytes = nfields*fieldname_size; fwrite(&nBytes,4,1,mat->fp); padzero = calloc(fieldname_size,1); for ( i = 0; i < nfields; i++ ) { fwrite(fieldnames[i],1,strlen(fieldnames[i]),mat->fp); fwrite(padzero,1,fieldname_size-strlen(fieldnames[i]),mat->fp); } free(fieldnames); free(padzero); for ( i = 0; i < nmemb*nfields; i++ ) WriteStructField(mat,fields[i]); break; } case MAT_C_SPARSE: { mat_sparse_t *sparse = matvar->data; nBytes = WriteData(mat,sparse->ir,sparse->nir,MAT_T_INT32); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); nBytes = WriteData(mat,sparse->jc,sparse->njc,MAT_T_INT32); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); nBytes = WriteData(mat,sparse->data,sparse->ndata,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } } end = ftell(mat->fp); nBytes = (int)(end-start); fseek(mat->fp,(long)-(nBytes+4),SEEK_CUR); fwrite(&nBytes,4,1,mat->fp); fseek(mat->fp,end,SEEK_SET); return 0; } #if defined(HAVE_ZLIB) /** @brief Writes the header and data for a field of a compressed cell array * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar pointer to the mat variable * @return number of bytes written to the MAT file */ static size_t WriteCompressedCellArrayField(mat_t *mat,matvar_t *matvar,z_stream *z) { mat_uint32_t array_flags = 0x0; mat_int16_t array_name_type = MAT_T_INT8; mat_int16_t fieldname_type = MAT_T_INT32; mat_int16_t fieldname_data_size = 4; int array_flags_type = MAT_T_UINT32, dims_array_type = MAT_T_INT32; int array_flags_size = 8, pad4 = 0; int nBytes, i, nmemb = 1, nzmax = 0; long start = 0; mat_uint32_t comp_buf[512]; mat_uint32_t uncomp_buf[512] = {0,}; int buf_size = 512, err; size_t byteswritten = 0; if ( NULL == matvar || NULL == mat || NULL == z) return 0; start = ftell(mat->fp); /* Array Flags */ array_flags = matvar->class_type & CLASS_TYPE_MASK; if ( matvar->isComplex ) array_flags |= MAT_F_COMPLEX; if ( matvar->isGlobal ) array_flags |= MAT_F_GLOBAL; if ( matvar->isLogical ) array_flags |= MAT_F_LOGICAL; if ( matvar->class_type == MAT_C_SPARSE ) nzmax = ((mat_sparse_t *)matvar->data)->nzmax; uncomp_buf[0] = MAT_T_MATRIX; uncomp_buf[1] = (int)GetCellArrayFieldBufSize(matvar); z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = 8; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-z->avail_out, mat->fp); uncomp_buf[0] = array_flags_type; uncomp_buf[1] = array_flags_size; uncomp_buf[2] = array_flags; uncomp_buf[3] = nzmax; /* Rank and Dimension */ nBytes = matvar->rank * 4; uncomp_buf[4] = dims_array_type; uncomp_buf[5] = nBytes; for ( i = 0; i < matvar->rank; i++ ) { mat_int32_t dim; dim = matvar->dims[i]; nmemb *= dim; uncomp_buf[6+i] = dim; } if ( matvar->rank % 2 != 0 ) { uncomp_buf[6+i] = pad4; i++; } z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = (6+i)*sizeof(*uncomp_buf); err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-z->avail_out, mat->fp); /* Name of variable */ uncomp_buf[0] = array_name_type; uncomp_buf[1] = 0; z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = 8; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-z->avail_out, mat->fp); matvar->internal->datapos = ftell(mat->fp); switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: { /* WriteCompressedData makes sure uncomressed data is aligned * on an 8-byte boundary */ if ( matvar->isComplex ) { mat_complex_split_t *complex_data = matvar->data; if ( NULL == matvar->data ) complex_data = &null_complex_data; byteswritten += WriteCompressedData(mat,z, complex_data->Re,nmemb,matvar->data_type); byteswritten += WriteCompressedData(mat,z, complex_data->Im,nmemb,matvar->data_type); } else { byteswritten += WriteCompressedData(mat,z, matvar->data,nmemb,matvar->data_type); } break; } case MAT_C_CHAR: { byteswritten += WriteCompressedCharData(mat,z,matvar->data, nmemb,matvar->data_type); break; } case MAT_C_CELL: { int ncells; matvar_t **cells = (matvar_t **)matvar->data; /* Check for an empty cell array */ if ( matvar->nbytes == 0 || matvar->data_size == 0 || matvar->data == NULL ) break; ncells = matvar->nbytes / matvar->data_size; for ( i = 0; i < ncells; i++ ) WriteCompressedCellArrayField(mat,cells[i],z); break; } case MAT_C_STRUCT: { char **fieldnames; unsigned char *padzero; int fieldname_size, nfields; size_t maxlen = 0; mat_int32_t array_name_type = MAT_T_INT8; matvar_t **fields = (matvar_t **)matvar->data; /* Check for a structure with no fields */ if ( matvar->nbytes == 0 || matvar->data_size == 0 || matvar->data == NULL ) { fieldname_size = 1; uncomp_buf[0] = (fieldname_data_size << 16) | fieldname_type; uncomp_buf[1] = 1; uncomp_buf[2] = array_name_type; uncomp_buf[3] = 0; z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = 16; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size* sizeof(*comp_buf)-z->avail_out,mat->fp); break; } if ( nmemb ) nfields = matvar->nbytes / (nmemb*matvar->data_size); else /* matvar->data_size is checked above */ nfields = matvar->nbytes / matvar->data_size; fieldnames = malloc(nfields*sizeof(char *)); for ( i = 0; i < nfields; i++ ) { fieldnames[i] = fields[i]->name; if ( strlen(fieldnames[i]) > maxlen ) maxlen = strlen(fieldnames[i]); } maxlen++; fieldname_size = maxlen; while ( nfields*fieldname_size % 8 != 0 ) fieldname_size++; uncomp_buf[0] = (fieldname_data_size << 16) | fieldname_type; uncomp_buf[1] = fieldname_size; uncomp_buf[2] = array_name_type; uncomp_buf[3] = nfields*fieldname_size; padzero = calloc(fieldname_size,1); z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = 16; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-z->avail_out,mat->fp); for ( i = 0; i < nfields; i++ ) { memset(padzero,'\0',fieldname_size); memcpy(padzero,fieldnames[i],strlen(fieldnames[i])); z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(padzero); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = fieldname_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-z->avail_out,mat->fp); } free(fieldnames); free(padzero); for ( i = 0; i < nmemb*nfields; i++ ) byteswritten += WriteCompressedStructField(mat,fields[i],z); break; } case MAT_C_SPARSE: { mat_sparse_t *sparse = matvar->data; byteswritten += WriteCompressedData(mat,z,sparse->ir, sparse->nir,MAT_T_INT32); byteswritten += WriteCompressedData(mat,z,sparse->jc, sparse->njc,MAT_T_INT32); if ( matvar->isComplex ) { mat_complex_split_t *complex_data = sparse->data; byteswritten += WriteCompressedData(mat,z, complex_data->Re,sparse->ndata,matvar->data_type); byteswritten += WriteCompressedData(mat,z, complex_data->Im,sparse->ndata,matvar->data_type); } else { byteswritten += WriteCompressedData(mat,z, sparse->data,sparse->ndata,matvar->data_type); } break; } } return byteswritten; } #endif /** @brief Writes the header and data for a field of a struct array * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar pointer to the mat variable * @retval 0 on success */ static int WriteStructField(mat_t *mat,matvar_t *matvar) { mat_uint32_t array_flags = 0x0; mat_int16_t fieldname_type = MAT_T_INT32,fieldname_data_size=4; mat_int32_t array_name_type = MAT_T_INT8; int array_flags_type = MAT_T_UINT32, dims_array_type = MAT_T_INT32; int array_flags_size = 8, pad4 = 0, matrix_type = MAT_T_MATRIX; mat_int8_t pad1 = 0; int nBytes, i, nmemb = 1, nzmax = 0; long start = 0, end = 0; if ( mat == NULL ) return 1; if ( NULL == matvar ) { size_t dims[2] = {0,0}; Mat_WriteEmptyVariable5(mat, NULL, 2, dims); return 0; } fwrite(&matrix_type,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); start = ftell(mat->fp); /* Array Flags */ array_flags = matvar->class_type & CLASS_TYPE_MASK; if ( matvar->isComplex ) array_flags |= MAT_F_COMPLEX; if ( matvar->isGlobal ) array_flags |= MAT_F_GLOBAL; if ( matvar->isLogical ) array_flags |= MAT_F_LOGICAL; if ( matvar->class_type == MAT_C_SPARSE ) nzmax = ((mat_sparse_t *)matvar->data)->nzmax; if ( mat->byteswap ) array_flags = Mat_int32Swap((mat_int32_t*)&array_flags); fwrite(&array_flags_type,4,1,mat->fp); fwrite(&array_flags_size,4,1,mat->fp); fwrite(&array_flags,4,1,mat->fp); fwrite(&nzmax,4,1,mat->fp); /* Rank and Dimension */ nBytes = matvar->rank * 4; fwrite(&dims_array_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < matvar->rank; i++ ) { mat_int32_t dim; dim = matvar->dims[i]; nmemb *= dim; fwrite(&dim,4,1,mat->fp); } if ( matvar->rank % 2 != 0 ) fwrite(&pad4,4,1,mat->fp); /* Name of variable */ fwrite(&array_name_type,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = matvar->data; if ( NULL == matvar->data ) complex_data = &null_complex_data; nBytes=WriteData(mat,complex_data->Re,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); nBytes=WriteData(mat,complex_data->Im,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } else { nBytes=WriteData(mat,matvar->data,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } break; } case MAT_C_CHAR: nBytes=WriteCharData(mat,matvar->data,nmemb,matvar->data_type); break; case MAT_C_CELL: { int ncells; matvar_t **cells = (matvar_t **)matvar->data; /* Check for an empty cell array */ if ( matvar->nbytes == 0 || matvar->data_size == 0 || matvar->data == NULL ) break; ncells = matvar->nbytes / matvar->data_size; for ( i = 0; i < ncells; i++ ) WriteCellArrayField(mat,cells[i]); break; } case MAT_C_STRUCT: { char *padzero; int fieldname_size, nfields = 0; size_t maxlen = 0; matvar_t **fields = (matvar_t **)matvar->data; unsigned fieldname; /* nmemb*matvar->data_size can be zero when saving a struct that * contains an empty struct in one of its fields * (e.g. x.y = struct('z', {})). If it's zero, we would divide * by zero. */ nfields = matvar->internal->num_fields; for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); if ( len > maxlen ) maxlen = len; } maxlen++; fieldname_size = maxlen; while ( nfields*fieldname_size % 8 != 0 ) fieldname_size++; #if 0 fwrite(&fieldname_type,2,1,mat->fp); fwrite(&fieldname_data_size,2,1,mat->fp); #else fieldname = (fieldname_data_size<<16) | fieldname_type; fwrite(&fieldname,4,1,mat->fp); #endif fwrite(&fieldname_size,4,1,mat->fp); fwrite(&array_name_type,4,1,mat->fp); nBytes = nfields*fieldname_size; fwrite(&nBytes,4,1,mat->fp); padzero = calloc(fieldname_size,1); for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); fwrite(matvar->internal->fieldnames[i],1,len,mat->fp); fwrite(padzero,1,fieldname_size-len,mat->fp); } free(padzero); for ( i = 0; i < nmemb*nfields; i++ ) WriteStructField(mat,fields[i]); break; } case MAT_C_SPARSE: { mat_sparse_t *sparse = matvar->data; nBytes = WriteData(mat,sparse->ir,sparse->nir,MAT_T_INT32); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); nBytes = WriteData(mat,sparse->jc,sparse->njc,MAT_T_INT32); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); nBytes = WriteData(mat,sparse->data,sparse->ndata, matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } } end = ftell(mat->fp); nBytes = (int)(end-start); fseek(mat->fp,(long)-(nBytes+4),SEEK_CUR); fwrite(&nBytes,4,1,mat->fp); fseek(mat->fp,end,SEEK_SET); return 0; } #if defined(HAVE_ZLIB) /** @brief Writes the header and data for a field of a compressed struct array * * @ingroup mat_internal * @fixme Currently does not work for cell arrays or sparse data * @param mat MAT file pointer * @param matvar pointer to the mat variable * @return number of bytes written to the MAT file */ static size_t WriteCompressedStructField(mat_t *mat,matvar_t *matvar,z_stream *z) { mat_uint32_t array_flags = 0x0; mat_int16_t array_name_type = MAT_T_INT8; mat_int16_t fieldname_type = MAT_T_INT32; mat_int16_t fieldname_data_size = 4; int array_flags_type = MAT_T_UINT32, dims_array_type = MAT_T_INT32; int array_flags_size = 8, pad4 = 0; int nBytes, i, nmemb = 1, nzmax = 0; long start = 0; mat_uint32_t comp_buf[512]; mat_uint32_t uncomp_buf[512] = {0,}; int buf_size = 512, err; size_t byteswritten = 0; if ( NULL == mat || NULL == z) return 1; if ( NULL == matvar ) { size_t dims[2] = {0,0}; byteswritten = Mat_WriteCompressedEmptyVariable5(mat, NULL, 2, dims, z); return byteswritten; } start = ftell(mat->fp); /* Array Flags */ array_flags = matvar->class_type & CLASS_TYPE_MASK; if ( matvar->isComplex ) array_flags |= MAT_F_COMPLEX; if ( matvar->isGlobal ) array_flags |= MAT_F_GLOBAL; if ( matvar->isLogical ) array_flags |= MAT_F_LOGICAL; if ( matvar->class_type == MAT_C_SPARSE ) nzmax = ((mat_sparse_t *)matvar->data)->nzmax; uncomp_buf[0] = MAT_T_MATRIX; uncomp_buf[1] = (int)GetStructFieldBufSize(matvar); z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = 8; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-z->avail_out, mat->fp); uncomp_buf[0] = array_flags_type; uncomp_buf[1] = array_flags_size; uncomp_buf[2] = array_flags; uncomp_buf[3] = nzmax; /* Rank and Dimension */ nBytes = matvar->rank * 4; uncomp_buf[4] = dims_array_type; uncomp_buf[5] = nBytes; for ( i = 0; i < matvar->rank; i++ ) { mat_int32_t dim; dim = matvar->dims[i]; nmemb *= dim; uncomp_buf[6+i] = dim; } if ( matvar->rank % 2 != 0 ) { uncomp_buf[6+i] = pad4; i++; } z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = (6+i)*sizeof(*uncomp_buf); err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-z->avail_out, mat->fp); /* Name of variable */ uncomp_buf[0] = array_name_type; uncomp_buf[1] = 0; z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = 8; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-z->avail_out, mat->fp); matvar->internal->datapos = ftell(mat->fp); switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: { /* WriteCompressedData makes sure uncomressed data is aligned * on an 8-byte boundary */ if ( matvar->isComplex ) { mat_complex_split_t *complex_data = matvar->data; if ( NULL == matvar->data ) complex_data = &null_complex_data; byteswritten += WriteCompressedData(mat,z, complex_data->Re,nmemb,matvar->data_type); byteswritten += WriteCompressedData(mat,z, complex_data->Im,nmemb,matvar->data_type); } else { byteswritten += WriteCompressedData(mat,z, matvar->data,nmemb,matvar->data_type); } break; } case MAT_C_CHAR: { byteswritten += WriteCompressedCharData(mat,z,matvar->data, nmemb,matvar->data_type); break; } case MAT_C_CELL: { int ncells; matvar_t **cells = (matvar_t **)matvar->data; /* Check for an empty cell array */ if ( matvar->nbytes == 0 || matvar->data_size == 0 || matvar->data == NULL ) break; ncells = matvar->nbytes / matvar->data_size; for ( i = 0; i < ncells; i++ ) WriteCompressedCellArrayField(mat,cells[i],z); break; } case MAT_C_STRUCT: { unsigned char *padzero; int fieldname_size, nfields; size_t maxlen = 0; mat_int32_t array_name_type = MAT_T_INT8; matvar_t **fields = (matvar_t **)matvar->data; nfields = matvar->internal->num_fields; /* Check for a structure with no fields */ if ( nfields < 1 ) { fieldname_size = 1; uncomp_buf[0] = (fieldname_data_size << 16) | fieldname_type; uncomp_buf[1] = 1; uncomp_buf[2] = array_name_type; uncomp_buf[3] = 0; z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = 16; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size* sizeof(*comp_buf)-z->avail_out,mat->fp); break; } for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); if ( len > maxlen ) maxlen = len; } maxlen++; fieldname_size = maxlen; while ( nfields*fieldname_size % 8 != 0 ) fieldname_size++; uncomp_buf[0] = (fieldname_data_size << 16) | fieldname_type; uncomp_buf[1] = fieldname_size; uncomp_buf[2] = array_name_type; uncomp_buf[3] = nfields*fieldname_size; padzero = calloc(fieldname_size,1); z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = 16; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-z->avail_out,mat->fp); for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); memset(padzero,'\0',fieldname_size); memcpy(padzero,matvar->internal->fieldnames[i],len); z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(padzero); z->avail_out = buf_size*sizeof(*comp_buf); z->avail_in = fieldname_size; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-z->avail_out,mat->fp); } free(padzero); for ( i = 0; i < nmemb*nfields; i++ ) byteswritten += WriteCompressedStructField(mat,fields[i],z); break; } case MAT_C_SPARSE: { mat_sparse_t *sparse = matvar->data; byteswritten += WriteCompressedData(mat,z,sparse->ir, sparse->nir,MAT_T_INT32); byteswritten += WriteCompressedData(mat,z,sparse->jc, sparse->njc,MAT_T_INT32); if ( matvar->isComplex ) { mat_complex_split_t *complex_data = sparse->data; byteswritten += WriteCompressedData(mat,z, complex_data->Re,sparse->ndata,matvar->data_type); byteswritten += WriteCompressedData(mat,z, complex_data->Im,sparse->ndata,matvar->data_type); } else { byteswritten += WriteCompressedData(mat,z, sparse->data,sparse->ndata,matvar->data_type); } break; } } return byteswritten; } #endif static size_t Mat_WriteEmptyVariable5(mat_t *mat,const char *name,int rank,size_t *dims) { mat_uint32_t array_flags = 0x0; mat_int32_t array_name_type = MAT_T_INT8, matrix_type = MAT_T_MATRIX; int array_flags_type = MAT_T_UINT32, dims_array_type = MAT_T_INT32; int array_flags_size = 8, pad4 = 0, nBytes, i, nmemb = 1; mat_int8_t pad1 = 0; size_t byteswritten = 0; long start = 0, end = 0; fwrite(&matrix_type,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); start = ftell(mat->fp); /* Array Flags */ array_flags = MAT_C_DOUBLE; if ( mat->byteswap ) array_flags = Mat_int32Swap((mat_int32_t*)&array_flags); byteswritten += fwrite(&array_flags_type,4,1,mat->fp); byteswritten += fwrite(&array_flags_size,4,1,mat->fp); byteswritten += fwrite(&array_flags,4,1,mat->fp); byteswritten += fwrite(&pad4,4,1,mat->fp); /* Rank and Dimension */ nBytes = rank * 4; byteswritten += fwrite(&dims_array_type,4,1,mat->fp); byteswritten += fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < rank; i++ ) { mat_int32_t dim; dim = dims[i]; nmemb *= dim; byteswritten += fwrite(&dim,4,1,mat->fp); } if ( rank % 2 != 0 ) byteswritten += fwrite(&pad4,4,1,mat->fp); if ( NULL == name ) { /* Name of variable */ byteswritten += fwrite(&array_name_type,4,1,mat->fp); byteswritten += fwrite(&pad4,4,1,mat->fp); } else { mat_int32_t array_name_type = MAT_T_INT8; mat_int32_t array_name_len = strlen(name); /* Name of variable */ if ( array_name_len <= 4 ) { mat_int8_t pad1 = 0; array_name_type = (array_name_len << 16) | array_name_type; byteswritten += fwrite(&array_name_type,4,1,mat->fp); byteswritten += fwrite(name,1,array_name_len,mat->fp); for ( i = array_name_len; i < 4; i++ ) byteswritten += fwrite(&pad1,1,1,mat->fp); } else { byteswritten += fwrite(&array_name_type,4,1,mat->fp); byteswritten += fwrite(&array_name_len,4,1,mat->fp); byteswritten += fwrite(name,1,array_name_len,mat->fp); if ( array_name_len % 8 ) for ( i = array_name_len % 8; i < 8; i++ ) byteswritten += fwrite(&pad1,1,1,mat->fp); } } nBytes = WriteData(mat,NULL,0,MAT_T_DOUBLE); byteswritten += nBytes; if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) byteswritten += fwrite(&pad1,1,1,mat->fp); end = ftell(mat->fp); nBytes = (int)(end-start); fseek(mat->fp,(long)-(nBytes+4),SEEK_CUR); fwrite(&nBytes,4,1,mat->fp); fseek(mat->fp,end,SEEK_SET); return byteswritten; } #if defined(HAVE_ZLIB) static size_t Mat_WriteCompressedEmptyVariable5(mat_t *mat,const char *name,int rank, size_t *dims,z_stream *z) { mat_uint32_t array_flags = 0x0; mat_int16_t array_name_type = MAT_T_INT8; int array_flags_type = MAT_T_UINT32, dims_array_type = MAT_T_INT32; int array_flags_size = 8, pad4 = 0; int nBytes, i, nmemb = 1; mat_uint32_t comp_buf[512]; mat_uint32_t uncomp_buf[512] = {0,}; int buf_size = 512, err; size_t byteswritten = 0, buf_size_bytes; if ( NULL == mat || NULL == z) return 1; buf_size_bytes = buf_size*sizeof(*comp_buf); /* Array Flags */ array_flags = MAT_C_DOUBLE; uncomp_buf[0] = MAT_T_MATRIX; uncomp_buf[1] = (int)GetEmptyMatrixMaxBufSize(name,rank); z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size_bytes; z->avail_in = 8; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size_bytes-z->avail_out,mat->fp); uncomp_buf[0] = array_flags_type; uncomp_buf[1] = array_flags_size; uncomp_buf[2] = array_flags; uncomp_buf[3] = 0; /* Rank and Dimension */ nBytes = rank * 4; uncomp_buf[4] = dims_array_type; uncomp_buf[5] = nBytes; for ( i = 0; i < rank; i++ ) { mat_int32_t dim; dim = dims[i]; nmemb *= dim; uncomp_buf[6+i] = dim; } if ( rank % 2 != 0 ) { uncomp_buf[6+i] = pad4; i++; } z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size_bytes; z->avail_in = (6+i)*sizeof(*uncomp_buf); err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size_bytes-z->avail_out,mat->fp); /* Name of variable */ if ( NULL == name ) { uncomp_buf[0] = array_name_type; uncomp_buf[1] = 0; z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size_bytes; z->avail_in = 8; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size_bytes-z->avail_out,mat->fp); } else { if ( strlen(name) <= 4 ) { mat_int16_t array_name_len = (mat_int16_t)strlen(name); mat_int16_t array_name_type = MAT_T_INT8; memset(uncomp_buf,0,8); uncomp_buf[0] = (array_name_len << 16) | array_name_type; memcpy(uncomp_buf+1,name,array_name_len); if ( array_name_len % 4 ) array_name_len += 4-(array_name_len % 4); z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size_bytes; z->avail_in = 8; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size_bytes-z->avail_out, mat->fp); } else { mat_int32_t array_name_len = (mat_int32_t)strlen(name); mat_int32_t array_name_type = MAT_T_INT8; memset(uncomp_buf,0,buf_size*sizeof(*uncomp_buf)); uncomp_buf[0] = array_name_type; uncomp_buf[1] = array_name_len; memcpy(uncomp_buf+2,name,array_name_len); if ( array_name_len % 8 ) array_name_len += 8-(array_name_len % 8); z->next_out = ZLIB_BYTE_PTR(comp_buf); z->next_in = ZLIB_BYTE_PTR(uncomp_buf); z->avail_out = buf_size_bytes; z->avail_in = 8+array_name_len; err = deflate(z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size_bytes-z->avail_out, mat->fp); } } byteswritten += WriteCompressedData(mat,z,NULL,0,MAT_T_DOUBLE); return byteswritten; } #endif /** @if mat_devman * @brief Reads the data of a version 5 MAT variable * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar MAT variable pointer to read the data * @endif */ void Read5(mat_t *mat, matvar_t *matvar) { int nBytes, len = 0, i, byteswap, data_in_tag = 0; enum matio_types packed_type; long fpos; mat_uint32_t tag[2]; if ( matvar == NULL ) return; else if ( matvar->rank == 0 ) /* An empty data set */ return; fpos = ftell(mat->fp); len = 1; byteswap = mat->byteswap; switch ( matvar->class_type ) { case MAT_C_EMPTY: matvar->nbytes = 0; matvar->data_size = sizeof(double); matvar->data_type = MAT_T_DOUBLE; matvar->class_type = MAT_C_EMPTY; matvar->rank = 2; matvar->dims = malloc(matvar->rank*sizeof(*(matvar->dims))); matvar->dims[0] = 0; matvar->dims[1] = 0; break; case MAT_C_DOUBLE: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(double); matvar->data_type = MAT_T_DOUBLE; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadDoubleData(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadDoubleData(mat,complex_data->Im,packed_type, len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedDoubleData(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedDoubleData(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { /* if ( isComplex ) */ matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadDoubleData(mat,(double*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedDoubleData(mat,matvar->internal->z, (double*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; case MAT_C_SINGLE: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(float); matvar->data_type = MAT_T_SINGLE; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadSingleData(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadSingleData(mat,complex_data->Im, packed_type,len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedSingleData(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedSingleData(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadSingleData(mat,(float*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedSingleData(mat,matvar->internal->z, (float*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(mat_int64_t); matvar->data_type = MAT_T_INT64; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt64Data(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadInt64Data(mat,complex_data->Im, packed_type,len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedInt64Data(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedInt64Data(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt64Data(mat,(mat_int64_t*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt64Data(mat,matvar->internal->z, (mat_int64_t*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(mat_uint64_t); matvar->data_type = MAT_T_UINT64; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt64Data(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadInt64Data(mat,complex_data->Im, packed_type,len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedInt64Data(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedInt64Data(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt64Data(mat,(mat_int64_t*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt64Data(mat,matvar->internal->z, (mat_int64_t*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; #endif /* HAVE_MAT_UINT64_T */ case MAT_C_INT32: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(mat_int32_t); matvar->data_type = MAT_T_INT32; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt32Data(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadInt32Data(mat,complex_data->Im, packed_type,len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt32Data(mat,(mat_int32_t*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, (mat_int32_t*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; case MAT_C_UINT32: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(mat_uint32_t); matvar->data_type = MAT_T_UINT32; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt32Data(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadInt32Data(mat,complex_data->Im, packed_type,len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt32Data(mat,(mat_int32_t*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, (mat_int32_t*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; case MAT_C_INT16: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(mat_int16_t); matvar->data_type = MAT_T_INT16; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt16Data(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadInt16Data(mat,complex_data->Im, packed_type,len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt16Data(mat,(mat_int16_t*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, (mat_int16_t*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; case MAT_C_UINT16: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(mat_uint16_t); matvar->data_type = MAT_T_UINT16; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt16Data(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadInt16Data(mat,complex_data->Im, packed_type,len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt16Data(mat,(mat_int16_t*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, (mat_int16_t*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; case MAT_C_INT8: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(mat_int8_t); matvar->data_type = MAT_T_INT8; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt8Data(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadInt8Data(mat,complex_data->Im, packed_type,len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt8Data(mat,(mat_int8_t*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, (mat_int8_t*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; case MAT_C_UINT8: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(mat_uint8_t); matvar->data_type = MAT_T_UINT8; if ( matvar->isComplex ) { mat_complex_split_t *complex_data; matvar->nbytes = len*matvar->data_size; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); if ( NULL == complex_data || NULL == complex_data->Re || NULL == complex_data->Im ) { Mat_Critical("Failed to allocate %d bytes",2*matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt8Data(mat,complex_data->Re, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadInt8Data(mat,complex_data->Im, packed_type,len); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, complex_data->Re,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, complex_data->Im,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } matvar->data = complex_data; } else { matvar->nbytes = len*matvar->data_size; matvar->data = malloc(matvar->nbytes); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt8Data(mat,(mat_int8_t*)matvar->data, packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, (mat_int8_t*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } break; break; case MAT_C_CHAR: if ( matvar->compression ) { #if defined(HAVE_ZLIB) fseek(mat->fp,matvar->internal->datapos,SEEK_SET); matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #endif } else { fseek(mat->fp,matvar->internal->datapos,SEEK_SET); fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } } if ( nBytes == 0 ) { matvar->nbytes = 0; break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; matvar->data_size = sizeof(char); /* FIXME: */ matvar->data_type = MAT_T_UINT8; matvar->nbytes = len*matvar->data_size; matvar->data = calloc(matvar->nbytes+1,1); if ( !matvar->data ) { Mat_Critical("Failed to allocate %d bytes",matvar->nbytes); break; } if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadCharData(mat,(char*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedCharData(mat,matvar->internal->z, (char*)matvar->data,packed_type,len); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } break; case MAT_C_STRUCT: { matvar_t **fields; int nfields = 0; matvar->data_type = MAT_T_STRUCT; if ( !matvar->nbytes || !matvar->data_size || NULL == matvar->data ) break; len = 1; for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; nfields = matvar->internal->num_fields; fields = (matvar_t **)matvar->data; for ( i = 0; i < len*nfields; i++ ) { fields[i]->internal->fp = mat; Read5(mat,fields[i]); } break; } case MAT_C_CELL: { matvar_t **cells; if ( !matvar->data ) { Mat_Critical("Data is NULL for Cell Array %s",matvar->name); break; } for ( i = 0; i < matvar->rank; i++ ) len *= matvar->dims[i]; cells = (matvar_t **)matvar->data; for ( i = 0; i < len; i++ ) { cells[i]->internal->fp = mat; Read5(mat,cells[i]); } /* FIXME: */ matvar->data_type = MAT_T_CELL; break; } case MAT_C_SPARSE: { int N; mat_sparse_t *data; matvar->data_size = sizeof(mat_sparse_t); matvar->data = malloc(matvar->data_size); if ( matvar->data == NULL ) { Mat_Critical("ReadData: Allocation of data pointer failed"); break; } data = matvar->data; data->nzmax = matvar->nbytes; fseek(mat->fp,matvar->internal->datapos,SEEK_SET); /* Read ir */ if ( matvar->compression ) { #if defined(HAVE_ZLIB) matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( mat->byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; N = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; (void)ReadCompressedInt32Data(mat,matvar->internal->z, (mat_int32_t*)&N,MAT_T_INT32,1); } #endif } else { fread(tag,4,1,mat->fp); if ( mat->byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; N = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(&N,4,1,mat->fp); if ( mat->byteswap ) Mat_int32Swap(&N); } } data->nir = N / 4; data->ir = malloc(data->nir*sizeof(mat_int32_t)); if ( data->ir != NULL ) { if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt32Data(mat,data->ir,packed_type,data->nir); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, data->ir,packed_type,data->nir); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } else { Mat_Critical("ReadData: Allocation of ir pointer failed"); break; } /* Read jc */ if ( matvar->compression ) { #if defined(HAVE_ZLIB) matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( mat->byteswap ) Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; N = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; (void)ReadCompressedInt32Data(mat,matvar->internal->z, (mat_int32_t*)&N,MAT_T_INT32,1); } #endif } else { fread(tag,4,1,mat->fp); if ( mat->byteswap ) Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; N = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(&N,4,1,mat->fp); if ( mat->byteswap ) Mat_int32Swap(&N); } } data->njc = N / 4; data->jc = malloc(data->njc*sizeof(mat_int32_t)); if ( data->jc != NULL ) { if ( matvar->compression == MAT_COMPRESSION_NONE) { nBytes = ReadInt32Data(mat,data->jc,packed_type,data->njc); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, data->jc,packed_type,data->njc); /* * If the data was in the tag we started on a 4-byte * boundary so add 4 to make it an 8-byte */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif } } else { Mat_Critical("ReadData: Allocation of jc pointer failed"); break; } /* Read data */ if ( matvar->compression ) { #if defined(HAVE_ZLIB) matvar->internal->z->avail_in = 0; InflateDataType(mat,matvar->internal->z,tag); if ( mat->byteswap ) Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; N = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; (void)ReadCompressedInt32Data(mat,matvar->internal->z, (mat_int32_t*)&N,MAT_T_INT32,1); } #endif } else { fread(tag,4,1,mat->fp); if ( mat->byteswap ) Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; N = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(&N,4,1,mat->fp); if ( mat->byteswap ) Mat_int32Swap(&N); } } #if defined(EXTENDED_SPARSE) matvar->data_type = packed_type; #else matvar->data_type = MAT_T_DOUBLE; #endif data->ndata = N / Mat_SizeOf(packed_type); if ( matvar->isComplex ) { mat_complex_split_t *complex_data; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(data->ndata* Mat_SizeOf(matvar->data_type)); complex_data->Im = malloc(data->ndata* Mat_SizeOf(matvar->data_type)); if ( NULL != complex_data && NULL != complex_data->Re && NULL != complex_data->Im ) { if ( matvar->compression == MAT_COMPRESSION_NONE) { #if defined(EXTENDED_SPARSE) switch ( matvar->data_type ) { case MAT_T_DOUBLE: nBytes = ReadDoubleData(mat,complex_data->Re, packed_type,data->ndata); break; case MAT_T_SINGLE: nBytes = ReadSingleData(mat,complex_data->Re, packed_type,data->ndata); break; case MAT_T_INT32: nBytes = ReadInt32Data(mat,complex_data->Re, packed_type,data->ndata); break; case MAT_T_UINT32: nBytes = ReadInt32Data(mat,complex_data->Re, packed_type,data->ndata); break; case MAT_T_INT16: nBytes = ReadInt16Data(mat,complex_data->Re, packed_type,data->ndata); break; case MAT_T_UINT16: nBytes = ReadInt16Data(mat,complex_data->Re, packed_type,data->ndata); break; case MAT_T_INT8: nBytes = ReadInt8Data(mat,complex_data->Re, packed_type,data->ndata); break; case MAT_T_UINT8: nBytes = ReadInt8Data(mat,complex_data->Re, packed_type,data->ndata); break; } #else nBytes = ReadDoubleData(mat,complex_data->Re, packed_type,data->ndata); #endif if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); /* Complex Data Tag */ fread(tag,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; fread(tag+1,4,1,mat->fp); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #if defined(EXTENDED_SPARSE) switch ( matvar->data_type ) { case MAT_T_DOUBLE: nBytes = ReadDoubleData(mat,complex_data->Im, packed_type,data->ndata); break; case MAT_T_SINGLE: nBytes = ReadSingleData(mat,complex_data->Im, packed_type,data->ndata); break; case MAT_T_INT32: nBytes = ReadInt32Data(mat,complex_data->Im, packed_type,data->ndata); break; case MAT_T_UINT32: nBytes = ReadUInt32Data(mat,complex_data->Im, packed_type,data->ndata); break; case MAT_T_INT16: nBytes = ReadInt16Data(mat,complex_data->Im, packed_type,data->ndata); break; case MAT_T_UINT16: nBytes = ReadUInt16Data(mat,complex_data->Im, packed_type,data->ndata); break; case MAT_T_INT8: nBytes = ReadInt8Data(mat,complex_data->Im, packed_type,data->ndata); break; case MAT_T_UINT8: nBytes = ReadUInt8Data(mat,complex_data->Im, packed_type,data->ndata); break; } #else /* EXTENDED_SPARSE */ nBytes = ReadDoubleData(mat,complex_data->Im, packed_type,data->ndata); #endif /* EXTENDED_SPARSE */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { #if defined(EXTENDED_SPARSE) switch ( matvar->data_type ) { case MAT_T_DOUBLE: nBytes = ReadCompressedDoubleData(mat,matvar->internal->z, complex_data->Re,packed_type,data->ndata); break; case MAT_T_SINGLE: nBytes = ReadCompressedSingleData(mat,matvar->internal->z, complex_data->Re,packed_type,data->ndata); break; case MAT_T_INT32: nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, complex_data->Re,packed_type,data->ndata); break; case MAT_T_UINT32: nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, complex_data->Re,packed_type,data->ndata); break; case MAT_T_INT16: nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, complex_data->Re,packed_type,data->ndata); break; case MAT_T_UINT16: nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, complex_data->Re,packed_type,data->ndata); break; case MAT_T_INT8: nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, complex_data->Re,packed_type,data->ndata); break; case MAT_T_UINT8: nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, complex_data->Re,packed_type,data->ndata); break; } #else /* EXTENDED_SPARSE */ nBytes = ReadCompressedDoubleData(mat,matvar->internal->z, complex_data->Re,packed_type,data->ndata); #endif /* EXTENDED_SPARSE */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); /* Complex Data Tag */ InflateDataType(mat,matvar->internal->z,tag); if ( byteswap ) (void)Mat_uint32Swap(tag); packed_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is in the tag */ data_in_tag = 1; nBytes = (tag[0] & 0xffff0000) >> 16; } else { data_in_tag = 0; InflateDataType(mat,matvar->internal->z,tag+1); if ( byteswap ) (void)Mat_uint32Swap(tag+1); nBytes = tag[1]; } #if defined(EXTENDED_SPARSE) switch ( matvar->data_type ) { case MAT_T_DOUBLE: nBytes = ReadCompressedDoubleData(mat,matvar->internal->z, complex_data->Im,packed_type,data->ndata); break; case MAT_T_SINGLE: nBytes = ReadCompressedSingleData(mat,matvar->internal->z, complex_data->Im,packed_type,data->ndata); break; case MAT_T_INT32: nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, complex_data->Im,packed_type,data->ndata); break; case MAT_T_UINT32: nBytes = ReadCompressedUInt32Data(mat,matvar->internal->z, complex_data->Im,packed_type,data->ndata); break; case MAT_T_INT16: nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, complex_data->Im,packed_type,data->ndata); break; case MAT_T_UINT16: nBytes = ReadCompressedUInt16Data(mat,matvar->internal->z, complex_data->Im,packed_type,data->ndata); break; case MAT_T_INT8: nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, complex_data->Im,packed_type,data->ndata); break; case MAT_T_UINT8: nBytes = ReadCompressedUInt8Data(mat,matvar->internal->z, complex_data->Im,packed_type,data->ndata); break; } #else /* EXTENDED_SPARSE */ nBytes = ReadCompressedDoubleData(mat,matvar->internal->z, complex_data->Im,packed_type,data->ndata); #endif /* EXTENDED_SPARSE */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif /* HAVE_ZLIB */ } } else { Mat_Critical("ReadData: Allocation of data pointer failed"); break; } data->data = complex_data; } else { /* isComplex */ data->data = malloc(data->ndata*Mat_SizeOf(MAT_T_DOUBLE)); if ( data->data != NULL ) { if ( matvar->compression == MAT_COMPRESSION_NONE) { #if defined(EXTENDED_SPARSE) switch ( matvar->data_type ) { case MAT_T_DOUBLE: nBytes = ReadDoubleData(mat,data->data, packed_type,data->ndata); break; case MAT_T_SINGLE: nBytes = ReadSingleData(mat,data->data, packed_type,data->ndata); break; case MAT_T_INT32: nBytes = ReadInt32Data(mat,data->data, packed_type,data->ndata); break; case MAT_T_UINT32: nBytes = ReadInt32Data(mat,data->data, packed_type,data->ndata); break; case MAT_T_INT16: nBytes = ReadInt16Data(mat,data->data, packed_type,data->ndata); break; case MAT_T_UINT16: nBytes = ReadInt16Data(mat,data->data, packed_type,data->ndata); break; case MAT_T_INT8: nBytes = ReadInt8Data(mat,data->data, packed_type,data->ndata); break; case MAT_T_UINT8: nBytes = ReadInt8Data(mat,data->data, packed_type,data->ndata); break; } #else nBytes = ReadDoubleData(mat,data->data,packed_type, data->ndata); #endif if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) fseek(mat->fp,8-(nBytes % 8),SEEK_CUR); #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB) { #if defined(EXTENDED_SPARSE) switch ( matvar->data_type ) { case MAT_T_DOUBLE: nBytes = ReadCompressedDoubleData(mat,matvar->internal->z, data->data,packed_type,data->ndata); break; case MAT_T_SINGLE: nBytes = ReadCompressedSingleData(mat,matvar->internal->z, data->data,packed_type,data->ndata); break; case MAT_T_INT32: nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, data->data,packed_type,data->ndata); break; case MAT_T_UINT32: nBytes = ReadCompressedInt32Data(mat,matvar->internal->z, data->data,packed_type,data->ndata); break; case MAT_T_INT16: nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, data->data,packed_type,data->ndata); break; case MAT_T_UINT16: nBytes = ReadCompressedInt16Data(mat,matvar->internal->z, data->data,packed_type,data->ndata); break; case MAT_T_INT8: nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, data->data,packed_type,data->ndata); break; case MAT_T_UINT8: nBytes = ReadCompressedInt8Data(mat,matvar->internal->z, data->data,packed_type,data->ndata); break; } #else /* EXTENDED_SPARSE */ nBytes = ReadCompressedDoubleData(mat,matvar->internal->z, data->data,packed_type,data->ndata); #endif /* EXTENDED_SPARSE */ if ( data_in_tag ) nBytes+=4; if ( (nBytes % 8) != 0 ) InflateSkip(mat,matvar->internal->z,8-(nBytes % 8)); #endif /* HAVE_ZLIB */ } } else { Mat_Critical("ReadData: Allocation of data pointer failed"); break; } } break; } case MAT_C_FUNCTION: { matvar_t **functions; int nfunctions = 0; if ( !matvar->nbytes || !matvar->data_size ) break; nfunctions = matvar->nbytes / matvar->data_size; functions = (matvar_t **)matvar->data; for ( i = 0; i < nfunctions; i++ ) { functions[i]->internal->fp = mat; Read5(mat,functions[i]); } /* FIXME: */ matvar->data_type = MAT_T_FUNCTION; break; } default: Mat_Critical("Read5: %d is not a supported Class", matvar->class_type); } fseek(mat->fp,fpos,SEEK_SET); return; } /** @if mat_devman * @brief Reads a slab of data from the mat variable @c matvar * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar pointer to the mat variable * @param data pointer to store the read data in (must be of size * edge[0]*...edge[rank-1]*Mat_SizeOfClass(matvar->class_type)) * @param start index to start reading data in each dimension * @param stride write data every @c stride elements in each dimension * @param edge number of elements to read in each dimension * @retval 0 on success * @endif */ int ReadData5(mat_t *mat,matvar_t *matvar,void *data, int *start,int *stride,int *edge) { int err = 0,real_bytes; mat_int32_t tag[2]; #if defined(HAVE_ZLIB) z_stream z; #endif fseek(mat->fp,matvar->internal->datapos,SEEK_SET); if ( matvar->compression == MAT_COMPRESSION_NONE ) { fread(tag,4,2,mat->fp); if ( mat->byteswap ) { Mat_int32Swap(tag); Mat_int32Swap(tag+1); } matvar->data_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is packed in the tag */ fseek(mat->fp,-4,SEEK_CUR); real_bytes = 4+(tag[0] >> 16); } else { real_bytes = 8+tag[1]; } #if defined(HAVE_ZLIB) } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { err = inflateCopy(&z,matvar->internal->z); z.avail_in = 0; InflateDataType(mat,&z,tag); if ( mat->byteswap ) { Mat_int32Swap(tag); } matvar->data_type = TYPE_FROM_TAG(tag[0]); if ( !(tag[0] & 0xffff0000) ) {/* Data is NOT packed in the tag */ /* We're cheating, but InflateDataType just inflates 4 bytes */ InflateDataType(mat,&z,tag+1); if ( mat->byteswap ) { Mat_int32Swap(tag+1); } real_bytes = 8+tag[1]; } else { real_bytes = 4+(tag[0] >> 16); } #endif } if ( real_bytes % 8 ) real_bytes += (8-(real_bytes % 8)); if ( matvar->rank == 2 ) { if ( stride[0]*(edge[0]-1)+start[0]+1 > matvar->dims[0] ) err = 1; else if ( stride[1]*(edge[1]-1)+start[1]+1 > matvar->dims[1] ) err = 1; else if ( matvar->compression == MAT_COMPRESSION_NONE ) { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = data; ReadDataSlab2(mat,complex_data->Re,matvar->class_type, matvar->data_type,matvar->dims,start,stride,edge); fseek(mat->fp,matvar->internal->datapos+real_bytes,SEEK_SET); fread(tag,4,2,mat->fp); if ( mat->byteswap ) { Mat_int32Swap(tag); Mat_int32Swap(tag+1); } matvar->data_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is packed in the tag */ fseek(mat->fp,-4,SEEK_CUR); } ReadDataSlab2(mat,complex_data->Im,matvar->class_type, matvar->data_type,matvar->dims,start,stride,edge); } else { ReadDataSlab2(mat,data,matvar->class_type, matvar->data_type,matvar->dims,start,stride,edge); } } #if defined(HAVE_ZLIB) else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = data; ReadCompressedDataSlab2(mat,&z,complex_data->Re, matvar->class_type,matvar->data_type,matvar->dims, start,stride,edge); fseek(mat->fp,matvar->internal->datapos,SEEK_SET); /* Reset zlib knowledge to before reading real tag */ inflateEnd(&z); err = inflateCopy(&z,matvar->internal->z); InflateSkip(mat,&z,real_bytes); z.avail_in = 0; InflateDataType(mat,&z,tag); if ( mat->byteswap ) { Mat_int32Swap(tag); } matvar->data_type = TYPE_FROM_TAG(tag[0]); if ( !(tag[0] & 0xffff0000) ) {/*Data is NOT packed in the tag*/ InflateSkip(mat,&z,4); } ReadCompressedDataSlab2(mat,&z,complex_data->Im, matvar->class_type,matvar->data_type,matvar->dims, start,stride,edge); inflateEnd(&z); } else { ReadCompressedDataSlab2(mat,&z,data,matvar->class_type, matvar->data_type,matvar->dims,start,stride,edge); } } #endif } else { if ( matvar->compression == MAT_COMPRESSION_NONE ) { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = data; ReadDataSlabN(mat,complex_data->Re,matvar->class_type, matvar->data_type,matvar->rank,matvar->dims, start,stride,edge); fseek(mat->fp,matvar->internal->datapos+real_bytes,SEEK_SET); fread(tag,4,2,mat->fp); if ( mat->byteswap ) { Mat_int32Swap(tag); Mat_int32Swap(tag+1); } matvar->data_type = TYPE_FROM_TAG(tag[0]); if ( tag[0] & 0xffff0000 ) { /* Data is packed in the tag */ fseek(mat->fp,-4,SEEK_CUR); } ReadDataSlabN(mat,complex_data->Im,matvar->class_type, matvar->data_type,matvar->rank,matvar->dims, start,stride,edge); } else { ReadDataSlabN(mat,data,matvar->class_type,matvar->data_type, matvar->rank,matvar->dims,start,stride,edge); } } #if defined(HAVE_ZLIB) else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = data; ReadCompressedDataSlabN(mat,&z,complex_data->Re, matvar->class_type,matvar->data_type,matvar->rank, matvar->dims,start,stride,edge); fseek(mat->fp,matvar->internal->datapos,SEEK_SET); /* Reset zlib knowledge to before reading real tag */ inflateEnd(&z); err = inflateCopy(&z,matvar->internal->z); InflateSkip(mat,&z,real_bytes); z.avail_in = 0; InflateDataType(mat,&z,tag); if ( mat->byteswap ) { Mat_int32Swap(tag); } matvar->data_type = TYPE_FROM_TAG(tag[0]); if ( !(tag[0] & 0xffff0000) ) {/*Data is NOT packed in the tag*/ InflateSkip(mat,&z,4); } ReadCompressedDataSlabN(mat,&z,complex_data->Im, matvar->class_type,matvar->data_type,matvar->rank, matvar->dims,start,stride,edge); inflateEnd(&z); } else { ReadCompressedDataSlabN(mat,&z,data,matvar->class_type, matvar->data_type,matvar->rank,matvar->dims, start,stride,edge); } } #endif } if ( err ) return err; switch(matvar->class_type) { case MAT_C_DOUBLE: matvar->data_type = MAT_T_DOUBLE; matvar->data_size = sizeof(double); break; case MAT_C_SINGLE: matvar->data_type = MAT_T_SINGLE; matvar->data_size = sizeof(float); break; #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: matvar->data_type = MAT_T_INT64; matvar->data_size = sizeof(mat_int64_t); break; #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: matvar->data_type = MAT_T_UINT64; matvar->data_size = sizeof(mat_uint64_t); break; #endif /* HAVE_MAT_UINT64_T */ case MAT_C_INT32: matvar->data_type = MAT_T_INT32; matvar->data_size = sizeof(mat_int32_t); break; case MAT_C_UINT32: matvar->data_type = MAT_T_UINT32; matvar->data_size = sizeof(mat_uint32_t); break; case MAT_C_INT16: matvar->data_type = MAT_T_INT16; matvar->data_size = sizeof(mat_int16_t); break; case MAT_C_UINT16: matvar->data_type = MAT_T_UINT16; matvar->data_size = sizeof(mat_uint16_t); break; case MAT_C_INT8: matvar->data_type = MAT_T_INT8; matvar->data_size = sizeof(mat_int8_t); break; case MAT_C_UINT8: matvar->data_type = MAT_T_UINT8; matvar->data_size = sizeof(mat_uint8_t); break; } return err; } /** @if mat_devman * @brief Writes a matlab variable to a version 5 matlab file * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar pointer to the mat variable * @param compress option to compress the variable * (only works for numeric types) * @retval 0 on success * @endif */ int Mat_VarWrite5(mat_t *mat,matvar_t *matvar,int compress) { mat_uint32_t array_flags = 0x0; mat_int16_t fieldname_type = MAT_T_INT32,fieldname_data_size=4; mat_int8_t pad1 = 0; int array_flags_type = MAT_T_UINT32, dims_array_type = MAT_T_INT32; int array_flags_size = 8, pad4 = 0, matrix_type = MAT_T_MATRIX; int nBytes, i, nmemb = 1,nzmax = 0; long start = 0, end = 0; /* FIXME: SEEK_END is not Guaranteed by the C standard */ fseek(mat->fp,0,SEEK_END); /* Always write at end of file */ #if !defined(HAVE_ZLIB) compress = MAT_COMPRESSION_NONE; #endif if ( compress == MAT_COMPRESSION_NONE ) { fwrite(&matrix_type,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); start = ftell(mat->fp); /* Array Flags */ array_flags = matvar->class_type & CLASS_TYPE_MASK; if ( matvar->isComplex ) array_flags |= MAT_F_COMPLEX; if ( matvar->isGlobal ) array_flags |= MAT_F_GLOBAL; if ( matvar->isLogical ) array_flags |= MAT_F_LOGICAL; if ( matvar->class_type == MAT_C_SPARSE ) nzmax = ((mat_sparse_t *)matvar->data)->nzmax; fwrite(&array_flags_type,4,1,mat->fp); fwrite(&array_flags_size,4,1,mat->fp); fwrite(&array_flags,4,1,mat->fp); fwrite(&nzmax,4,1,mat->fp); /* Rank and Dimension */ nBytes = matvar->rank * 4; fwrite(&dims_array_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < matvar->rank; i++ ) { mat_int32_t dim; dim = matvar->dims[i]; nmemb *= dim; fwrite(&dim,4,1,mat->fp); } if ( matvar->rank % 2 != 0 ) fwrite(&pad4,4,1,mat->fp); /* Name of variable */ if ( strlen(matvar->name) <= 4 ) { mat_int32_t array_name_type = MAT_T_INT8; mat_int32_t array_name_len = strlen(matvar->name); mat_int8_t pad1 = 0; #if 0 fwrite(&array_name_type,2,1,mat->fp); fwrite(&array_name_len,2,1,mat->fp); #else array_name_type = (array_name_len << 16) | array_name_type; fwrite(&array_name_type,4,1,mat->fp); #endif fwrite(matvar->name,1,array_name_len,mat->fp); for ( i = array_name_len; i < 4; i++ ) fwrite(&pad1,1,1,mat->fp); } else { mat_int32_t array_name_type = MAT_T_INT8; mat_int32_t array_name_len = (mat_int32_t)strlen(matvar->name); mat_int8_t pad1 = 0; fwrite(&array_name_type,4,1,mat->fp); fwrite(&array_name_len,4,1,mat->fp); fwrite(matvar->name,1,array_name_len,mat->fp); if ( array_name_len % 8 ) for ( i = array_name_len % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } matvar->internal->datapos = ftell(mat->fp); switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: { if ( matvar->isComplex ) { mat_complex_split_t *complex_data = matvar->data; if ( NULL == complex_data ) complex_data = &null_complex_data; nBytes = WriteData(mat,complex_data->Re,nmemb, matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); nBytes = WriteData(mat,complex_data->Im,nmemb, matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } else { nBytes=WriteData(mat,matvar->data,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } break; } case MAT_C_CHAR: { WriteCharData(mat,matvar->data,nmemb,matvar->data_type); break; } case MAT_C_CELL: { int ncells; matvar_t **cells = (matvar_t **)matvar->data; /* Check for an empty cell array */ if ( matvar->nbytes == 0 || matvar->data_size == 0 || matvar->data == NULL ) break; ncells = matvar->nbytes / matvar->data_size; for ( i = 0; i < ncells; i++ ) WriteCellArrayField(mat,cells[i]); break; } case MAT_C_STRUCT: { char *padzero; int fieldname_size, nfields; size_t maxlen = 0; matvar_t **fields = (matvar_t **)matvar->data; mat_int32_t array_name_type = MAT_T_INT8; unsigned fieldname; /* Check for a structure with no fields */ if ( matvar->internal->num_fields < 1 ) { #if 0 fwrite(&fieldname_type,2,1,mat->fp); fwrite(&fieldname_data_size,2,1,mat->fp); #else fieldname = (fieldname_data_size<<16) | fieldname_type; fwrite(&fieldname,4,1,mat->fp); #endif fieldname_size = 1; fwrite(&fieldname_size,4,1,mat->fp); fwrite(&array_name_type,4,1,mat->fp); nBytes = 0; fwrite(&nBytes,4,1,mat->fp); break; } nfields = matvar->internal->num_fields; for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); if ( len > maxlen ) maxlen = len; } maxlen++; fieldname_size = maxlen; while ( nfields*fieldname_size % 8 != 0 ) fieldname_size++; #if 0 fwrite(&fieldname_type,2,1,mat->fp); fwrite(&fieldname_data_size,2,1,mat->fp); #else fieldname = (fieldname_data_size<<16) | fieldname_type; fwrite(&fieldname,4,1,mat->fp); #endif fwrite(&fieldname_size,4,1,mat->fp); fwrite(&array_name_type,4,1,mat->fp); nBytes = nfields*fieldname_size; fwrite(&nBytes,4,1,mat->fp); padzero = calloc(fieldname_size,1); for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); fwrite(matvar->internal->fieldnames[i],1,len,mat->fp); fwrite(padzero,1,fieldname_size-len,mat->fp); } free(padzero); for ( i = 0; i < nmemb*nfields; i++ ) WriteStructField(mat,fields[i]); break; } case MAT_C_SPARSE: { mat_sparse_t *sparse = matvar->data; nBytes = WriteData(mat,sparse->ir,sparse->nir,MAT_T_INT32); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); nBytes = WriteData(mat,sparse->jc,sparse->njc,MAT_T_INT32); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); if ( matvar->isComplex ) { mat_complex_split_t *complex_data = sparse->data; nBytes = WriteData(mat,complex_data->Re,sparse->ndata, matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); nBytes = WriteData(mat,complex_data->Im,sparse->ndata, matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } else { nBytes = WriteData(mat,sparse->data,sparse->ndata,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } } } #if defined(HAVE_ZLIB) } else if ( compress == MAT_COMPRESSION_ZLIB ) { mat_uint32_t comp_buf[512]; mat_uint32_t uncomp_buf[512] = {0,}; int buf_size = 512, err; size_t byteswritten = 0; matvar->internal->z = calloc(1,sizeof(*matvar->internal->z)); matvar->internal->z->zalloc = Z_NULL; matvar->internal->z->zfree = Z_NULL; err = deflateInit(matvar->internal->z,Z_DEFAULT_COMPRESSION); matrix_type = MAT_T_COMPRESSED; fwrite(&matrix_type,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); start = ftell(mat->fp); /* Array Flags */ array_flags = matvar->class_type & CLASS_TYPE_MASK; if ( matvar->isComplex ) array_flags |= MAT_F_COMPLEX; if ( matvar->isGlobal ) array_flags |= MAT_F_GLOBAL; if ( matvar->isLogical ) array_flags |= MAT_F_LOGICAL; if ( matvar->class_type == MAT_C_SPARSE ) nzmax = ((mat_sparse_t *)matvar->data)->nzmax; uncomp_buf[0] = MAT_T_MATRIX; uncomp_buf[1] = (int)GetMatrixMaxBufSize(matvar); matvar->internal->z->next_out = ZLIB_BYTE_PTR(comp_buf); matvar->internal->z->next_in = ZLIB_BYTE_PTR(uncomp_buf); matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = 8; err = deflate(matvar->internal->z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); uncomp_buf[0] = array_flags_type; uncomp_buf[1] = array_flags_size; uncomp_buf[2] = array_flags; uncomp_buf[3] = nzmax; /* Rank and Dimension */ nBytes = matvar->rank * 4; uncomp_buf[4] = dims_array_type; uncomp_buf[5] = nBytes; for ( i = 0; i < matvar->rank; i++ ) { mat_int32_t dim; dim = matvar->dims[i]; nmemb *= dim; uncomp_buf[6+i] = dim; } if ( matvar->rank % 2 != 0 ) { uncomp_buf[6+i] = pad4; i++; } matvar->internal->z->next_out = ZLIB_BYTE_PTR(comp_buf); matvar->internal->z->next_in = ZLIB_BYTE_PTR(uncomp_buf); matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = (6+i)*sizeof(*uncomp_buf); err = deflate(matvar->internal->z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); /* Name of variable */ if ( strlen(matvar->name) <= 4 ) { mat_int16_t array_name_len = (mat_int16_t)strlen(matvar->name); mat_int16_t array_name_type = MAT_T_INT8; memset(uncomp_buf,0,8); uncomp_buf[0] = (array_name_len << 16) | array_name_type; memcpy(uncomp_buf+1,matvar->name,array_name_len); if ( array_name_len % 4 ) array_name_len += 4-(array_name_len % 4); matvar->internal->z->next_out = ZLIB_BYTE_PTR(comp_buf); matvar->internal->z->next_in = ZLIB_BYTE_PTR(uncomp_buf); matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = 8; err = deflate(matvar->internal->z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); } else { mat_int32_t array_name_len = (mat_int32_t)strlen(matvar->name); mat_int32_t array_name_type = MAT_T_INT8; memset(uncomp_buf,0,buf_size*sizeof(*uncomp_buf)); uncomp_buf[0] = array_name_type; uncomp_buf[1] = array_name_len; memcpy(uncomp_buf+2,matvar->name,array_name_len); if ( array_name_len % 8 ) array_name_len += 8-(array_name_len % 8); matvar->internal->z->next_out = ZLIB_BYTE_PTR(comp_buf); matvar->internal->z->next_in = ZLIB_BYTE_PTR(uncomp_buf); matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = 8+array_name_len; err = deflate(matvar->internal->z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); } matvar->internal->datapos = ftell(mat->fp); switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: { /* WriteCompressedData makes sure uncomressed data is aligned * on an 8-byte boundary */ if ( matvar->isComplex ) { mat_complex_split_t *complex_data = matvar->data; if ( NULL == matvar->data ) complex_data = &null_complex_data; byteswritten += WriteCompressedData(mat,matvar->internal->z, complex_data->Re,nmemb,matvar->data_type); byteswritten += WriteCompressedData(mat,matvar->internal->z, complex_data->Im,nmemb,matvar->data_type); } else { byteswritten += WriteCompressedData(mat,matvar->internal->z, matvar->data,nmemb,matvar->data_type); } break; } case MAT_C_CHAR: { byteswritten += WriteCompressedCharData(mat,matvar->internal->z, matvar->data,nmemb,matvar->data_type); break; } case MAT_C_CELL: { int ncells; matvar_t **cells = (matvar_t **)matvar->data; /* Check for an empty cell array */ if ( matvar->nbytes == 0 || matvar->data_size == 0 || matvar->data == NULL ) break; ncells = matvar->nbytes / matvar->data_size; for ( i = 0; i < ncells; i++ ) WriteCompressedCellArrayField(mat,cells[i],matvar->internal->z); break; } case MAT_C_STRUCT: { unsigned char *padzero; int fieldname_size, nfields; size_t maxlen = 0; mat_int32_t array_name_type = MAT_T_INT8; matvar_t **fields = (matvar_t **)matvar->data; /* Check for a structure with no fields */ if ( matvar->internal->num_fields < 1 ) { fieldname_size = 1; uncomp_buf[0] = (fieldname_data_size << 16) | fieldname_type; uncomp_buf[1] = 1; uncomp_buf[2] = array_name_type; uncomp_buf[3] = 0; matvar->internal->z->next_out = ZLIB_BYTE_PTR(comp_buf); matvar->internal->z->next_in = ZLIB_BYTE_PTR(uncomp_buf); matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = 16; err = deflate(matvar->internal->z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size* sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); break; } nfields = matvar->internal->num_fields; for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); if ( len > maxlen ) maxlen = len; } maxlen++; fieldname_size = maxlen; while ( nfields*fieldname_size % 8 != 0 ) fieldname_size++; uncomp_buf[0] = (fieldname_data_size << 16) | fieldname_type; uncomp_buf[1] = fieldname_size; uncomp_buf[2] = array_name_type; uncomp_buf[3] = nfields*fieldname_size; padzero = calloc(fieldname_size,1); matvar->internal->z->next_out = ZLIB_BYTE_PTR(comp_buf); matvar->internal->z->next_in = ZLIB_BYTE_PTR(uncomp_buf); matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = 16; err = deflate(matvar->internal->z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); memset(padzero,'\0',fieldname_size); memcpy(padzero,matvar->internal->fieldnames[i],len); matvar->internal->z->next_out = ZLIB_BYTE_PTR(comp_buf); matvar->internal->z->next_in = ZLIB_BYTE_PTR(padzero); matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = fieldname_size; err = deflate(matvar->internal->z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out, mat->fp); } free(padzero); for ( i = 0; i < nmemb*nfields; i++ ) byteswritten += WriteCompressedStructField(mat,fields[i],matvar->internal->z); break; } case MAT_C_SPARSE: { mat_sparse_t *sparse = matvar->data; byteswritten += WriteCompressedData(mat,matvar->internal->z,sparse->ir, sparse->nir,MAT_T_INT32); byteswritten += WriteCompressedData(mat,matvar->internal->z,sparse->jc, sparse->njc,MAT_T_INT32); if ( matvar->isComplex ) { mat_complex_split_t *complex_data = sparse->data; byteswritten += WriteCompressedData(mat,matvar->internal->z, complex_data->Re,sparse->ndata,matvar->data_type); byteswritten += WriteCompressedData(mat,matvar->internal->z, complex_data->Im,sparse->ndata,matvar->data_type); } else { byteswritten += WriteCompressedData(mat,matvar->internal->z, sparse->data,sparse->ndata,matvar->data_type); } break; } } matvar->internal->z->avail_in = 0; matvar->internal->z->next_in = NULL; matvar->internal->z->next_out = ZLIB_BYTE_PTR(comp_buf); matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); err = deflate(matvar->internal->z,Z_FINISH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); while ( err != Z_STREAM_END && !matvar->internal->z->avail_out ) { matvar->internal->z->next_out = ZLIB_BYTE_PTR(comp_buf); matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); err = deflate(matvar->internal->z,Z_FINISH); byteswritten += fwrite(comp_buf,1, buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); } /* End the compression and set to NULL so Mat_VarFree doesn't try * to free matvar->internal->z with inflateEnd */ #if 0 if ( byteswritten % 8 ) for ( i = 0; i < 8-(byteswritten % 8); i++ ) fwrite(&pad1,1,1,mat->fp); #endif err = deflateEnd(matvar->internal->z); free(matvar->internal->z); matvar->internal->z = NULL; #endif } end = ftell(mat->fp); nBytes = (int)(end-start); fseek(mat->fp,(long)-(nBytes+4),SEEK_CUR); fwrite(&nBytes,4,1,mat->fp); fseek(mat->fp,end,SEEK_SET); return 0; } /** @if mat_devman * @brief Writes the variable information and empty data * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar pointer to the mat variable * @endif */ void WriteInfo5(mat_t *mat, matvar_t *matvar) { mat_uint32_t array_flags = 0x0; mat_int16_t fieldname_type = MAT_T_INT32,fieldname_data_size=4; mat_int8_t pad1 = 0; int array_flags_type = MAT_T_UINT32, dims_array_type = MAT_T_INT32; int array_flags_size = 8, pad4 = 0, matrix_type = MAT_T_MATRIX; int nBytes, i, nmemb = 1,nzmax; long start = 0, end = 0; /* FIXME: SEEK_END is not Guaranteed by the C standard */ fseek(mat->fp,0,SEEK_END); /* Always write at end of file */ if ( matvar->compression == MAT_COMPRESSION_NONE ) { fwrite(&matrix_type,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); start = ftell(mat->fp); /* Array Flags */ array_flags = matvar->class_type & CLASS_TYPE_MASK; if ( matvar->isComplex ) array_flags |= MAT_F_COMPLEX; if ( matvar->isGlobal ) array_flags |= MAT_F_GLOBAL; if ( matvar->isLogical ) array_flags |= MAT_F_LOGICAL; if ( matvar->class_type == MAT_C_SPARSE ) nzmax = ((mat_sparse_t *)matvar->data)->nzmax; fwrite(&array_flags_type,4,1,mat->fp); fwrite(&array_flags_size,4,1,mat->fp); fwrite(&array_flags,4,1,mat->fp); fwrite(&nzmax,4,1,mat->fp); /* Rank and Dimension */ nBytes = matvar->rank * 4; fwrite(&dims_array_type,4,1,mat->fp); fwrite(&nBytes,4,1,mat->fp); for ( i = 0; i < matvar->rank; i++ ) { mat_int32_t dim; dim = matvar->dims[i]; nmemb *= dim; fwrite(&dim,4,1,mat->fp); } if ( matvar->rank % 2 != 0 ) fwrite(&pad4,4,1,mat->fp); /* Name of variable */ if ( strlen(matvar->name) <= 4 ) { mat_int16_t array_name_len = (mat_int16_t)strlen(matvar->name); mat_int8_t pad1 = 0; mat_int16_t array_name_type = MAT_T_INT8; fwrite(&array_name_type,2,1,mat->fp); fwrite(&array_name_len,2,1,mat->fp); fwrite(matvar->name,1,array_name_len,mat->fp); for ( i = array_name_len; i < 4; i++ ) fwrite(&pad1,1,1,mat->fp); } else { mat_int32_t array_name_len = (mat_int32_t)strlen(matvar->name); mat_int8_t pad1 = 0; mat_int32_t array_name_type = MAT_T_INT8; fwrite(&array_name_type,4,1,mat->fp); fwrite(&array_name_len,4,1,mat->fp); fwrite(matvar->name,1,array_name_len,mat->fp); if ( array_name_len % 8 ) for ( i = array_name_len % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } matvar->internal->datapos = ftell(mat->fp); switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: nBytes = WriteEmptyData(mat,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); if ( matvar->isComplex ) { nBytes = WriteEmptyData(mat,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } break; case MAT_C_CHAR: { WriteEmptyCharData(mat,nmemb,matvar->data_type); break; } case MAT_C_CELL: { int ncells; matvar_t **cells = (matvar_t **)matvar->data; /* Check for an empty cell array */ if ( matvar->nbytes == 0 || matvar->data_size == 0 || matvar->data == NULL ) break; ncells = matvar->nbytes / matvar->data_size; for ( i = 0; i < ncells; i++ ) WriteCellArrayFieldInfo(mat,cells[i]); break; } case MAT_C_STRUCT: { char *padzero; int maxlen = 0, fieldname_size; int nfields = matvar->internal->num_fields; matvar_t **fields = (matvar_t **)matvar->data; mat_int32_t array_name_type = MAT_T_INT8; unsigned fieldname; for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); if ( len > maxlen ) maxlen = len; } maxlen++; fieldname_size = maxlen; while ( nfields*fieldname_size % 8 != 0 ) fieldname_size++; #if 0 fwrite(&fieldname_type,2,1,mat->fp); fwrite(&fieldname_data_size,2,1,mat->fp); #else fieldname = (fieldname_data_size<<16) | fieldname_type; fwrite(&fieldname,4,1,mat->fp); #endif fwrite(&fieldname_size,4,1,mat->fp); fwrite(&array_name_type,4,1,mat->fp); nBytes = nfields*fieldname_size; fwrite(&nBytes,4,1,mat->fp); padzero = calloc(fieldname_size,1); for ( i = 0; i < nfields; i++ ) { size_t len = strlen(matvar->internal->fieldnames[i]); fwrite(matvar->internal->fieldnames[i],1,len,mat->fp); fwrite(padzero,1,fieldname_size-len,mat->fp); } free(padzero); for ( i = 0; i < nfields; i++ ) WriteInfo5(mat,fields[i]); break; } } /* Does not work. * Can write empty data, but how to go back and add the real data? */ #if 0 } else if ( matvar->compression == MAT_COMPRESSION_ZLIB ) { #if defined(HAVE_ZLIB) mat_uint32_t comp_buf[512]; mat_uint32_t uncomp_buf[512] = {0,}; int buf_size = 512, err; size_t byteswritten = 0; matvar->internal->z = malloc(sizeof(*matvar->internal->z)); matvar->internal->z->zalloc = Z_NULL; matvar->internal->z->zfree = Z_NULL; err = deflateInit(matvar->internal->z,Z_DEFAULT_COMPRESSION); matrix_type = MAT_T_COMPRESSED; fwrite(&matrix_type,4,1,mat->fp); fwrite(&pad4,4,1,mat->fp); start = ftell(mat->fp); /* Array Flags */ array_flags = matvar->class_type & MAT_F_CLASS_T; if ( matvar->isComplex ) array_flags |= MAT_F_COMPLEX; if ( matvar->isGlobal ) array_flags |= MAT_F_GLOBAL; if ( matvar->isLogical ) array_flags |= MAT_F_LOGICAL; uncomp_buf[0] = MAT_T_MATRIX; uncomp_buf[1] = 448; matvar->internal->z->next_out = comp_buf; matvar->internal->z->next_in = uncomp_buf; matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = 8; err = deflate(matvar->internal->z,Z_SYNC_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); uncomp_buf[0] = array_flags_type; uncomp_buf[1] = array_flags_size; uncomp_buf[2] = array_flags; uncomp_buf[3] = 0; /* Rank and Dimension */ nBytes = matvar->rank * 4; uncomp_buf[4] = dims_array_type; uncomp_buf[5] = nBytes; for ( i = 0; i < matvar->rank; i++ ) { mat_int32_t dim; dim = matvar->dims[i]; nmemb *= dim; uncomp_buf[6+i] = dim; } if ( matvar->rank % 2 != 0 ) uncomp_buf[6+i] = pad4; matvar->internal->z->next_out = comp_buf; matvar->internal->z->next_in = uncomp_buf; matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = (6+i)*sizeof(*uncomp_buf); err = deflate(matvar->internal->z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); /* Name of variable */ if ( strlen(matvar->name) <= 4 ) { #if 0 mat_int16_t array_name_len = (mat_int16_t)strlen(matvar->name); mat_int8_t pad1 = 0; uncomp_buf[0] = (array_name_type << 16) | array_name_len; memcpy(uncomp_buf+1,matvar->name,array_name_len); matvar->internal->z->next_out = comp_buf; matvar->internal->z->next_in = uncomp_buf; matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = 8; err = deflate(matvar->internal->z,Z_NO_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); } else { #endif mat_int32_t array_name_len = (mat_int32_t)strlen(matvar->name); memset(uncomp_buf,0,buf_size*sizeof(*uncomp_buf)); uncomp_buf[0] = array_name_type; uncomp_buf[1] = array_name_len; memcpy(uncomp_buf+2,matvar->name,array_name_len); if ( array_name_len % 8 ) array_name_len += array_name_len % 8; matvar->internal->z->next_out = comp_buf; matvar->internal->z->next_in = uncomp_buf; matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = 8+array_name_len; err = deflate(matvar->internal->z,Z_FULL_FLUSH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); } matvar->internal->datapos = ftell(mat->fp); deflateCopy(&z_save,matvar->internal->z); switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: byteswritten += WriteCompressedEmptyData(mat,matvar->internal->z,nmemb,matvar->data_type); #if 0 if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); if ( matvar->isComplex ) { nBytes = WriteEmptyData(mat,nmemb,matvar->data_type); if ( nBytes % 8 ) for ( i = nBytes % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); } #endif break; } matvar->internal->z->next_out = comp_buf; matvar->internal->z->next_in = NULL; matvar->internal->z->avail_out = buf_size*sizeof(*comp_buf); matvar->internal->z->avail_in = 0; err = deflate(matvar->internal->z,Z_FINISH); byteswritten += fwrite(comp_buf,1,buf_size*sizeof(*comp_buf)-matvar->internal->z->avail_out,mat->fp); if ( byteswritten % 8 ) for ( i = byteswritten % 8; i < 8; i++ ) fwrite(&pad1,1,1,mat->fp); fprintf(stderr,"deflate Z_FINISH: err = %d,byteswritten = %u\n",err,byteswritten); err = deflateEnd(matvar->internal->z); fprintf(stderr,"deflateEnd: err = %d\n",err); #if 1 err = deflateEnd(matvar->internal->z); free(matvar->internal->z); matvar->internal->z = NULL; #else memcpy(matvar->internal->z,&z_save,sizeof(*matvar->internal->z)); #endif #endif #endif } end = ftell(mat->fp); nBytes = (int)(end-start); fseek(mat->fp,(long)-(nBytes+4),SEEK_CUR); fwrite(&nBytes,4,1,mat->fp); fseek(mat->fp,end,SEEK_SET); } /** @if mat_devman * @brief Reads the header information for the next MAT variable * * @ingroup mat_internal * @param mat MAT file pointer * @retuen pointer to the MAT variable or NULL * @endif */ matvar_t * Mat_VarReadNextInfo5( mat_t *mat ) { int err, data_type, nBytes, i; long fpos; matvar_t *matvar = NULL; mat_uint32_t array_flags; long bytesread = 0; if( mat == NULL ) return NULL; fpos = ftell(mat->fp); err = fread(&data_type,4,1,mat->fp); if ( !err ) return NULL; err = fread(&nBytes,4,1,mat->fp); if ( mat->byteswap ) { Mat_int32Swap(&data_type); Mat_int32Swap(&nBytes); } switch ( data_type ) { #if defined(HAVE_ZLIB) case MAT_T_COMPRESSED: { mat_uint32_t uncomp_buf[16] = {0,}; int nbytes; matvar = Mat_VarCalloc(); matvar->name = NULL; matvar->data = NULL; matvar->dims = NULL; matvar->nbytes = 0; matvar->data_type = MAT_T_UNKNOWN; matvar->class_type = MAT_C_EMPTY; matvar->data_size = 0; matvar->mem_conserve = 0; matvar->compression = 1; matvar->internal->fp = mat; matvar->internal->fpos = fpos; matvar->internal->z = calloc(1,sizeof(z_stream)); matvar->internal->z->zalloc = NULL; matvar->internal->z->zfree = NULL; matvar->internal->z->opaque = NULL; matvar->internal->z->next_in = NULL; matvar->internal->z->next_out = NULL; matvar->internal->z->avail_in = 0; matvar->internal->z->avail_out = 0; err = inflateInit(matvar->internal->z); if ( err != Z_OK ) { Mat_Critical("inflateInit2 returned %d",err); Mat_VarFree(matvar); break; } /* Read Variable tag */ bytesread += InflateVarTag(mat,matvar,uncomp_buf); if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); } nbytes = uncomp_buf[1]; if ( uncomp_buf[0] != MAT_T_MATRIX ) { Mat_Critical("Uncompressed type not MAT_T_MATRIX"); fseek(mat->fp,nBytes-bytesread,SEEK_CUR); Mat_VarFree(matvar); matvar = NULL; break; } /* Inflate Array Flags */ bytesread += InflateArrayFlags(mat,matvar,uncomp_buf); if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+2); (void)Mat_uint32Swap(uncomp_buf+3); } /* Array Flags */ if ( uncomp_buf[0] == MAT_T_UINT32 ) { array_flags = uncomp_buf[2]; matvar->class_type = CLASS_FROM_ARRAY_FLAGS(array_flags); matvar->isComplex = (array_flags & MAT_F_COMPLEX); matvar->isGlobal = (array_flags & MAT_F_GLOBAL); matvar->isLogical = (array_flags & MAT_F_LOGICAL); if ( matvar->class_type == MAT_C_SPARSE ) { /* Need to find a more appropriate place to store nzmax */ matvar->nbytes = uncomp_buf[3]; } } /* Inflate Dimensions */ bytesread += InflateDimensions(mat,matvar,uncomp_buf); if ( mat->byteswap ) { (void)Mat_uint32Swap(uncomp_buf); (void)Mat_uint32Swap(uncomp_buf+1); } /* Rank and Dimension */ if ( uncomp_buf[0] == MAT_T_INT32 ) { nbytes = uncomp_buf[1]; matvar->rank = nbytes / 4; matvar->dims = malloc(matvar->rank*sizeof(*matvar->dims)); if ( mat->byteswap ) { for ( i = 0; i < matvar->rank; i++ ) matvar->dims[i] = Mat_uint32Swap(&(uncomp_buf[2+i])); } else { for ( i = 0; i < matvar->rank; i++ ) matvar->dims[i] = uncomp_buf[2+i]; } } /* Inflate variable name tag */ bytesread += InflateVarNameTag(mat,matvar,uncomp_buf); if ( mat->byteswap ) (void)Mat_uint32Swap(uncomp_buf); /* Name of variable */ if ( uncomp_buf[0] == MAT_T_INT8 ) { /* Name not in tag */ int len; if ( mat->byteswap ) len = Mat_uint32Swap(uncomp_buf+1); else len = uncomp_buf[1]; if ( len % 8 == 0 ) i = len; else i = len+(8-(len % 8)); matvar->name = malloc(i+1); /* Inflate variable name */ bytesread += InflateVarName(mat,matvar,matvar->name,i); matvar->name[len] = '\0'; } else if ( ((uncomp_buf[0] & 0x0000ffff) == MAT_T_INT8) && ((uncomp_buf[0] & 0xffff0000) != 0x00) ) { /* Name packed in tag */ int len; len = (uncomp_buf[0] & 0xffff0000) >> 16; matvar->name = malloc(len+1); memcpy(matvar->name,uncomp_buf+1,len); matvar->name[len] = '\0'; } if ( matvar->class_type == MAT_C_STRUCT ) ReadNextStructField(mat,matvar); else if ( matvar->class_type == MAT_C_CELL ) ReadNextCell(mat,matvar); fseek(mat->fp,-(int)matvar->internal->z->avail_in,SEEK_CUR); matvar->internal->datapos = ftell(mat->fp); fseek(mat->fp,nBytes+8+fpos,SEEK_SET); break; } #endif case MAT_T_MATRIX: { int nbytes; mat_uint32_t buf[32]; size_t bytesread = 0; matvar = Mat_VarCalloc(); matvar->internal->fpos = fpos; matvar->internal->fp = mat; /* Read Array Flags and The Dimensions Tag */ bytesread += fread(buf,4,6,mat->fp); if ( mat->byteswap ) { (void)Mat_uint32Swap(buf); (void)Mat_uint32Swap(buf+1); (void)Mat_uint32Swap(buf+2); (void)Mat_uint32Swap(buf+3); (void)Mat_uint32Swap(buf+4); (void)Mat_uint32Swap(buf+5); } /* Array Flags */ if ( buf[0] == MAT_T_UINT32 ) { array_flags = buf[2]; matvar->class_type = CLASS_FROM_ARRAY_FLAGS(array_flags); matvar->isComplex = (array_flags & MAT_F_COMPLEX); matvar->isGlobal = (array_flags & MAT_F_GLOBAL); matvar->isLogical = (array_flags & MAT_F_LOGICAL); if ( matvar->class_type == MAT_C_SPARSE ) { /* Need to find a more appropriate place to store nzmax */ matvar->nbytes = buf[3]; } } /* Rank and Dimension */ if ( buf[4] == MAT_T_INT32 ) { nbytes = buf[5]; matvar->rank = nbytes / 4; matvar->dims = malloc(matvar->rank*sizeof(*matvar->dims)); /* Assumes rank <= 16 */ if ( matvar->rank % 2 != 0 ) bytesread+=fread(buf,4,matvar->rank+1,mat->fp); else bytesread+=fread(buf,4,matvar->rank,mat->fp); if ( mat->byteswap ) { for ( i = 0; i < matvar->rank; i++ ) matvar->dims[i] = Mat_uint32Swap(buf+i); } else { for ( i = 0; i < matvar->rank; i++ ) matvar->dims[i] = buf[i]; } } /* Variable Name Tag */ bytesread+=fread(buf,4,2,mat->fp); if ( mat->byteswap ) (void)Mat_uint32Swap(buf); /* Name of variable */ if ( buf[0] == MAT_T_INT8 ) { /* Name not in tag */ int len; if ( mat->byteswap ) len = Mat_uint32Swap(buf+1); else len = buf[1]; if ( len % 8 == 0 ) i = len; else i = len+(8-(len % 8)); bytesread+=fread(buf,1,i,mat->fp); matvar->name = malloc(len+1); memcpy(matvar->name,buf,len); matvar->name[len] = '\0'; } else if ( ((buf[0] & 0x0000ffff) == MAT_T_INT8) && ((buf[0] & 0xffff0000) != 0x00) ) { /* Name packed in the tag */ int len; len = (buf[0] & 0xffff0000) >> 16; matvar->name = malloc(len+1); memcpy(matvar->name,buf+1,len); matvar->name[len] = '\0'; } if ( matvar->class_type == MAT_C_STRUCT ) (void)ReadNextStructField(mat,matvar); else if ( matvar->class_type == MAT_C_CELL ) (void)ReadNextCell(mat,matvar); else if ( matvar->class_type == MAT_C_FUNCTION ) (void)ReadNextFunctionHandle(mat,matvar); matvar->internal->datapos = ftell(mat->fp); fseek(mat->fp,nBytes+8+fpos,SEEK_SET); break; } default: Mat_Message("%d is not valid (MAT_T_MATRIX or MAT_T_COMPRESSED", data_type); return NULL; } return matvar; } PDL-IO-Matlab-release-0.005/matio-1.5.0/src/mat5.h000066400000000000000000000074531206363665300206570ustar00rootroot00000000000000/* * Copyright (C) 2008-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef MAT5_H #define MAT5_H #ifdef __cplusplus # define EXTERN extern "C" #else # define EXTERN extern #endif static size_t GetStructFieldBufSize(matvar_t *matvar); static size_t GetCellArrayFieldBufSize(matvar_t *matvar); static size_t GetMatrixMaxBufSize(matvar_t *matvar); static size_t GetEmptyMatrixMaxBufSize(const char *name,int rank); static int WriteEmptyCharData(mat_t *mat, int N, enum matio_types data_type); static int WriteEmptyData(mat_t *mat,int N,enum matio_types data_type); static int ReadNextCell( mat_t *mat, matvar_t *matvar ); static int ReadNextStructField( mat_t *mat, matvar_t *matvar ); static int ReadNextFunctionHandle(mat_t *mat, matvar_t *matvar); static int WriteCellArrayFieldInfo(mat_t *mat,matvar_t *matvar); static int WriteCellArrayField(mat_t *mat,matvar_t *matvar ); static int WriteStructField(mat_t *mat,matvar_t *matvar); static size_t Mat_WriteEmptyVariable5(mat_t *mat,const char *name,int rank, size_t *dims); #if defined(HAVE_ZLIB) static size_t WriteCompressedCharData(mat_t *mat,z_stream *z,void *data,int N, enum matio_types data_type); static int WriteCompressedEmptyData(mat_t *mat,z_stream *z,int N, enum matio_types data_type); static size_t WriteCompressedData(mat_t *mat,z_stream *z,void *data,int N, enum matio_types data_type); static size_t WriteCompressedCellArrayField(mat_t *mat,matvar_t *matvar, z_stream *z); static size_t WriteCompressedStructField(mat_t *mat,matvar_t *matvar, z_stream *z); static size_t Mat_WriteCompressedEmptyVariable5(mat_t *mat,const char *name, int rank,size_t *dims,z_stream *z); #endif /* mat5.c */ EXTERN mat_t *Mat_Create5(const char *matname,const char *hdr_str); matvar_t *Mat_VarReadNextInfo5( mat_t *mat ); void Read5(mat_t *mat, matvar_t *matvar); int ReadData5(mat_t *mat,matvar_t *matvar,void *data, int *start,int *stride,int *edge); int Mat_VarWrite5(mat_t *mat,matvar_t *matvar,int compress); int WriteCharDataSlab2(mat_t *mat,void *data,enum matio_types data_type, size_t *dims,int *start,int *stride,int *edge); int WriteData(mat_t *mat,void *data,int N,enum matio_types data_type); int WriteDataSlab2(mat_t *mat,void *data,enum matio_types data_type, size_t *dims,int *start,int *stride,int *edge); void WriteInfo5(mat_t *mat, matvar_t *matvar); #endif PDL-IO-Matlab-release-0.005/matio-1.5.0/src/mat73.c000066400000000000000000002717311206363665300207410ustar00rootroot00000000000000/** @file mat5.c * Matlab MAT version 5 file functions * @ingroup MAT */ /* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include "matio_private.h" #if HAVE_HDF5 #include "hdf5.h" #include "mat73.h" static const char *Mat_class_names[] = { "", "cell", "struct", "object", "char", "sparse", "double", "single", "int8", "uint8", "int16", "uint16", "int32", "uint32", "int64", "uint64", "function" }; /*=========================================================================== * Private functions *=========================================================================== */ static enum matio_classes Mat_class_str_to_id(const char *name); static hid_t Mat_class_type_to_hid_t(enum matio_classes class_type); static hid_t Mat_data_type_to_hid_t(enum matio_types data_type); static hid_t Mat_dims_type_to_hid_t(void); static void Mat_H5GetChunkSize(size_t rank,hsize_t *dims,hsize_t *chunk_dims); static void Mat_H5ReadDatasetInfo(mat_t *mat,matvar_t *matvar,hid_t dset_id); static void Mat_H5ReadGroupInfo(mat_t *mat,matvar_t *matvar,hid_t dset_id); static void Mat_H5ReadNextReferenceInfo(hid_t ref_id,matvar_t *matvar,mat_t *mat); static void Mat_H5ReadNextReferenceData(hid_t ref_id,matvar_t *matvar,mat_t *mat); static int Mat_VarWriteCell73(hid_t id,matvar_t *matvar,const char *name, hid_t *refs_id); static int Mat_VarWriteChar73(hid_t id,matvar_t *matvar,const char *name); static int Mat_WriteEmptyVariable73(hid_t id,const char *name,hsize_t rank, size_t *dims); static int Mat_VarWriteNumeric73(hid_t id,matvar_t *matvar,const char *name); static int Mat_VarWriteStruct73(hid_t id,matvar_t *matvar,const char *name, hid_t *refs_id); static int Mat_VarWriteNext73(hid_t id,matvar_t *matvar,const char *name, hid_t *refs_id); static enum matio_classes Mat_class_str_to_id(const char *name) { enum matio_classes id = MAT_C_EMPTY; if ( NULL != name ) { int k; for ( k = 1; k < 17; k++ ) { if ( !strcmp(name,Mat_class_names[k]) ) { id = (enum matio_classes)k; break; } } } return id; } static enum matio_types Mat_ClassToType73(enum matio_classes class_type) { enum matio_types type; switch ( class_type ) { case MAT_C_DOUBLE: type = MAT_T_DOUBLE; break; case MAT_C_SINGLE: type = MAT_T_SINGLE; break; case MAT_C_INT64: type = MAT_T_INT64; break; case MAT_C_UINT64: type = MAT_T_UINT64; break; case MAT_C_INT32: type = MAT_T_INT32; break; case MAT_C_UINT32: type = MAT_T_UINT32; break; case MAT_C_INT16: type = MAT_T_INT16; break; case MAT_C_UINT16: type = MAT_T_UINT16; break; case MAT_C_INT8: type = MAT_T_INT8; break; case MAT_C_CHAR: type = MAT_T_UINT8; break; case MAT_C_UINT8: type = MAT_T_UINT8; break; case MAT_C_CELL: type = MAT_T_CELL; break; case MAT_C_STRUCT: type = MAT_T_STRUCT; break; default: type = MAT_T_UNKNOWN; break; } return type; } static enum matio_classes Mat_TypeToClass73(enum matio_types type) { enum matio_classes class_type = MAT_C_EMPTY; switch ( type ) { case MAT_T_DOUBLE: class_type = MAT_C_DOUBLE; break; case MAT_T_SINGLE: class_type = MAT_C_SINGLE; break; case MAT_T_INT64: class_type = MAT_C_INT64; break; case MAT_T_UINT64: class_type = MAT_C_UINT64; break; case MAT_T_INT32: class_type = MAT_C_INT32; break; case MAT_T_UINT32: class_type = MAT_C_UINT32; break; case MAT_T_INT16: class_type = MAT_C_INT16; break; case MAT_T_UINT16: class_type = MAT_C_UINT16; break; case MAT_T_INT8: class_type = MAT_C_INT8; break; case MAT_T_UINT8: class_type = MAT_C_UINT8; break; } return class_type; } static hid_t Mat_class_type_to_hid_t(enum matio_classes class_type) { switch ( class_type ) { case MAT_C_DOUBLE: return H5T_NATIVE_DOUBLE; case MAT_C_SINGLE: return H5T_NATIVE_FLOAT; case MAT_C_INT64: # if CHAR_BIT*SIZEOF_SHORT == 64 return H5T_NATIVE_SHORT; # elif CHAR_BIT*SIZEOF_INT == 64 return H5T_NATIVE_INT; # elif CHAR_BIT*SIZEOF_LONG == 64 return H5T_NATIVE_LONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 64 return H5T_NATIVE_LLONG; # endif case MAT_C_UINT64: # if CHAR_BIT*SIZEOF_SHORT == 64 return H5T_NATIVE_USHORT; # elif CHAR_BIT*SIZEOF_INT == 64 return H5T_NATIVE_UINT; # elif CHAR_BIT*SIZEOF_LONG == 64 return H5T_NATIVE_ULONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 64 return H5T_NATIVE_ULLONG; # endif case MAT_C_INT32: # if CHAR_BIT == 32 return H5T_NATIVE_SCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 32 return H5T_NATIVE_SHORT; # elif CHAR_BIT*SIZEOF_INT == 32 return H5T_NATIVE_INT; # elif CHAR_BIT*SIZEOF_LONG == 32 return H5T_NATIVE_LONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 32 return H5T_NATIVE_LLONG; # endif case MAT_C_UINT32: # if CHAR_BIT == 32 return H5T_NATIVE_UCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 32 return H5T_NATIVE_USHORT; # elif CHAR_BIT*SIZEOF_INT == 32 return H5T_NATIVE_UINT; # elif CHAR_BIT*SIZEOF_LONG == 32 return H5T_NATIVE_ULONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 32 return H5T_NATIVE_ULLONG; # endif case MAT_C_INT16: # if CHAR_BIT == 16 return H5T_NATIVE_SCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 16 return H5T_NATIVE_SHORT; # elif CHAR_BIT*SIZEOF_INT == 16 return H5T_NATIVE_INT; # elif CHAR_BIT*SIZEOF_LONG == 16 return H5T_NATIVE_LONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 16 return H5T_NATIVE_LLONG; # endif case MAT_C_UINT16: # if CHAR_BIT == 16 return H5T_NATIVE_UCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 16 return H5T_NATIVE_USHORT; # elif CHAR_BIT*SIZEOF_INT == 16 return H5T_NATIVE_UINT; # elif CHAR_BIT*SIZEOF_LONG == 16 return H5T_NATIVE_ULONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 16 return H5T_NATIVE_ULLONG; # endif case MAT_C_INT8: # if CHAR_BIT == 8 return H5T_NATIVE_SCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 8 return H5T_NATIVE_SHORT; # elif CHAR_BIT*SIZEOF_INT == 8 return H5T_NATIVE_INT; # elif CHAR_BIT*SIZEOF_LONG == 8 return H5T_NATIVE_LONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 8 return H5T_NATIVE_LLONG; # endif case MAT_C_UINT8: # if CHAR_BIT == 8 return H5T_NATIVE_UCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 8 return H5T_NATIVE_USHORT; # elif CHAR_BIT*SIZEOF_INT == 8 return H5T_NATIVE_UINT; # elif CHAR_BIT*SIZEOF_LONG == 8 return H5T_NATIVE_ULONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 8 return H5T_NATIVE_ULLONG; # endif default: return -1; } } static hid_t Mat_data_type_to_hid_t(enum matio_types data_type) { switch ( data_type ) { case MAT_T_DOUBLE: return H5T_NATIVE_DOUBLE; case MAT_T_SINGLE: return H5T_NATIVE_FLOAT; case MAT_T_INT64: # if CHAR_BIT*SIZEOF_SHORT == 64 return H5T_NATIVE_SHORT; # elif CHAR_BIT*SIZEOF_INT == 64 return H5T_NATIVE_INT; # elif CHAR_BIT*SIZEOF_LONG == 64 return H5T_NATIVE_LONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 64 return H5T_NATIVE_LLONG; # endif case MAT_T_UINT64: # if CHAR_BIT*SIZEOF_SHORT == 64 return H5T_NATIVE_USHORT; # elif CHAR_BIT*SIZEOF_INT == 64 return H5T_NATIVE_UINT; # elif CHAR_BIT*SIZEOF_LONG == 64 return H5T_NATIVE_ULONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 64 return H5T_NATIVE_ULLONG; # endif case MAT_T_INT32: # if CHAR_BIT == 32 return H5T_NATIVE_SCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 32 return H5T_NATIVE_SHORT; # elif CHAR_BIT*SIZEOF_INT == 32 return H5T_NATIVE_INT; # elif CHAR_BIT*SIZEOF_LONG == 32 return H5T_NATIVE_LONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 32 return H5T_NATIVE_LLONG; # endif case MAT_T_UINT32: # if CHAR_BIT == 32 return H5T_NATIVE_UCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 32 return H5T_NATIVE_USHORT; # elif CHAR_BIT*SIZEOF_INT == 32 return H5T_NATIVE_UINT; # elif CHAR_BIT*SIZEOF_LONG == 32 return H5T_NATIVE_ULONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 32 return H5T_NATIVE_ULLONG; # endif case MAT_T_INT16: # if CHAR_BIT == 16 return H5T_NATIVE_SCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 16 return H5T_NATIVE_SHORT; # elif CHAR_BIT*SIZEOF_INT == 16 return H5T_NATIVE_INT; # elif CHAR_BIT*SIZEOF_LONG == 16 return H5T_NATIVE_LONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 16 return H5T_NATIVE_LLONG; # endif case MAT_T_UINT16: # if CHAR_BIT == 16 return H5T_NATIVE_UCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 16 return H5T_NATIVE_USHORT; # elif CHAR_BIT*SIZEOF_INT == 16 return H5T_NATIVE_UINT; # elif CHAR_BIT*SIZEOF_LONG == 16 return H5T_NATIVE_ULONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 16 return H5T_NATIVE_ULLONG; # endif case MAT_T_INT8: # if CHAR_BIT == 8 return H5T_NATIVE_SCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 8 return H5T_NATIVE_SHORT; # elif CHAR_BIT*SIZEOF_INT == 8 return H5T_NATIVE_INT; # elif CHAR_BIT*SIZEOF_LONG == 8 return H5T_NATIVE_LONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 8 return H5T_NATIVE_LLONG; # endif case MAT_T_UINT8: # if CHAR_BIT == 8 return H5T_NATIVE_UCHAR; # elif CHAR_BIT*SIZEOF_SHORT == 8 return H5T_NATIVE_USHORT; # elif CHAR_BIT*SIZEOF_INT == 8 return H5T_NATIVE_UINT; # elif CHAR_BIT*SIZEOF_LONG == 8 return H5T_NATIVE_ULONG; # elif CHAR_BIT*SIZEOF_LONG_LONG == 8 return H5T_NATIVE_ULLONG; # endif default: return -1; } } static hid_t Mat_dims_type_to_hid_t(void) { if ( sizeof(size_t) == H5Tget_size(H5T_NATIVE_HSIZE) ) return H5T_NATIVE_HSIZE; else if ( sizeof(size_t) == H5Tget_size(H5T_NATIVE_ULLONG) ) return H5T_NATIVE_ULLONG; else if ( sizeof(size_t) == H5Tget_size(H5T_NATIVE_ULONG) ) return H5T_NATIVE_ULONG; else if ( sizeof(size_t) == H5Tget_size(H5T_NATIVE_UINT) ) return H5T_NATIVE_UINT; else if ( sizeof(size_t) == H5Tget_size(H5T_NATIVE_USHORT) ) return H5T_NATIVE_USHORT; else return -1; } static void Mat_H5GetChunkSize(size_t rank,hsize_t *dims,hsize_t *chunk_dims) { unsigned i, max_idx[2] = {0,1}; chunk_dims[0] = 1; chunk_dims[1] = 1; if ( dims[0] > dims[1] ) { max_idx[0] = 0; max_idx[1] = 1; } else { max_idx[0] = 1; max_idx[1] = 0; } for ( i = 2; i < rank; i++ ) { chunk_dims[i] = 1; if ( dims[i] > max_idx[0] ) { max_idx[1] = max_idx[0]; max_idx[0] = i; } else if ( dims[i] > max_idx[1] ) { max_idx[1] = i; } } /* Compute smaller dimension d=chunk size first */ for ( i = 64; i > 1; i >>= 1 ) { if ( dims[max_idx[1]] > i ) { chunk_dims[1] = i; break; } } /* Use up to a 4k block size */ i = 4096 / chunk_dims[1]; for ( ; i > 1; i >>= 1 ) { if ( dims[max_idx[0]] > i ) { chunk_dims[0] = i; break; } } } static void Mat_H5ReadDatasetInfo(mat_t *mat,matvar_t *matvar,hid_t dset_id) { ssize_t name_len; /* FIXME */ hsize_t dims[10]; hid_t attr_id,type_id,space_id; H5E_auto_t efunc; void *client_data; #if 0 matvar->fp = mat; name_len = H5Gget_objname_by_idx(fid,mat->next_index,NULL,0); matvar->name = malloc(1+name_len); if ( matvar->name ) { name_len = H5Gget_objname_by_idx(fid,mat->next_index, matvar->name,1+name_len); matvar->name[name_len] = '\0'; } dset_id = H5Dopen(fid,matvar->name); #endif /* Get the HDF5 name of the variable */ name_len = H5Iget_name(dset_id,NULL,0); if ( name_len > 0 ) { matvar->internal->hdf5_name = malloc(name_len+1); (void)H5Iget_name(dset_id,matvar->internal->hdf5_name,name_len+1); } else { /* Can not get an internal name, so leave the identifier open */ matvar->internal->id = dset_id; } space_id = H5Dget_space(dset_id); matvar->rank = H5Sget_simple_extent_ndims(space_id); matvar->dims = malloc(matvar->rank*sizeof(*matvar->dims)); if ( NULL != matvar->dims ) { int k; H5Sget_simple_extent_dims(space_id,dims,NULL); for ( k = 0; k < matvar->rank; k++ ) matvar->dims[k] = dims[matvar->rank - k - 1]; } H5Sclose(space_id); attr_id = H5Aopen_name(dset_id,"MATLAB_class"); type_id = H5Aget_type(attr_id); if ( H5T_STRING == H5Tget_class(type_id) ) { char *class_str = calloc(H5Tget_size(type_id)+1,1); if ( NULL != class_str ) { hid_t class_id = H5Tcopy(H5T_C_S1); H5Tset_size(class_id,H5Tget_size(type_id)); H5Aread(attr_id,class_id,class_str); H5Tclose(class_id); matvar->class_type = Mat_class_str_to_id(class_str); matvar->data_type = Mat_ClassToType73(matvar->class_type); free(class_str); } } H5Tclose(type_id); H5Aclose(attr_id); /* Turn off error printing so testing for attributes doesn't print * error stacks */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); attr_id = H5Aopen_name(dset_id,"MATLAB_global"); /* FIXME: Check that dataspace is scalar */ if ( -1 < attr_id ) { H5Aread(attr_id,H5T_NATIVE_INT,&matvar->isGlobal); H5Aclose(attr_id); } /* Check for attribute that indicates an empty array */ attr_id = H5Aopen_name(dset_id,"MATLAB_empty"); /* FIXME: Check that dataspace is scalar */ if ( -1 < attr_id ) { int empty = 0; H5Aread(attr_id,H5T_NATIVE_INT,&empty); H5Aclose(attr_id); if ( empty ) { matvar->rank = matvar->dims[0]; matvar->dims = calloc(matvar->rank,sizeof(*matvar->dims)); H5Dread(dset_id,Mat_dims_type_to_hid_t(),H5S_ALL,H5S_ALL, H5P_DEFAULT,matvar->dims); } } H5Eset_auto(H5E_DEFAULT,efunc,client_data); /* Test if dataset type is compound and if so if it's complex */ type_id = H5Dget_type(dset_id); if ( H5T_COMPOUND == H5Tget_class(type_id) ) { /* FIXME: Any more checks? */ matvar->isComplex = MAT_F_COMPLEX; } H5Tclose(type_id); /* If the dataset is a cell array read the info of the cells */ if ( MAT_C_CELL == matvar->class_type ) { matvar_t **cells; int i,ncells = 1; hobj_ref_t *ref_ids; for ( i = 0; i < matvar->rank; i++ ) ncells *= matvar->dims[i]; matvar->data_size = sizeof(matvar_t**); matvar->nbytes = ncells*matvar->data_size; matvar->data = malloc(matvar->nbytes); cells = matvar->data; if ( ncells ) { ref_ids = malloc(ncells*sizeof(*ref_ids)); H5Dread(dset_id,H5T_STD_REF_OBJ,H5S_ALL,H5S_ALL,H5P_DEFAULT, ref_ids); for ( i = 0; i < ncells; i++ ) { hid_t ref_id; cells[i] = Mat_VarCalloc(); cells[i]->internal->hdf5_ref = ref_ids[i]; /* Closing of ref_id is done in Mat_H5ReadNextReferenceInfo */ ref_id = H5Rdereference(dset_id,H5R_OBJECT,ref_ids+i); cells[i]->internal->id = ref_id; cells[i]->internal->fp = matvar->internal->fp; Mat_H5ReadNextReferenceInfo(ref_id,cells[i],mat); } free(ref_ids); } } else if ( MAT_C_STRUCT == matvar->class_type ) { /* Empty structures can be a dataset */ /* Turn off error printing so testing for attributes doesn't print * error stacks */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); /* Check if the structure defines its fields in MATLAB_fields */ attr_id = H5Aopen_name(dset_id,"MATLAB_fields"); if ( -1 < attr_id ) { int i; hid_t field_id; hsize_t nfields; hvl_t *fieldnames_vl; space_id = H5Aget_space(attr_id); (void)H5Sget_simple_extent_dims(space_id,&nfields,NULL); field_id = H5Aget_type(attr_id); fieldnames_vl = malloc(nfields*sizeof(*fieldnames_vl)); H5Aread(attr_id,field_id,fieldnames_vl); matvar->internal->num_fields = nfields; matvar->internal->fieldnames = calloc(nfields,sizeof(*matvar->internal->fieldnames)); for ( i = 0; i < nfields; i++ ) { matvar->internal->fieldnames[i] = calloc(fieldnames_vl[i].len+1,1); memcpy(matvar->internal->fieldnames[i],fieldnames_vl[i].p, fieldnames_vl[i].len); } H5Dvlen_reclaim(field_id,space_id,H5P_DEFAULT, fieldnames_vl); H5Sclose(space_id); H5Tclose(field_id); H5Aclose(attr_id); free(fieldnames_vl); } H5Eset_auto(H5E_DEFAULT,efunc,client_data); } } static void Mat_H5ReadGroupInfo(mat_t *mat,matvar_t *matvar,hid_t dset_id) { ssize_t name_len; int k, fields_are_variables = 1; /* FIXME */ hsize_t dims[10],nfields=0,numel; hid_t attr_id,type_id,space_id,field_id,field_type_id; matvar_t **fields; H5E_auto_t efunc; void *client_data; #if 0 matvar->fp = mat; name_len = H5Gget_objname_by_idx(fid,mat->next_index,NULL,0); matvar->name = malloc(1+name_len); if ( matvar->name ) { name_len = H5Gget_objname_by_idx(fid,mat->next_index, matvar->name,1+name_len); matvar->name[name_len] = '\0'; } dset_id = H5Gopen(fid,matvar->name); #endif /* Get the HDF5 name of the variable */ name_len = H5Iget_name(dset_id,NULL,0); if ( name_len > 0 ) { matvar->internal->hdf5_name = malloc(name_len+1); (void)H5Iget_name(dset_id,matvar->internal->hdf5_name,name_len+1); } else { /* Can not get an internal name, so leave the identifier open */ matvar->internal->id = dset_id; } attr_id = H5Aopen_name(dset_id,"MATLAB_class"); type_id = H5Aget_type(attr_id); if ( H5T_STRING == H5Tget_class(type_id) ) { char *class_str = calloc(H5Tget_size(type_id)+1,1); if ( NULL != class_str ) { hid_t class_id = H5Tcopy(H5T_C_S1); H5Tset_size(class_id,H5Tget_size(type_id)); H5Aread(attr_id,class_id,class_str); H5Tclose(class_id); matvar->class_type = Mat_class_str_to_id(class_str); matvar->data_type = Mat_ClassToType73(matvar->class_type); free(class_str); } } H5Tclose(type_id); H5Aclose(attr_id); /* Turn off error printing so testing for attributes doesn't print * error stacks */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); /* Check if the variable is global */ attr_id = H5Aopen_name(dset_id,"MATLAB_global"); /* FIXME: Check that dataspace is scalar */ if ( -1 < attr_id ) { H5Aread(attr_id,H5T_NATIVE_INT,&matvar->isGlobal); H5Aclose(attr_id); } /* Check if the variable is sparse */ attr_id = H5Aopen_name(dset_id,"MATLAB_sparse"); if ( -1 < attr_id ) { hid_t sparse_dset_id; unsigned nrows = 0; H5Eset_auto(H5E_DEFAULT,efunc,client_data); H5Aread(attr_id,H5T_NATIVE_UINT,&nrows); H5Aclose(attr_id); matvar->class_type = MAT_C_SPARSE; matvar->rank = 2; matvar->dims = malloc(matvar->rank*sizeof(*matvar->dims)); matvar->dims[0] = nrows; sparse_dset_id = H5Dopen(dset_id,"jc",H5P_DEFAULT); if ( -1 < sparse_dset_id ) { space_id = H5Dget_space(sparse_dset_id); (void)H5Sget_simple_extent_dims(space_id,dims,NULL); matvar->dims[1] = dims[0] - 1; } /* Test if dataset type is compound and if so if it's complex */ sparse_dset_id = H5Dopen(dset_id,"data",H5P_DEFAULT); if ( -1 < sparse_dset_id ) { type_id = H5Dget_type(sparse_dset_id); if ( H5T_COMPOUND == H5Tget_class(type_id) ) { /* FIXME: Any more checks? */ matvar->isComplex = MAT_F_COMPLEX; } H5Tclose(type_id); H5Dclose(sparse_dset_id); } return; } /* Check if the structure defines its fields in MATLAB_fields */ attr_id = H5Aopen_name(dset_id,"MATLAB_fields"); if ( -1 < attr_id ) { hvl_t *fieldnames_vl; space_id = H5Aget_space(attr_id); (void)H5Sget_simple_extent_dims(space_id,&nfields,NULL); field_id = H5Aget_type(attr_id); fieldnames_vl = malloc(nfields*sizeof(*fieldnames_vl)); H5Aread(attr_id,field_id,fieldnames_vl); matvar->internal->num_fields = nfields; matvar->internal->fieldnames = malloc(nfields*sizeof(*matvar->internal->fieldnames)); for ( k = 0; k < nfields; k++ ) { matvar->internal->fieldnames[k] = calloc(fieldnames_vl[k].len+1,1); memcpy(matvar->internal->fieldnames[k],fieldnames_vl[k].p, fieldnames_vl[k].len); } H5Dvlen_reclaim(field_id,space_id,H5P_DEFAULT,fieldnames_vl); H5Sclose(space_id); H5Tclose(field_id); H5Aclose(attr_id); free(fieldnames_vl); } else { hsize_t next_index = 0,num_objs = 0; int obj_type; H5Gget_num_objs(dset_id,&num_objs); if ( num_objs > 0 ) { matvar->internal->fieldnames = calloc(num_objs,sizeof(*matvar->internal->fieldnames)); /* FIXME: follow symlinks, datatypes? */ while ( next_index < num_objs ) { obj_type = H5Gget_objtype_by_idx(dset_id,next_index); switch ( obj_type ) { case H5G_DATASET: { int len; len = H5Gget_objname_by_idx(dset_id,next_index,NULL,0); matvar->internal->fieldnames[nfields] = calloc(len+1,sizeof(*matvar->internal->fieldnames)); H5Gget_objname_by_idx(dset_id,next_index, matvar->internal->fieldnames[nfields],len+1); nfields++; break; } case H5G_GROUP: { /* Check that this is not the /#refs# group */ char name[128] = {0,}; (void)H5Gget_objname_by_idx(dset_id,next_index,name,127); if ( strcmp(name,"#refs#") ) { int len; len = H5Gget_objname_by_idx(dset_id,next_index,NULL,0); matvar->internal->fieldnames[nfields] = calloc(len+1,1); H5Gget_objname_by_idx(dset_id,next_index, matvar->internal->fieldnames[nfields],len+1); nfields++; } break; } } next_index++; } matvar->internal->num_fields = nfields; } } if ( matvar->internal->num_fields > 0 && -1 < (field_id = H5Dopen(dset_id,matvar->internal->fieldnames[0], H5P_DEFAULT)) ) { field_type_id = H5Dget_type(field_id); if ( H5T_REFERENCE == H5Tget_class(field_type_id) ) { /* Check if the field has the MATLAB_class attribute. If so, it * means the structure is a scalar. Otherwise, the dimensions of * the field dataset is the dimensions of the structure */ /* Turn off error printing so testing for attributes doesn't print * error stacks */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); attr_id = H5Aopen_name(field_id,"MATLAB_class"); H5Eset_auto(H5E_DEFAULT,efunc,client_data); if ( -1 < attr_id ) { H5Aclose(attr_id); matvar->rank = 2; matvar->dims = malloc(2*sizeof(*matvar->dims)); matvar->dims[0] = 1; matvar->dims[1] = 1; numel = 1; } else { space_id = H5Dget_space(field_id); matvar->rank = H5Sget_simple_extent_ndims(space_id); matvar->dims = malloc(matvar->rank*sizeof(*matvar->dims)); (void)H5Sget_simple_extent_dims(space_id,dims,NULL); numel = 1; for ( k = 0; k < matvar->rank; k++ ) { matvar->dims[k] = dims[matvar->rank - k - 1]; numel *= matvar->dims[k]; } H5Sclose(space_id); fields_are_variables = 0; } } else { /* Structure should be a scalar */ matvar->rank = 2; matvar->dims = malloc(2*sizeof(*matvar->dims)); matvar->dims[0] = 1; matvar->dims[1] = 1; numel = 1; } H5Tclose(field_type_id); H5Dclose(field_id); } else { /* Structure should be a scalar */ numel = 1; matvar->rank = 2; matvar->dims = malloc(2*sizeof(*matvar->dims)); matvar->dims[0] = 1; matvar->dims[1] = 1; } if ( !nfields ) { H5Eset_auto(H5E_DEFAULT,efunc,client_data); return; } H5Eset_auto(H5E_DEFAULT,efunc,client_data); if ( numel < 1 || nfields < 1 ) return; fields = malloc(nfields*numel*sizeof(*fields)); matvar->data = fields; matvar->data_size = sizeof(*fields); matvar->nbytes = nfields*numel*matvar->data_size; if ( NULL != fields ) { for ( k = 0; k < nfields; k++ ) { int l; fields[k] = NULL; field_id = H5Dopen(dset_id,matvar->internal->fieldnames[k], H5P_DEFAULT); if ( -1 < field_id ) { if ( !fields_are_variables ) { hobj_ref_t *ref_ids = malloc(numel*sizeof(*ref_ids)); H5Dread(field_id,H5T_STD_REF_OBJ,H5S_ALL,H5S_ALL, H5P_DEFAULT,ref_ids); for ( l = 0; l < numel; l++ ) { hid_t ref_id; fields[l*nfields+k] = Mat_VarCalloc(); fields[l*nfields+k]->name = strdup(matvar->internal->fieldnames[k]); fields[l*nfields+k]->internal->hdf5_ref=ref_ids[l]; /* Get the HDF5 name of the variable */ name_len = H5Iget_name(field_id,NULL,0); if ( name_len > 0 ) { fields[l*nfields+k]->internal->hdf5_name = malloc(name_len+1); (void)H5Iget_name(field_id, fields[l*nfields+k]->internal->hdf5_name, name_len+1); } /* Closing of ref_id is done in * Mat_H5ReadNextReferenceInfo */ ref_id = H5Rdereference(field_id,H5R_OBJECT, ref_ids+l); fields[l*nfields+k]->internal->id=ref_id; Mat_H5ReadNextReferenceInfo(ref_id,fields[l*nfields+k],mat); } free(ref_ids); } else { fields[k] = Mat_VarCalloc(); fields[k]->internal->fp = mat; fields[k]->name = strdup(matvar->internal->fieldnames[k]); Mat_H5ReadDatasetInfo(mat,fields[k],field_id); } H5Dclose(field_id); } else { field_id = H5Gopen(dset_id,matvar->internal->fieldnames[k], H5P_DEFAULT); if ( -1 < field_id ) { fields[k] = Mat_VarCalloc(); fields[k]->internal->fp = mat; fields[k]->name = strdup(matvar->internal->fieldnames[k]); Mat_H5ReadGroupInfo(mat,fields[k],field_id); H5Gclose(field_id); } } } } } static void Mat_H5ReadNextReferenceInfo(hid_t ref_id,matvar_t *matvar,mat_t *mat) { H5E_auto_t efunc; void *client_data; if( ref_id < 0 || matvar == NULL) return; switch ( H5Iget_type(ref_id) ) { case H5I_DATASET: { /* FIXME */ hsize_t dims[10]; hid_t attr_id,type_id,dset_id,space_id; //matvar->fp = mat; dset_id = ref_id; #if 0 /* Get the HDF5 name of the variable */ name_len = H5Iget_name(dset_id,NULL,0); matvar->hdf5_name = malloc(name_len+1); (void)H5Iget_name(dset_id,matvar->hdf5_name,name_len); printf("%s\n",matvar->hdf5_name); #endif /* Get the rank and dimensions of the data */ space_id = H5Dget_space(dset_id); matvar->rank = H5Sget_simple_extent_ndims(space_id); matvar->dims = malloc(matvar->rank*sizeof(*matvar->dims)); if ( NULL != matvar->dims ) { int k; H5Sget_simple_extent_dims(space_id,dims,NULL); for ( k = 0; k < matvar->rank; k++ ) matvar->dims[k] = dims[matvar->rank - k - 1]; } H5Sclose(space_id); attr_id = H5Aopen_name(dset_id,"MATLAB_class"); type_id = H5Aget_type(attr_id); if ( H5T_STRING == H5Tget_class(type_id) ) { char *class_str = calloc(H5Tget_size(type_id)+1,1); if ( NULL != class_str ) { hid_t class_id = H5Tcopy(H5T_C_S1); H5Tset_size(class_id,H5Tget_size(type_id)); H5Aread(attr_id,class_id,class_str); H5Tclose(class_id); matvar->class_type = Mat_class_str_to_id(class_str); matvar->data_type = Mat_ClassToType73(matvar->class_type); free(class_str); } } H5Tclose(type_id); H5Aclose(attr_id); /* Turn off error printing so testing for attributes doesn't print * error stacks */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); attr_id = H5Aopen_name(dset_id,"MATLAB_global"); /* FIXME: Check that dataspace is scalar */ if ( -1 < attr_id ) { H5Aread(attr_id,H5T_NATIVE_INT,&matvar->isGlobal); H5Aclose(attr_id); } /* Check for attribute that indicates an empty array */ attr_id = H5Aopen_name(dset_id,"MATLAB_empty"); /* FIXME: Check that dataspace is scalar */ if ( -1 < attr_id ) { int empty = 0; H5Aread(attr_id,H5T_NATIVE_INT,&empty); H5Aclose(attr_id); if ( empty ) { matvar->rank = matvar->dims[0]; free(matvar->dims); matvar->dims = calloc(matvar->rank,sizeof(*matvar->dims)); H5Dread(dset_id,Mat_dims_type_to_hid_t(),H5S_ALL,H5S_ALL, H5P_DEFAULT,matvar->dims); } } /* Test if dataset type is compound and if so if it's complex */ type_id = H5Dget_type(dset_id); if ( H5T_COMPOUND == H5Tget_class(type_id) ) { /* FIXME: Any more checks? */ matvar->isComplex = MAT_F_COMPLEX; } H5Tclose(type_id); /* If the dataset is a cell array read theinfo of the cells */ if ( MAT_C_CELL == matvar->class_type ) { matvar_t **cells; int i,ncells = 1; hobj_ref_t *ref_ids; for ( i = 0; i < matvar->rank; i++ ) ncells *= matvar->dims[i]; matvar->data_size = sizeof(matvar_t**); matvar->nbytes = ncells*matvar->data_size; matvar->data = malloc(matvar->nbytes); cells = matvar->data; ref_ids = malloc(ncells*sizeof(*ref_ids)); H5Dread(dset_id,H5T_STD_REF_OBJ,H5S_ALL,H5S_ALL,H5P_DEFAULT, ref_ids); for ( i = 0; i < ncells; i++ ) { hid_t ref_id; cells[i] = Mat_VarCalloc(); cells[i]->internal->hdf5_ref = ref_ids[i]; /* Closing of ref_id is done in Mat_H5ReadNextReferenceInfo */ ref_id = H5Rdereference(dset_id,H5R_OBJECT,ref_ids+i); cells[i]->internal->id=ref_id; cells[i]->internal->fp=matvar->internal->fp; Mat_H5ReadNextReferenceInfo(ref_id,cells[i],mat); } free(ref_ids); } else if ( MAT_C_STRUCT == matvar->class_type ) { /* Empty structures can be a dataset */ /* Turn off error printing so testing for attributes doesn't print * error stacks */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); /* Check if the structure defines its fields in MATLAB_fields */ attr_id = H5Aopen_name(dset_id,"MATLAB_fields"); if ( -1 < attr_id ) { int i; hid_t field_id; hsize_t nfields; hvl_t *fieldnames_vl; space_id = H5Aget_space(attr_id); (void)H5Sget_simple_extent_dims(space_id,&nfields,NULL); field_id = H5Aget_type(attr_id); fieldnames_vl = malloc(nfields*sizeof(*fieldnames_vl)); H5Aread(attr_id,field_id,fieldnames_vl); matvar->internal->num_fields = nfields; matvar->internal->fieldnames = malloc(nfields*sizeof(*matvar->internal->fieldnames)); for ( i = 0; i < nfields; i++ ) { matvar->internal->fieldnames[i] = calloc(fieldnames_vl[i].len+1,1); memcpy(matvar->internal->fieldnames[i], fieldnames_vl[i].p,fieldnames_vl[i].len); } H5Dvlen_reclaim(field_id,space_id,H5P_DEFAULT, fieldnames_vl); H5Sclose(space_id); H5Tclose(field_id); H5Aclose(attr_id); free(fieldnames_vl); } H5Eset_auto(H5E_DEFAULT,efunc,client_data); } if ( matvar->internal->id != dset_id ) { /* Close dataset and increment count */ H5Dclose(dset_id); } H5Eset_auto(H5E_DEFAULT,efunc,client_data); /*H5Dclose(dset_id);*/ break; } case H5I_GROUP: { Mat_H5ReadGroupInfo(mat,matvar,ref_id); break; } default: break; } return; } static void Mat_H5ReadNextReferenceData(hid_t ref_id,matvar_t *matvar,mat_t *mat) { int k; size_t numel; hid_t dset_id; if( ref_id < 0 || matvar == NULL) return; /* If the datatype with references is a cell, we've already read info into * the variable data, so just loop over each cell element and call * Mat_H5ReadNextReferenceData on it. */ if ( MAT_C_CELL == matvar->class_type ) { matvar_t **cells = matvar->data; numel = 1; for ( k = 0; k < matvar->rank; k++ ) numel *= matvar->dims[k]; for ( k = 0; k < numel; k++ ) Mat_H5ReadNextReferenceData(cells[k]->internal->id,cells[k],mat); return; } switch ( H5Iget_type(ref_id) ) { case H5I_DATASET: { hid_t data_type_id; numel = 1; for ( k = 0; k < matvar->rank; k++ ) numel *= matvar->dims[k]; if ( MAT_C_CHAR == matvar->class_type ) { matvar->data_type = MAT_T_UINT8; matvar->data_size = Mat_SizeOf(MAT_T_UINT8); data_type_id = Mat_data_type_to_hid_t(MAT_T_UINT8); } else if ( MAT_C_STRUCT == matvar->class_type ) { /* Empty structure array */ break; } else { matvar->data_size = Mat_SizeOfClass(matvar->class_type); data_type_id = Mat_class_type_to_hid_t(matvar->class_type); } matvar->nbytes = numel*matvar->data_size; if ( matvar->nbytes < 1 ) { H5Dclose(ref_id); break; } dset_id = ref_id; if ( !matvar->isComplex ) { matvar->data = malloc(matvar->nbytes); if ( NULL != matvar->data ) { H5Dread(dset_id,data_type_id,H5S_ALL,H5S_ALL,H5P_DEFAULT, matvar->data); } } else { mat_complex_split_t *complex_data; hid_t h5_complex_base,h5_complex; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); h5_complex_base = data_type_id; h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"real",0,h5_complex_base); H5Dread(dset_id,h5_complex,H5S_ALL,H5S_ALL,H5P_DEFAULT, complex_data->Re); H5Tclose(h5_complex); h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"imag",0,h5_complex_base); H5Dread(dset_id,h5_complex,H5S_ALL,H5S_ALL,H5P_DEFAULT, complex_data->Im); H5Tclose(h5_complex); matvar->data = complex_data; } H5Dclose(dset_id); break; } case H5I_GROUP: { matvar_t **fields; int i,nfields = 0; if ( MAT_C_SPARSE == matvar->class_type ) { Mat_VarRead73(mat,matvar); } else { if ( !matvar->nbytes || !matvar->data_size || NULL == matvar->data ) break; nfields = matvar->nbytes / matvar->data_size; fields = matvar->data; for ( i = 0; i < nfields; i++ ) { if ( 0 < fields[i]->internal->hdf5_ref && -1 < fields[i]->internal->id ) { /* Dataset of references */ Mat_H5ReadNextReferenceData(fields[i]->internal->id,fields[i],mat); } else { Mat_VarRead73(mat,fields[i]); } } } break; } default: break; } return; } /** @if mat_devman * @brief Writes a cell array matlab variable to the specified HDF id with the * given name * * @ingroup mat_internal * @param id HDF id of the parent object * @param matvar pointer to the cell array variable * @param name Name of the HDF dataset * @retval 0 on success * @endif */ static int Mat_VarWriteCell73(hid_t id,matvar_t *matvar,const char *name,hid_t *refs_id) { unsigned k; hid_t str_type_id,mspace_id,dset_id,attr_type_id,attr_id,aspace_id; hsize_t nmemb; matvar_t **cells; H5E_auto_t efunc; void *client_data; int is_ref, err = -1; char id_name[128] = {'\0',}; hsize_t perm_dims[10]; cells = matvar->data; nmemb = matvar->dims[0]; for ( k = 1; k < matvar->rank; k++ ) nmemb *= matvar->dims[k]; if ( 0 == nmemb || NULL == matvar->data ) { hsize_t rank = matvar->rank; unsigned empty = 1; mspace_id = H5Screate_simple(1,&rank,NULL); dset_id = H5Dcreate(id,name,H5T_NATIVE_HSIZE,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); attr_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(attr_type_id, strlen(Mat_class_names[matvar->class_type])+1); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_class",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id, Mat_class_names[matvar->class_type]); H5Sclose(aspace_id); H5Aclose(attr_id); H5Tclose(attr_type_id); /* Write the empty attribute */ aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_empty",H5T_NATIVE_UINT, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,H5T_NATIVE_UINT,&empty); H5Sclose(aspace_id); H5Aclose(attr_id); /* Write the dimensions as the data */ H5Dwrite(dset_id,Mat_dims_type_to_hid_t(),H5S_ALL,H5S_ALL, H5P_DEFAULT,matvar->dims); H5Dclose(dset_id); H5Sclose(mspace_id); err = 0; } else { (void)H5Iget_name(id,id_name,127); is_ref = !strcmp(id_name,"/#refs#"); if ( *refs_id < 0 ) { /* Turn off error-checking so we don't get messages if opening * group /#refs# fails */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); *refs_id = H5Gopen(id,"/#refs#",H5P_DEFAULT); if ( *refs_id < 0 ) *refs_id = H5Gcreate(id,"/#refs#",H5P_DEFAULT, H5P_DEFAULT,H5P_DEFAULT); H5Eset_auto(H5E_DEFAULT,efunc,client_data); } if ( *refs_id > -1 ) { char obj_name[64]; hobj_ref_t *refs; hsize_t num_obj; for ( k = 0; k < matvar->rank; k++ ) perm_dims[k] = matvar->dims[matvar->rank-k-1]; refs = malloc(nmemb*sizeof(*refs)); mspace_id=H5Screate_simple(matvar->rank,perm_dims,NULL); dset_id = H5Dcreate(id,name,H5T_STD_REF_OBJ,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); for ( k = 0; k < nmemb; k++ ) { (void)H5Gget_num_objs(*refs_id,&num_obj); sprintf(obj_name,"%lld",num_obj); if ( NULL != cells[k] ) cells[k]->compression = matvar->compression; Mat_VarWriteNext73(*refs_id,cells[k],obj_name,refs_id); sprintf(obj_name,"/#refs#/%lld",num_obj); H5Rcreate(refs+k,id,obj_name,H5R_OBJECT,-1); } H5Dwrite(dset_id,H5T_STD_REF_OBJ,H5S_ALL,H5S_ALL, H5P_DEFAULT,refs); str_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(str_type_id,7); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_class",str_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,str_type_id,"cell"); H5Aclose(attr_id); H5Sclose(aspace_id); H5Tclose(str_type_id); H5Dclose(dset_id); free(refs); H5Sclose(mspace_id); err = 0; } } return err; } /** @if mat_devman * @brief Writes a character matlab variable to the specified HDF id with the * given name * * @ingroup mat_internal * @param id HDF id of the parent object * @param matvar pointer to the character variable * @param name Name of the HDF dataset * @retval 0 on success * @endif */ static int Mat_VarWriteChar73(hid_t id,matvar_t *matvar,const char *name) { int err = -1; unsigned long k,numel; hid_t mspace_id,dset_id,attr_type_id,attr_id,aspace_id; hsize_t perm_dims[10]; numel = 1; for ( k = 0; k < matvar->rank; k++ ) { perm_dims[k] = matvar->dims[matvar->rank-k-1]; numel *= perm_dims[k]; } if ( 0 == numel || NULL == matvar->data ) { hsize_t rank = matvar->rank; unsigned empty = 1; mspace_id = H5Screate_simple(1,&rank,NULL); dset_id = H5Dcreate(id,name,H5T_NATIVE_HSIZE,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); attr_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(attr_type_id, strlen(Mat_class_names[matvar->class_type])+1); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_class",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id, Mat_class_names[matvar->class_type]); H5Sclose(aspace_id); H5Aclose(attr_id); H5Tclose(attr_type_id); /* Write the empty attribute */ aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_empty",H5T_NATIVE_UINT, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,H5T_NATIVE_UINT,&empty); H5Sclose(aspace_id); H5Aclose(attr_id); /* Write the dimensions as the data */ H5Dwrite(dset_id,Mat_dims_type_to_hid_t(),H5S_ALL,H5S_ALL, H5P_DEFAULT,matvar->dims); H5Dclose(dset_id); H5Sclose(mspace_id); err = 0; } else { int matlab_int_decode = 2; mspace_id = H5Screate_simple(matvar->rank,perm_dims,NULL); switch ( matvar->data_type ) { case MAT_T_UTF32: case MAT_T_INT32: case MAT_T_UINT32: /* Not sure matlab will actually handle this */ dset_id = H5Dcreate(id,name, Mat_class_type_to_hid_t(MAT_C_UINT32), mspace_id,H5P_DEFAULT,H5P_DEFAULT, H5P_DEFAULT); break; case MAT_T_UTF16: case MAT_T_UTF8: case MAT_T_INT16: case MAT_T_UINT16: case MAT_T_INT8: case MAT_T_UINT8: dset_id = H5Dcreate(id,name, Mat_class_type_to_hid_t(MAT_C_UINT16), mspace_id,H5P_DEFAULT,H5P_DEFAULT, H5P_DEFAULT); break; } attr_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(attr_type_id, strlen(Mat_class_names[matvar->class_type])+1); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_class",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id,Mat_class_names[matvar->class_type]); H5Aclose(attr_id); H5Tclose(attr_type_id); attr_type_id = H5Tcopy(H5T_NATIVE_INT); attr_id = H5Acreate(dset_id,"MATLAB_int_decode",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id,&matlab_int_decode); H5Tclose(attr_type_id); H5Sclose(aspace_id); H5Dwrite(dset_id,Mat_data_type_to_hid_t(matvar->data_type), H5S_ALL,H5S_ALL,H5P_DEFAULT,matvar->data); H5Dclose(dset_id); H5Sclose(mspace_id); err = 0; } return err; } static int Mat_WriteEmptyVariable73(hid_t id,const char *name,hsize_t rank,size_t *dims) { int err = -1; unsigned empty = 1; hid_t mspace_id,dset_id,attr_type_id,attr_id,aspace_id; mspace_id = H5Screate_simple(1,&rank,NULL); dset_id = H5Dcreate(id,name,H5T_NATIVE_HSIZE,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); if ( dset_id > -1 ) { attr_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(attr_type_id,7); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_class",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id,"double"); H5Sclose(aspace_id); H5Aclose(attr_id); H5Tclose(attr_type_id); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_empty",H5T_NATIVE_UINT, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,H5T_NATIVE_UINT,&empty); H5Sclose(aspace_id); H5Aclose(attr_id); /* Write the dimensions as the data */ H5Dwrite(dset_id,Mat_dims_type_to_hid_t(),H5S_ALL,H5S_ALL, H5P_DEFAULT,dims); err = 0; } return err; } /** @if mat_devman * @brief Writes a numeric matlab variable to the specified HDF id with the * given name * * @ingroup mat_internal * @param id HDF id of the parent object * @param matvar pointer to the numeric variable * @param name Name of the HDF dataset * @retval 0 on success * @endif */ static int Mat_VarWriteNumeric73(hid_t id,matvar_t *matvar,const char *name) { int err = -1; unsigned long k,numel; hid_t mspace_id,dset_id,attr_type_id,attr_id,aspace_id,plist; hsize_t perm_dims[10]; herr_t herr; numel = 1; for ( k = 0; k < matvar->rank; k++ ) { perm_dims[k] = matvar->dims[matvar->rank-k-1]; numel *= perm_dims[k]; } if ( matvar->compression ) { hsize_t chunk_dims[10]; Mat_H5GetChunkSize(matvar->rank, perm_dims,chunk_dims); plist = H5Pcreate(H5P_DATASET_CREATE); herr = H5Pset_chunk(plist, 2, chunk_dims); herr = H5Pset_deflate(plist, 9); } else { plist = H5P_DEFAULT; } if ( 0 == numel || NULL == matvar->data ) { hsize_t rank = matvar->rank; unsigned empty = 1; mspace_id = H5Screate_simple(1,&rank,NULL); dset_id = H5Dcreate(id,name,H5T_NATIVE_HSIZE,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); attr_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(attr_type_id, strlen(Mat_class_names[matvar->class_type])+1); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_class",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id, Mat_class_names[matvar->class_type]); H5Sclose(aspace_id); H5Aclose(attr_id); H5Tclose(attr_type_id); /* Write the empty attribute */ aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_empty",H5T_NATIVE_UINT, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,H5T_NATIVE_UINT,&empty); H5Sclose(aspace_id); H5Aclose(attr_id); /* Write the dimensions as the data */ H5Dwrite(dset_id,Mat_dims_type_to_hid_t(),H5S_ALL,H5S_ALL, H5P_DEFAULT,matvar->dims); H5Dclose(dset_id); H5Sclose(mspace_id); err = 0; } else if ( matvar->isComplex ) { hid_t h5_complex,h5_complex_base; h5_complex_base = Mat_class_type_to_hid_t(matvar->class_type); h5_complex = H5Tcreate(H5T_COMPOUND, 2*H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"real",0,h5_complex_base); H5Tinsert(h5_complex,"imag",H5Tget_size(h5_complex_base), h5_complex_base); mspace_id = H5Screate_simple(matvar->rank,perm_dims,NULL); dset_id = H5Dcreate(id,name,h5_complex,mspace_id,H5P_DEFAULT, plist,H5P_DEFAULT); attr_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(attr_type_id, strlen(Mat_class_names[matvar->class_type])+1); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_class",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id, Mat_class_names[matvar->class_type]); H5Sclose(aspace_id); H5Aclose(attr_id); H5Tclose(attr_type_id); H5Tclose(h5_complex); /* Write real part of dataset */ h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"real",0,h5_complex_base); H5Dwrite(dset_id,h5_complex,H5S_ALL,H5S_ALL,H5P_DEFAULT, ((mat_complex_split_t*)matvar->data)->Re); H5Tclose(h5_complex); /* Write imaginary part of dataset */ h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"imag",0,h5_complex_base); H5Dwrite(dset_id,h5_complex,H5S_ALL,H5S_ALL,H5P_DEFAULT, ((mat_complex_split_t*)matvar->data)->Im); H5Tclose(h5_complex); H5Dclose(dset_id); H5Sclose(mspace_id); err = 0; } else { /* matvar->isComplex */ mspace_id = H5Screate_simple(matvar->rank,perm_dims,NULL); dset_id = H5Dcreate(id,name, Mat_class_type_to_hid_t(matvar->class_type), mspace_id,H5P_DEFAULT,plist,H5P_DEFAULT); attr_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(attr_type_id, strlen(Mat_class_names[matvar->class_type])+1); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_class",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id, Mat_class_names[matvar->class_type]); H5Sclose(aspace_id); H5Aclose(attr_id); H5Tclose(attr_type_id); H5Dwrite(dset_id,Mat_data_type_to_hid_t(matvar->data_type), H5S_ALL,H5S_ALL,H5P_DEFAULT,matvar->data); H5Dclose(dset_id); H5Sclose(mspace_id); err = 0; } if ( H5P_DEFAULT != plist ) H5Pclose(plist); return err; } /** @if mat_devman * @brief Writes a sparse matrix variable to the specified HDF id with the * given name * * @ingroup mat_internal * @param id HDF id of the parent object * @param matvar pointer to the structure variable * @param name Name of the HDF dataset * @retval 0 on success * @endif */ static int Mat_VarWriteSparse73(hid_t id,matvar_t *matvar,const char *name) { int err = -1; unsigned k; hid_t sparse_id,mspace_id,dset_id,attr_type_id,attr_id,aspace_id; hsize_t nmemb; hsize_t perm_dims[10]; nmemb = matvar->dims[0]; for ( k = 1; k < matvar->rank; k++ ) nmemb *= matvar->dims[k]; sparse_id = H5Gcreate(id,matvar->name,H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); if ( sparse_id < 0 ) { Mat_Critical("Error creating group for sparse array %s", matvar->name); } else { hid_t size_type_id; mat_sparse_t *sparse; hsize_t rank, nir, njc, ndata; mat_uint64_t sparse_attr_value; enum matio_classes class_type; sparse = matvar->data; rank = matvar->rank; class_type = Mat_TypeToClass73(matvar->data_type); attr_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(attr_type_id, strlen(Mat_class_names[class_type])+1); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(sparse_id,"MATLAB_class",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id, Mat_class_names[class_type]); H5Sclose(aspace_id); H5Aclose(attr_id); H5Tclose(attr_type_id); sparse_attr_value = matvar->dims[0]; size_type_id = Mat_class_type_to_hid_t(MAT_C_UINT64); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(sparse_id,"MATLAB_sparse",size_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,size_type_id,&sparse_attr_value); H5Sclose(aspace_id); H5Aclose(attr_id); ndata = sparse->ndata; mspace_id = H5Screate_simple(1,&ndata,NULL); if ( matvar->isComplex ) { hid_t h5_complex,h5_complex_base; mat_complex_split_t *complex_data; complex_data = sparse->data; /* Create dataset datatype as compound with real and * imaginary fields */ h5_complex_base = Mat_data_type_to_hid_t(matvar->data_type); h5_complex = H5Tcreate(H5T_COMPOUND, 2*H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"real",0,h5_complex_base); H5Tinsert(h5_complex,"imag",H5Tget_size(h5_complex_base), h5_complex_base); /* Create dataset */ perm_dims[0] = ndata; mspace_id = H5Screate_simple(1,perm_dims,NULL); dset_id = H5Dcreate(sparse_id,"data",h5_complex,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); H5Tclose(h5_complex); /* Write real part of dataset */ h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"real",0,h5_complex_base); H5Dwrite(dset_id,h5_complex,H5S_ALL,H5S_ALL,H5P_DEFAULT, complex_data->Re); H5Tclose(h5_complex); /* Write imaginary part of dataset */ h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"imag",0,h5_complex_base); H5Dwrite(dset_id,h5_complex,H5S_ALL,H5S_ALL,H5P_DEFAULT, complex_data->Im); H5Tclose(h5_complex); H5Dclose(dset_id); H5Sclose(mspace_id); } else { /* if ( matvar->isComplex ) */ dset_id = H5Dcreate(sparse_id,"data",H5T_NATIVE_DOUBLE,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); H5Dwrite(dset_id,H5T_NATIVE_DOUBLE,H5S_ALL,H5S_ALL, H5P_DEFAULT,sparse->data); H5Dclose(dset_id); H5Sclose(mspace_id); } nir = sparse->nir; mspace_id = H5Screate_simple(1,&nir,NULL); dset_id = H5Dcreate(sparse_id,"ir",size_type_id,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); H5Dwrite(dset_id,H5T_NATIVE_INT,H5S_ALL,H5S_ALL,H5P_DEFAULT, sparse->ir); H5Dclose(dset_id); H5Sclose(mspace_id); njc = sparse->njc; mspace_id = H5Screate_simple(1,&njc,NULL); dset_id = H5Dcreate(sparse_id,"jc",size_type_id,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); H5Dwrite(dset_id,H5T_NATIVE_INT,H5S_ALL,H5S_ALL,H5P_DEFAULT, sparse->jc); H5Dclose(dset_id); H5Sclose(mspace_id); err = 0; } return err; } /** @if mat_devman * @brief Writes a structure matlab variable to the specified HDF id with the * given name * * @ingroup mat_internal * @param id HDF id of the parent object * @param matvar pointer to the structure variable * @param name Name of the HDF dataset * @retval 0 on success * @endif */ static int Mat_VarWriteStruct73(hid_t id,matvar_t *matvar,const char *name,hid_t *refs_id) { int err = -1; unsigned k; hid_t mspace_id,dset_id,attr_type_id,attr_id,aspace_id; hid_t struct_id,str_type_id,fieldnames_id; hsize_t nfields,nmemb; matvar_t **fields; hvl_t *fieldnames; char id_name[128] = {'\0',}; int is_ref; hsize_t perm_dims[10]; nmemb = 1; for ( k = 0; k < matvar->rank; k++ ) nmemb *= matvar->dims[k]; if ( 0 == nmemb || NULL == matvar->data ) { hsize_t rank = matvar->rank; unsigned empty = 1; mspace_id = H5Screate_simple(1,&rank,NULL); dset_id = H5Dcreate(id,name,H5T_NATIVE_HSIZE,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); attr_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(attr_type_id, strlen(Mat_class_names[matvar->class_type])+1); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_class",attr_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,attr_type_id, Mat_class_names[matvar->class_type]); H5Sclose(aspace_id); H5Aclose(attr_id); H5Tclose(attr_type_id); /* Write the empty attribute */ aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(dset_id,"MATLAB_empty",H5T_NATIVE_UINT, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,H5T_NATIVE_UINT,&empty); H5Sclose(aspace_id); H5Aclose(attr_id); nfields = matvar->internal->num_fields; if ( nfields ) { str_type_id = H5Tcopy(H5T_C_S1); fieldnames = malloc(nfields*sizeof(*fieldnames)); fields = matvar->data; for ( k = 0; k < nfields; k++ ) { fieldnames[k].len = strlen(matvar->internal->fieldnames[k]); fieldnames[k].p = matvar->internal->fieldnames[k]; } H5Tset_size(str_type_id,1); fieldnames_id = H5Tvlen_create(str_type_id); aspace_id = H5Screate_simple(1,&nfields,NULL); attr_id = H5Acreate(dset_id,"MATLAB_fields",fieldnames_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,fieldnames_id,fieldnames); H5Aclose(attr_id); H5Sclose(aspace_id); H5Tclose(fieldnames_id); H5Tclose(str_type_id); free(fieldnames); } /* Write the dimensions as the data */ H5Dwrite(dset_id,Mat_dims_type_to_hid_t(),H5S_ALL,H5S_ALL, H5P_DEFAULT,matvar->dims); H5Dclose(dset_id); H5Sclose(mspace_id); } else { (void)H5Iget_name(id,id_name,127); is_ref = !strcmp(id_name,"/#refs#"); struct_id = H5Gcreate(id,name,H5P_DEFAULT,H5P_DEFAULT, H5P_DEFAULT); if ( struct_id < 0 ) { Mat_Critical("Error creating group for struct %s",name); } else { str_type_id = H5Tcopy(H5T_C_S1); H5Tset_size(str_type_id,7); aspace_id = H5Screate(H5S_SCALAR); attr_id = H5Acreate(struct_id,"MATLAB_class",str_type_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,str_type_id,"struct"); H5Aclose(attr_id); nfields = matvar->internal->num_fields; /* Structure with no fields */ if ( nfields == 0 ) { H5Gclose(struct_id); return 0; } fieldnames = malloc(nfields*sizeof(*fieldnames)); fields = matvar->data; for ( k = 0; k < nfields; k++ ) { fieldnames[k].len = strlen(matvar->internal->fieldnames[k]); fieldnames[k].p = matvar->internal->fieldnames[k]; } H5Tset_size(str_type_id,1); fieldnames_id = H5Tvlen_create(str_type_id); aspace_id = H5Screate_simple(1,&nfields,NULL); attr_id = H5Acreate(struct_id,"MATLAB_fields",fieldnames_id, aspace_id,H5P_DEFAULT,H5P_DEFAULT); H5Awrite(attr_id,fieldnames_id,fieldnames); H5Aclose(attr_id); H5Sclose(aspace_id); H5Tclose(fieldnames_id); H5Tclose(str_type_id); free(fieldnames); if ( 1 == nmemb ) { for ( k = 0; k < nfields; k++ ) { if ( NULL != fields[k] ) fields[k]->compression = matvar->compression; Mat_VarWriteNext73(struct_id,fields[k], matvar->internal->fieldnames[k],refs_id); } } else { if ( *refs_id < 0 ) { H5E_auto_t efunc; void *client_data; /* Silence errors if /#refs does not exist */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); *refs_id = H5Gopen(id,"/#refs#",H5P_DEFAULT); H5Eset_auto(H5E_DEFAULT,efunc,client_data); /* If could not open /#refs#, try to create it */ if ( *refs_id < 0 ) *refs_id = H5Gcreate(id,"/#refs#",H5P_DEFAULT, H5P_DEFAULT,H5P_DEFAULT); } if ( *refs_id > -1 ) { char name[64]; hobj_ref_t **refs; hsize_t num_obj; int l; refs = malloc(nfields*sizeof(*refs)); for ( l = 0; l < nfields; l++ ) refs[l] = malloc(nmemb*sizeof(*refs[l])); for ( k = 0; k < nmemb; k++ ) { for ( l = 0; l < nfields; l++ ) { (void)H5Gget_num_objs(*refs_id,&num_obj); sprintf(name,"%lld",num_obj); fields[k*nfields+l]->compression = matvar->compression; Mat_VarWriteNext73(*refs_id,fields[k*nfields+l], name,refs_id); sprintf(name,"/#refs#/%lld",num_obj); H5Rcreate(refs[l]+k,id,name, H5R_OBJECT,-1); } } for ( k = 0; k < matvar->rank; k++ ) perm_dims[k] = matvar->dims[matvar->rank-k-1]; mspace_id=H5Screate_simple(matvar->rank,perm_dims,NULL); for ( l = 0; l < nfields; l++ ) { dset_id = H5Dcreate(struct_id, matvar->internal->fieldnames[l], H5T_STD_REF_OBJ,mspace_id, H5P_DEFAULT,H5P_DEFAULT,H5P_DEFAULT); H5Dwrite(dset_id,H5T_STD_REF_OBJ,H5S_ALL, H5S_ALL,H5P_DEFAULT,refs[l]); H5Dclose(dset_id); free(refs[l]); } free(refs); H5Sclose(mspace_id); } } } H5Gclose(struct_id); } return err; } static int Mat_VarWriteNext73(hid_t id,matvar_t *matvar,const char *name,hid_t *refs_id) { int err = -1; if ( NULL == matvar ) { size_t dims[2] = {0,0}; return Mat_WriteEmptyVariable73(id,name,2,dims); } switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: err = Mat_VarWriteNumeric73(id,matvar,name); break; case MAT_C_CHAR: err = Mat_VarWriteChar73(id,matvar,name); break; case MAT_C_STRUCT: err = Mat_VarWriteStruct73(id,matvar,name,refs_id); break; case MAT_C_CELL: err = Mat_VarWriteCell73(id,matvar,name,refs_id); break; case MAT_C_SPARSE: err = Mat_VarWriteSparse73(id,matvar,matvar->name); break; } return err; } /** @if mat_devman * @brief Creates a new Matlab MAT version 7.3 file * * Tries to create a new Matlab MAT file with the given name and optional * header string. If no header string is given, the default string * is used containing the software, version, and date in it. If a header * string is given, at most the first 116 characters is written to the file. * The given header string need not be the full 116 characters, but MUST be * NULL terminated. * @ingroup mat_internal * @param matname Name of MAT file to create * @param hdr_str Optional header string, NULL to use default * @return A pointer to the MAT file or NULL if it failed. This is not a * simple FILE * and should not be used as one. * @endif */ mat_t * Mat_Create73(const char *matname,const char *hdr_str) { FILE *fp = NULL; mat_int16_t endian = 0, version; mat_t *mat = NULL; size_t err; time_t t; hid_t plist_id,fid; plist_id = H5Pcreate(H5P_FILE_CREATE); H5Pset_userblock(plist_id,512); fid = H5Fcreate(matname,H5F_ACC_TRUNC,plist_id,H5P_DEFAULT); H5Fclose(fid); H5Pclose(plist_id); fp = fopen(matname,"r+b"); if ( !fp ) return NULL; fseek(fp,0,SEEK_SET); mat = malloc(sizeof(*mat)); if ( !mat ) { fclose(fp); return NULL; } mat->fp = NULL; mat->header = NULL; mat->subsys_offset = NULL; mat->filename = NULL; mat->version = 0; mat->byteswap = 0; mat->mode = 0; mat->bof = 0; mat->next_index = 0; mat->refs_id = -1; t = time(NULL); mat->filename = strdup_printf("%s",matname); mat->mode = MAT_ACC_RDWR; mat->byteswap = 0; mat->header = calloc(1,128); mat->subsys_offset = calloc(1,16); memset(mat->header,' ',128); if ( hdr_str == NULL ) { err = mat_snprintf(mat->header,116,"MATLAB 7.0 MAT-file, Platform: %s," "Created by libmatio v%d.%d.%d on %s HDF5 schema 0.5", MATIO_PLATFORM,MATIO_MAJOR_VERSION,MATIO_MINOR_VERSION, MATIO_RELEASE_LEVEL,ctime(&t)); mat->header[115] = '\0'; /* Just to make sure it's NULL terminated */ } else { err = mat_snprintf(mat->header,116,"%s",hdr_str); } mat->header[err] = ' '; mat_snprintf(mat->subsys_offset,15," "); mat->version = (int)0x0200; endian = 0x4d49; version = 0x0200; err = fwrite(mat->header,1,116,fp); err = fwrite(mat->subsys_offset,1,8,fp); err = fwrite(&version,2,1,fp); err = fwrite(&endian,2,1,fp); fclose(fp); fid = H5Fopen(matname,H5F_ACC_RDWR,H5P_DEFAULT); mat->fp = malloc(sizeof(hid_t)); *(hid_t*)mat->fp = fid; return mat; } /** @if mat_devman * @brief Reads the MAT variable identified by matvar * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar MAT variable pointer * @endif */ void Mat_VarRead73(mat_t *mat,matvar_t *matvar) { int k; size_t numel; hid_t fid,dset_id; if ( NULL == mat || NULL == matvar ) return; else if (NULL == matvar->internal->hdf5_name && 0 > matvar->internal->id) return; fid = *(hid_t*)mat->fp; switch (matvar->class_type) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: numel = 1; for ( k = 0; k < matvar->rank; k++ ) numel *= matvar->dims[k]; matvar->data_size = Mat_SizeOfClass(matvar->class_type); matvar->nbytes = numel*matvar->data_size; if ( NULL != matvar->internal->hdf5_name ) { dset_id = H5Dopen(fid,matvar->internal->hdf5_name,H5P_DEFAULT); } else { dset_id = matvar->internal->id; H5Iinc_ref(dset_id); } if ( numel < 1 ) { H5Dclose(dset_id); break; } if ( !matvar->isComplex ) { matvar->data = malloc(matvar->nbytes); if ( NULL != matvar->data ) { H5Dread(dset_id,Mat_class_type_to_hid_t(matvar->class_type), H5S_ALL,H5S_ALL,H5P_DEFAULT,matvar->data); } } else { mat_complex_split_t *complex_data; hid_t h5_complex_base,h5_complex; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(matvar->nbytes); complex_data->Im = malloc(matvar->nbytes); h5_complex_base = Mat_class_type_to_hid_t(matvar->class_type); h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"real",0,h5_complex_base); H5Dread(dset_id,h5_complex,H5S_ALL,H5S_ALL,H5P_DEFAULT, complex_data->Re); H5Tclose(h5_complex); h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"imag",0,h5_complex_base); H5Dread(dset_id,h5_complex,H5S_ALL,H5S_ALL,H5P_DEFAULT, complex_data->Im); H5Tclose(h5_complex); matvar->data = complex_data; } H5Dclose(dset_id); break; case MAT_C_CHAR: numel = 1; for ( k = 0; k < matvar->rank; k++ ) numel *= matvar->dims[k]; matvar->data_type = MAT_T_UINT8; matvar->data_size = 1; matvar->nbytes = numel*matvar->data_size; if ( NULL != matvar->internal->hdf5_name ) { dset_id = H5Dopen(fid,matvar->internal->hdf5_name,H5P_DEFAULT); } else { dset_id = matvar->internal->id; H5Iinc_ref(dset_id); } matvar->data = malloc(matvar->nbytes); if ( NULL != matvar->data ) { H5Dread(dset_id,Mat_data_type_to_hid_t(matvar->data_type), H5S_ALL,H5S_ALL,H5P_DEFAULT,matvar->data); } break; case MAT_C_STRUCT: { matvar_t **fields; int i,nfields = 0; if ( !matvar->internal->num_fields || NULL == matvar->data ) break; numel = 1; for ( k = 0; k < matvar->rank; k++ ) numel *= matvar->dims[k]; nfields = matvar->internal->num_fields; fields = matvar->data; for ( i = 0; i < nfields*numel; i++ ) { if ( 0 < fields[i]->internal->hdf5_ref && -1 < fields[i]->internal->id ) { /* Dataset of references */ Mat_H5ReadNextReferenceData(fields[i]->internal->id,fields[i],mat); } else { Mat_VarRead73(mat,fields[i]); } } break; } case MAT_C_CELL: { matvar_t **cells; int i,ncells = 0; if ( NULL != matvar->internal->hdf5_name ) { dset_id = H5Dopen(fid,matvar->internal->hdf5_name,H5P_DEFAULT); } else { dset_id = matvar->internal->id; H5Iinc_ref(dset_id); } ncells = matvar->nbytes / matvar->data_size; cells = matvar->data; for ( i = 0; i < ncells; i++ ) Mat_H5ReadNextReferenceData(cells[i]->internal->id,cells[i],mat); break; } case MAT_C_SPARSE: { hid_t sparse_dset_id, space_id; hsize_t dims[2] = {0,}; struct mat_sparse_t *sparse_data = calloc(1,sizeof(*sparse_data)); if ( NULL != matvar->internal->hdf5_name ) { dset_id = H5Gopen(fid,matvar->internal->hdf5_name,H5P_DEFAULT); } else { dset_id = matvar->internal->id; H5Iinc_ref(dset_id); } sparse_dset_id = H5Dopen(dset_id,"ir",H5P_DEFAULT); if ( -1 < sparse_dset_id ) { space_id = H5Dget_space(sparse_dset_id); H5Sget_simple_extent_dims(space_id,dims,NULL); sparse_data->nir = dims[0]; sparse_data->ir = malloc(sparse_data->nir* sizeof(*sparse_data->ir)); H5Dread(sparse_dset_id,H5T_NATIVE_INT, H5S_ALL,H5S_ALL,H5P_DEFAULT,sparse_data->ir); H5Sclose(space_id); H5Dclose(sparse_dset_id); } sparse_dset_id = H5Dopen(dset_id,"jc",H5P_DEFAULT); if ( -1 < sparse_dset_id ) { space_id = H5Dget_space(sparse_dset_id); H5Sget_simple_extent_dims(space_id,dims,NULL); sparse_data->njc = dims[0]; sparse_data->jc = malloc(sparse_data->njc* sizeof(*sparse_data->jc)); H5Dread(sparse_dset_id,H5T_NATIVE_INT, H5S_ALL,H5S_ALL,H5P_DEFAULT,sparse_data->jc); H5Sclose(space_id); H5Dclose(sparse_dset_id); } sparse_dset_id = H5Dopen(dset_id,"data",H5P_DEFAULT); if ( -1 < sparse_dset_id ) { size_t ndata_bytes; space_id = H5Dget_space(sparse_dset_id); H5Sget_simple_extent_dims(space_id,dims,NULL); sparse_data->nzmax = dims[0]; sparse_data->ndata = dims[0]; matvar->data_size = sizeof(struct mat_sparse_t); matvar->nbytes = matvar->data_size; ndata_bytes = sparse_data->nzmax*Mat_SizeOf(matvar->data_type); if ( !matvar->isComplex ) { sparse_data->data = malloc(ndata_bytes); if ( NULL != sparse_data->data ) { H5Dread(sparse_dset_id, Mat_data_type_to_hid_t(matvar->data_type), H5S_ALL,H5S_ALL,H5P_DEFAULT,sparse_data->data); } } else { mat_complex_split_t *complex_data; hid_t h5_complex_base,h5_complex; complex_data = malloc(sizeof(*complex_data)); complex_data->Re = malloc(ndata_bytes); complex_data->Im = malloc(ndata_bytes); h5_complex_base = Mat_data_type_to_hid_t(matvar->data_type); h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"real",0,h5_complex_base); H5Dread(sparse_dset_id,h5_complex,H5S_ALL,H5S_ALL, H5P_DEFAULT,complex_data->Re); H5Tclose(h5_complex); h5_complex = H5Tcreate(H5T_COMPOUND, H5Tget_size(h5_complex_base)); H5Tinsert(h5_complex,"imag",0,h5_complex_base); H5Dread(sparse_dset_id,h5_complex,H5S_ALL,H5S_ALL, H5P_DEFAULT,complex_data->Im); H5Tclose(h5_complex); sparse_data->data = complex_data; } H5Sclose(space_id); H5Dclose(sparse_dset_id); } matvar->data = sparse_data; break; } } } /** @if mat_devman * @brief Reads the header information for the next MAT variable * * @ingroup mat_internal * @param mat MAT file pointer * @return pointer to the MAT variable or NULL * @endif */ matvar_t * Mat_VarReadNextInfo73( mat_t *mat ) { hid_t fid; hsize_t num_objs; H5E_auto_t efunc; void *client_data; matvar_t *matvar; if( mat == NULL ) return NULL; fid = *(hid_t*)mat->fp; H5Gget_num_objs(fid,&num_objs); /* FIXME: follow symlinks, datatypes? */ while ( mat->next_index < num_objs ) { if ( H5G_DATASET == H5Gget_objtype_by_idx(fid,mat->next_index) ) { break; } else if ( H5G_GROUP == H5Gget_objtype_by_idx(fid,mat->next_index) ) { /* Check that this is not the /#refs# group */ char name[128] = {0,}; (void)H5Gget_objname_by_idx(fid,mat->next_index,name,127); if ( strcmp(name,"#refs#") ) break; else mat->next_index++; } else { mat->next_index++; } } if ( mat->next_index >= num_objs ) return NULL; else if ( NULL == (matvar = Mat_VarCalloc()) ) return NULL; switch ( H5Gget_objtype_by_idx(fid,mat->next_index) ) { case H5G_DATASET: { ssize_t name_len; /* FIXME */ hsize_t dims[10]; hid_t attr_id,type_id,dset_id,space_id; matvar->internal->fp = mat; name_len = H5Gget_objname_by_idx(fid,mat->next_index,NULL,0); matvar->name = malloc(1+name_len); if ( matvar->name ) { name_len = H5Gget_objname_by_idx(fid,mat->next_index, matvar->name,1+name_len); matvar->name[name_len] = '\0'; } dset_id = H5Dopen(fid,matvar->name,H5P_DEFAULT); /* Get the HDF5 name of the variable */ name_len = H5Iget_name(dset_id,NULL,0); if ( name_len > 0 ) { matvar->internal->hdf5_name = malloc(name_len+1); (void)H5Iget_name(dset_id,matvar->internal->hdf5_name, name_len+1); } else { /* Can not get an internal name, so leave the identifier open */ matvar->internal->id = dset_id; } space_id = H5Dget_space(dset_id); matvar->rank = H5Sget_simple_extent_ndims(space_id); matvar->dims = malloc(matvar->rank*sizeof(*matvar->dims)); if ( NULL != matvar->dims ) { int k; H5Sget_simple_extent_dims(space_id,dims,NULL); for ( k = 0; k < matvar->rank; k++ ) matvar->dims[k] = dims[matvar->rank - k - 1]; } H5Sclose(space_id); attr_id = H5Aopen_name(dset_id,"MATLAB_class"); type_id = H5Aget_type(attr_id); if ( H5T_STRING == H5Tget_class(type_id) ) { char *class_str = calloc(H5Tget_size(type_id)+1,1); if ( NULL != class_str ) { hid_t class_id = H5Tcopy(H5T_C_S1); H5Tset_size(class_id,H5Tget_size(type_id)); H5Aread(attr_id,class_id,class_str); H5Tclose(class_id); matvar->class_type = Mat_class_str_to_id(class_str); matvar->data_type = Mat_ClassToType73(matvar->class_type); free(class_str); } } H5Tclose(type_id); H5Aclose(attr_id); /* Turn off error printing so testing for attributes doesn't print * error stacks */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); attr_id = H5Aopen_name(dset_id,"MATLAB_global"); /* FIXME: Check that dataspace is scalar */ if ( -1 < attr_id ) { H5Aread(attr_id,H5T_NATIVE_INT,&matvar->isGlobal); H5Aclose(attr_id); } /* Check for attribute that indicates an empty array */ attr_id = H5Aopen_name(dset_id,"MATLAB_empty"); /* FIXME: Check that dataspace is scalar */ if ( -1 < attr_id ) { int empty = 0; H5Aread(attr_id,H5T_NATIVE_INT,&empty); H5Aclose(attr_id); if ( empty ) { matvar->rank = matvar->dims[0]; free(matvar->dims); matvar->dims = calloc(matvar->rank,sizeof(*matvar->dims)); H5Dread(dset_id,Mat_dims_type_to_hid_t(),H5S_ALL,H5S_ALL, H5P_DEFAULT,matvar->dims); } } H5Eset_auto(H5E_DEFAULT,efunc,client_data); /* Test if dataset type is compound and if so if it's complex */ type_id = H5Dget_type(dset_id); if ( H5T_COMPOUND == H5Tget_class(type_id) ) { /* FIXME: Any more checks? */ matvar->isComplex = MAT_F_COMPLEX; } H5Tclose(type_id); /* If the dataset is a cell array read theinfo of the cells */ if ( MAT_C_CELL == matvar->class_type ) { matvar_t **cells; int i,ncells = 1; hobj_ref_t *ref_ids; for ( i = 0; i < matvar->rank; i++ ) ncells *= matvar->dims[i]; matvar->data_size = sizeof(matvar_t**); matvar->nbytes = ncells*matvar->data_size; matvar->data = malloc(matvar->nbytes); cells = matvar->data; if ( ncells ) { ref_ids = malloc(ncells*sizeof(*ref_ids)); H5Dread(dset_id,H5T_STD_REF_OBJ,H5S_ALL,H5S_ALL,H5P_DEFAULT, ref_ids); for ( i = 0; i < ncells; i++ ) { hid_t ref_id; cells[i] = Mat_VarCalloc(); cells[i]->internal->hdf5_ref = ref_ids[i]; /* Closing of ref_id is done in * Mat_H5ReadNextReferenceInfo */ ref_id = H5Rdereference(dset_id,H5R_OBJECT,ref_ids+i); cells[i]->internal->id=ref_id; cells[i]->internal->fp=matvar->internal->fp; Mat_H5ReadNextReferenceInfo(ref_id,cells[i],mat); } free(ref_ids); } } else if ( MAT_C_STRUCT == matvar->class_type ) { /* Empty structures can be a dataset */ /* Turn off error printing so testing for attributes doesn't print * error stacks */ H5Eget_auto(H5E_DEFAULT,&efunc,&client_data); H5Eset_auto(H5E_DEFAULT,(H5E_auto_t)0,NULL); /* Check if the structure defines its fields in MATLAB_fields */ attr_id = H5Aopen_name(dset_id,"MATLAB_fields"); if ( -1 < attr_id ) { int i; hid_t field_id; hsize_t nfields; hvl_t *fieldnames_vl; space_id = H5Aget_space(attr_id); (void)H5Sget_simple_extent_dims(space_id,&nfields,NULL); field_id = H5Aget_type(attr_id); fieldnames_vl = malloc(nfields*sizeof(*fieldnames_vl)); H5Aread(attr_id,field_id,fieldnames_vl); matvar->internal->num_fields = nfields; matvar->internal->fieldnames = calloc(nfields,sizeof(*matvar->internal->fieldnames)); for ( i = 0; i < nfields; i++ ) { matvar->internal->fieldnames[i] = calloc(fieldnames_vl[i].len+1,1); memcpy(matvar->internal->fieldnames[i],fieldnames_vl[i].p, fieldnames_vl[i].len); } H5Dvlen_reclaim(field_id,space_id,H5P_DEFAULT, fieldnames_vl); H5Sclose(space_id); H5Tclose(field_id); H5Aclose(attr_id); free(fieldnames_vl); } H5Eset_auto(H5E_DEFAULT,efunc,client_data); } if ( matvar->internal->id != dset_id ) { /* Close dataset and increment count */ H5Dclose(dset_id); } mat->next_index++; break; } case H5G_GROUP: { ssize_t name_len; hid_t dset_id; matvar->internal->fp = mat; name_len = H5Gget_objname_by_idx(fid,mat->next_index,NULL,0); matvar->name = malloc(1+name_len); if ( matvar->name ) { name_len = H5Gget_objname_by_idx(fid,mat->next_index, matvar->name,1+name_len); matvar->name[name_len] = '\0'; } dset_id = H5Gopen(fid,matvar->name,H5P_DEFAULT); Mat_H5ReadGroupInfo(mat,matvar,dset_id); H5Gclose(dset_id); mat->next_index++; break; } default: break; } return matvar; } /** @if mat_devman * @brief Writes a matlab variable to a version 7.3 matlab file * * @ingroup mat_internal * @param mat MAT file pointer * @param matvar pointer to the mat variable * @param compress option to compress the variable * (only works for numeric types) * @retval 0 on success * @endif */ int Mat_VarWrite73(mat_t *mat,matvar_t *matvar,int compress) { hid_t id; if ( NULL == mat || NULL == matvar ) return -1; matvar->compression = compress; id = *(hid_t*)mat->fp; return Mat_VarWriteNext73(id,matvar,matvar->name,&(mat->refs_id)); } #endif PDL-IO-Matlab-release-0.005/matio-1.5.0/src/mat73.h000066400000000000000000000035161206363665300207400ustar00rootroot00000000000000/* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef MAT73_H #define MAT73_H #include "hdf5.h" #ifdef __cplusplus # define EXTERN extern "C" #else # define EXTERN extern #endif EXTERN mat_t *Mat_Create73(const char *matname,const char *hdr_str); EXTERN void Mat_VarPrint73(matvar_t *matvar,int printdata); EXTERN void Mat_VarRead73(mat_t *mat,matvar_t *matvar); EXTERN matvar_t *Mat_VarReadNextInfo73(mat_t *mat); EXTERN int Mat_VarWrite73(mat_t *mat,matvar_t *matvar,int compress); #endif PDL-IO-Matlab-release-0.005/matio-1.5.0/src/matio.h000066400000000000000000000330711206363665300211150ustar00rootroot00000000000000/** @file matio.h * LIBMATIO Header * @ingroup MAT */ /* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef MATIO_H #define MATIO_H #include #include #include "matio_pubconf.h" #include #ifdef __cplusplus # define EXTERN extern "C" #else # define EXTERN extern #endif /** @defgroup MAT Matlab MAT File I/O Library */ /** @defgroup mat_util MAT File I/O Utitlity Functions */ /** @if mat_devman @defgroup mat_internal Internal Functions @endif */ /** @brief MAT file access types * * @ingroup MAT * MAT file access types */ enum mat_acc { MAT_ACC_RDONLY = 0, /**< @brief Read only file access */ MAT_ACC_RDWR = 1 /**< @brief Read/Write file access */ }; /** @brief MAT file versions * * @ingroup MAT * MAT file versions */ enum mat_ft { MAT_FT_MAT73 = 0x0200, /**< @brief Matlab version 7.3 file */ MAT_FT_MAT5 = 0x0100, /**< @brief Matlab level-5 file */ MAT_FT_MAT4 = 0x0010 /**< @brief Version 4 file */ }; /** @brief Matlab data types * * @ingroup MAT * Matlab data types */ enum matio_types { MAT_T_UNKNOWN = 0, /**< @brief UNKOWN data type */ MAT_T_INT8 = 1, /**< @brief 8-bit signed integer data type */ MAT_T_UINT8 = 2, /**< @brief 8-bit unsigned integer data type */ MAT_T_INT16 = 3, /**< @brief 16-bit signed integer data type */ MAT_T_UINT16 = 4, /**< @brief 16-bit unsigned integer data type */ MAT_T_INT32 = 5, /**< @brief 32-bit signed integer data type */ MAT_T_UINT32 = 6, /**< @brief 32-bit unsigned integer data type */ MAT_T_SINGLE = 7, /**< @brief IEEE 754 single precision data type */ MAT_T_DOUBLE = 9, /**< @brief IEEE 754 double precision data type */ MAT_T_INT64 = 12, /**< @brief 64-bit signed integer data type */ MAT_T_UINT64 = 13, /**< @brief 64-bit unsigned integer data type */ MAT_T_MATRIX = 14, /**< @brief matrix data type */ MAT_T_COMPRESSED = 15, /**< @brief compressed data type */ MAT_T_UTF8 = 16, /**< @brief 8-bit unicode text data type */ MAT_T_UTF16 = 17, /**< @brief 16-bit unicode text data type */ MAT_T_UTF32 = 18, /**< @brief 32-bit unicode text data type */ MAT_T_STRING = 20, /**< @brief String data type */ MAT_T_CELL = 21, /**< @brief Cell array data type */ MAT_T_STRUCT = 22, /**< @brief Structure data type */ MAT_T_ARRAY = 23, /**< @brief Array data type */ MAT_T_FUNCTION = 24 /**< @brief Function data type */ }; /** @brief Matlab variable classes * * @ingroup MAT * Matlab variable classes */ enum matio_classes { MAT_C_EMPTY = 0, /**< @brief Empty array */ MAT_C_CELL = 1, /**< @brief Matlab cell array class */ MAT_C_STRUCT = 2, /**< @brief Matlab structure class */ MAT_C_OBJECT = 3, /**< @brief Matlab object class */ MAT_C_CHAR = 4, /**< @brief Matlab character array class */ MAT_C_SPARSE = 5, /**< @brief Matlab sparse array class */ MAT_C_DOUBLE = 6, /**< @brief Matlab double-precision class */ MAT_C_SINGLE = 7, /**< @brief Matlab single-precision class */ MAT_C_INT8 = 8, /**< @brief Matlab signed 8-bit integer class */ MAT_C_UINT8 = 9, /**< @brief Matlab unsigned 8-bit integer class */ MAT_C_INT16 = 10, /**< @brief Matlab signed 16-bit integer class */ MAT_C_UINT16 = 11, /**< @brief Matlab unsigned 16-bit integer class */ MAT_C_INT32 = 12, /**< @brief Matlab signed 32-bit integer class */ MAT_C_UINT32 = 13, /**< @brief Matlab unsigned 32-bit integer class */ MAT_C_INT64 = 14, /**< @brief Matlab unsigned 32-bit integer class */ MAT_C_UINT64 = 15, /**< @brief Matlab unsigned 32-bit integer class */ MAT_C_FUNCTION = 16 /**< @brief Matlab unsigned 32-bit integer class */ }; /** @brief Matlab array flags * * @ingroup MAT * Matlab array flags */ enum matio_flags { MAT_F_COMPLEX = 0x0800, /**< @brief Complex bit flag */ MAT_F_GLOBAL = 0x0400, /**< @brief Global bit flag */ MAT_F_LOGICAL = 0x0200, /**< @brief Logical bit flag */ MAT_F_DONT_COPY_DATA = 0x0001 /**< Don't copy data, use keep the pointer */ }; /** @brief MAT file compression options * * This option is only used on version 5 MAT files * @ingroup MAT */ enum matio_compression { MAT_COMPRESSION_NONE = 0, /**< @brief No compression */ MAT_COMPRESSION_ZLIB = 1 /**< @brief zlib compression */ }; /** @brief matio lookup type * * @ingroup MAT * matio lookup type */ enum { MAT_BY_NAME = 1, /**< Lookup by name */ MAT_BY_INDEX = 2 /**< Lookup by index */ }; /** @brief Complex data type using split storage * * Complex data type using split real/imaginary pointers * @ingroup MAT */ typedef struct mat_complex_split_t { void *Re; /**< Pointer to the real part */ void *Im; /**< Pointer to the imaginary part */ } mat_complex_split_t; struct _mat_t; /** @brief Matlab MAT File information * Contains information about a Matlab MAT file * @ingroup MAT */ typedef struct _mat_t mat_t; /* Incomplete definition for private library data */ struct matvar_internal; /** @brief Matlab variable information * * Contains information about a Matlab variable * @ingroup MAT */ typedef struct matvar_t { size_t nbytes; /**< Number of bytes for the MAT variable */ int rank; /**< Rank (Number of dimensions) of the data */ enum matio_types data_type; /**< Data type(MAT_T_*) */ int data_size; /**< Bytes / element for the data */ enum matio_classes class_type; /**< Class type in Matlab(MAT_C_DOUBLE, etc) */ int isComplex; /**< non-zero if the data is complex, 0 if real */ int isGlobal; /**< non-zero if the variable is global */ int isLogical; /**< non-zero if the variable is logical */ size_t *dims; /**< Array of lengths for each dimension */ char *name; /**< Name of the variable */ void *data; /**< Pointer to the data */ int mem_conserve; /**< 1 if Memory was conserved with data */ enum matio_compression compression; /**< Variable compression type */ struct matvar_internal *internal; /**< matio internal data */ } matvar_t; /** @brief sparse data information * * Contains information and data for a sparse matrix * @ingroup MAT */ typedef struct mat_sparse_t { int nzmax; /**< Maximum number of non-zero elements */ int *ir; /**< Array of size nzmax where ir[k] is the row of * data[k]. 0 <= k <= nzmax */ int nir; /**< number of elements in ir */ int *jc; /**< Array size N+1 (N is number of columsn) with * jc[k] being the index into ir/data of the * first non-zero element for row k. */ int njc; /**< Number of elements in jc */ int ndata; /**< Number of complex/real data values */ void *data; /**< Array of data elements */ } mat_sparse_t; /* Library function */ EXTERN void Mat_GetLibraryVersion(int *major,int *minor,int *release); /* io.c */ EXTERN char *strdup_vprintf(const char *format, va_list ap); EXTERN char *strdup_printf(const char *format, ...); EXTERN int Mat_SetVerbose( int verb, int s ); EXTERN int Mat_SetDebug( int d ); EXTERN void Mat_Critical( const char *format, ... ); EXTERN void Mat_Error( const char *format, ... ); EXTERN void Mat_Help( const char *helpstr[] ); EXTERN int Mat_LogInit( const char *progname ); EXTERN int Mat_LogClose(void); EXTERN int Mat_LogInitFunc(const char *prog_name, void (*log_func)(int log_level, char *message) ); EXTERN int Mat_Message( const char *format, ... ); EXTERN int Mat_DebugMessage( int level, const char *format, ... ); EXTERN int Mat_VerbMessage( int level, const char *format, ... ); EXTERN void Mat_Warning( const char *format, ... ); EXTERN size_t Mat_SizeOf(enum matio_types data_type); EXTERN size_t Mat_SizeOfClass(int class_type); /* MAT File functions */ #define Mat_Create(a,b) Mat_CreateVer(a,b,MAT_FT_DEFAULT) EXTERN mat_t *Mat_CreateVer(const char *matname,const char *hdr_str, enum mat_ft mat_file_ver); EXTERN int Mat_Close(mat_t *mat); EXTERN mat_t *Mat_Open(const char *matname,int mode); EXTERN const char *Mat_GetFilename(mat_t *matfp); EXTERN enum mat_ft Mat_GetVersion(mat_t *matfp); EXTERN int Mat_Rewind(mat_t *mat); /* MAT variable functions */ EXTERN matvar_t *Mat_VarCalloc(void); EXTERN matvar_t *Mat_VarCreate(const char *name,enum matio_classes class_type, enum matio_types data_type,int rank,size_t *dims, void *data,int opt); EXTERN matvar_t *Mat_VarCreateStruct(const char *name,int rank,size_t *dims, const char **fields,unsigned nfields); EXTERN int Mat_VarDelete(mat_t *mat, const char *name); EXTERN matvar_t *Mat_VarDuplicate(const matvar_t *in, int opt); EXTERN void Mat_VarFree(matvar_t *matvar); EXTERN matvar_t *Mat_VarGetCell(matvar_t *matvar,int index); EXTERN matvar_t **Mat_VarGetCells(matvar_t *matvar,int *start,int *stride, int *edge); EXTERN matvar_t **Mat_VarGetCellsLinear(matvar_t *matvar,int start,int stride, int edge); EXTERN size_t Mat_VarGetSize(matvar_t *matvar); EXTERN unsigned Mat_VarGetNumberOfFields(matvar_t *matvar); EXTERN int Mat_VarAddStructField(matvar_t *matvar,const char *fieldname); EXTERN char * const *Mat_VarGetStructFieldnames(const matvar_t *matvar); EXTERN matvar_t *Mat_VarGetStructFieldByIndex(matvar_t *matvar, size_t field_index,size_t index); EXTERN matvar_t *Mat_VarGetStructFieldByName(matvar_t *matvar, const char *field_name,size_t index); EXTERN matvar_t *Mat_VarGetStructField(matvar_t *matvar,void *name_or_index, int opt,int index); EXTERN matvar_t *Mat_VarGetStructs(matvar_t *matvar,int *start,int *stride, int *edge,int copy_fields); EXTERN matvar_t *Mat_VarGetStructsLinear(matvar_t *matvar,int start,int stride, int edge,int copy_fields); EXTERN void Mat_VarPrint( matvar_t *matvar, int printdata ); EXTERN matvar_t *Mat_VarRead(mat_t *mat, const char *name ); EXTERN int Mat_VarReadData(mat_t *mat,matvar_t *matvar,void *data, int *start,int *stride,int *edge); EXTERN int Mat_VarReadDataAll(mat_t *mat,matvar_t *matvar); EXTERN int Mat_VarReadDataLinear(mat_t *mat,matvar_t *matvar,void *data, int start,int stride,int edge); EXTERN matvar_t *Mat_VarReadInfo( mat_t *mat, const char *name ); EXTERN matvar_t *Mat_VarReadNext( mat_t *mat ); EXTERN matvar_t *Mat_VarReadNextInfo( mat_t *mat ); EXTERN matvar_t *Mat_VarSetCell(matvar_t *matvar,int index,matvar_t *cell); EXTERN matvar_t *Mat_VarSetStructFieldByIndex(matvar_t *matvar, size_t field_index,size_t index,matvar_t *field); EXTERN matvar_t *Mat_VarSetStructFieldByName(matvar_t *matvar, const char *field_name,size_t index,matvar_t *field); EXTERN int Mat_VarWrite(mat_t *mat,matvar_t *matvar, enum matio_compression compress ); EXTERN int Mat_VarWriteInfo(mat_t *mat,matvar_t *matvar); EXTERN int Mat_VarWriteData(mat_t *mat,matvar_t *matvar,void *data, int *start,int *stride,int *edge); /* Other functions */ EXTERN int Mat_CalcSingleSubscript(int rank,int *dims,int *subs); EXTERN int *Mat_CalcSubscripts(int rank,int *dims,int index); #endif PDL-IO-Matlab-release-0.005/matio-1.5.0/src/matioConfig.h.in000066400000000000000000000115711206363665300226510ustar00rootroot00000000000000/* * Copyright (C) 2012 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* Debug enabled */ #undef DEBUG /* Extended sparse matrix data types */ #undef EXTENDED_SPARSE /* Define to dummy `main' function (if any) required to link to the Fortran libraries. */ #undef FC_DUMMY_MAIN /* Define if F77 and FC dummy `main' functions are identical. */ #undef FC_DUMMY_MAIN_EQ_F77 /* Define to a macro mangling the given C identifier (in lower and upper case), which must not contain underscores, for linking with Fortran. */ #undef FC_FUNC /* As FC_FUNC, but for C identifiers containing underscores. */ #undef FC_FUNC_ /* Have asprintf */ #undef HAVE_ASPRINTF /* Define to 1 if you have the header file. */ #undef HAVE_DLFCN_H /* Have HDF5 */ #undef HAVE_HDF5 /* Define to 1 if you have the `m' library (-lm). */ #undef HAVE_LIBM /* Have MAT int16 */ #undef HAVE_MAT_INT16_T /* Have MAT int32 */ #undef HAVE_MAT_INT32_T /* Have MAT int64 */ #undef HAVE_MAT_INT64_T /* Have MAT int8 */ #undef HAVE_MAT_INT8_T /* Have MAT int16 */ #undef HAVE_MAT_UINT16_T /* Have MAT int32 */ #undef HAVE_MAT_UINT32_T /* Have MAT int64 */ #undef HAVE_MAT_UINT64_T /* Have MAT int8 */ #undef HAVE_MAT_UINT8_T /* Define to 1 if you have the header file. */ #undef HAVE_MEMORY_H /* Have snprintf */ #undef HAVE_SNPRINTF /* Define to 1 if you have the header file. */ #undef HAVE_STDLIB_H /* Define to 1 if you have the header file. */ #undef HAVE_STRINGS_H /* Define to 1 if you have the header file. */ #undef HAVE_STRING_H /* Define to 1 if you have the header file. */ #undef HAVE_SYS_STAT_H /* Define to 1 if you have the header file. */ #undef HAVE_SYS_TYPES_H /* Define to 1 if you have the header file. */ #undef HAVE_UNISTD_H /* Have vasprintf */ #undef HAVE_VASPRINTF /* Have va_copy */ #undef HAVE_VA_COPY /* Have vsnprintf */ #undef HAVE_VSNPRINTF /* Have zlib */ #undef HAVE_ZLIB /* Have va_copy */ #undef HAVE___VA_COPY /* OS is Linux */ #undef LINUX /* Define to the sub-directory in which libtool stores uninstalled libraries. */ #undef LT_OBJDIR /* MAT v7.3 file support */ #undef MAT73 /* Platform */ #undef MATIO_PLATFORM /* Debug disabled */ #undef NODEBUG /* Name of package */ #undef PACKAGE /* Define to the address where bug reports for this package should be sent. */ #undef PACKAGE_BUGREPORT /* Define to the full name of this package. */ #undef PACKAGE_NAME /* Define to the full name and version of this package. */ #undef PACKAGE_STRING /* Define to the one symbol short name of this package. */ #undef PACKAGE_TARNAME /* Define to the home page for this package. */ #undef PACKAGE_URL /* Define to the version of this package. */ #undef PACKAGE_VERSION /* The size of `char', as computed by sizeof. */ #undef SIZEOF_CHAR /* The size of `double', as computed by sizeof. */ #undef SIZEOF_DOUBLE /* The size of `float', as computed by sizeof. */ #undef SIZEOF_FLOAT /* The size of `int', as computed by sizeof. */ #undef SIZEOF_INT /* The size of `long', as computed by sizeof. */ #undef SIZEOF_LONG /* The size of `long long', as computed by sizeof. */ #undef SIZEOF_LONG_LONG /* The size of `short', as computed by sizeof. */ #undef SIZEOF_SHORT /* The size of `size_t', as computed by sizeof. */ #undef SIZEOF_SIZE_T /* The size of `void *', as computed by sizeof. */ #undef SIZEOF_VOID_P /* Define to 1 if you have the ANSI C header files. */ #undef STDC_HEADERS /* OS is Solaris */ #undef SUN /* Version number of package */ #undef VERSION /* OS is CygWin */ #undef WINNT /* Z prefix */ #undef Z_PREFIX PDL-IO-Matlab-release-0.005/matio-1.5.0/src/matio_private.h000066400000000000000000000221661206363665300226520ustar00rootroot00000000000000/* * Copyright (C) 2008-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef MATIO_PRIVATE_H #define MATIO_PRIVATE_H #include "matioConfig.h" #include "matio.h" #if defined(HAVE_ZLIB) # include #endif #if defined(MAT73) && MAT73 # include #else # define hobj_ref_t int # define hid_t int #endif #ifndef EXTERN # ifdef __cplusplus # define EXTERN extern "C" # else # define EXTERN extern # endif #endif #if defined(HAVE_ZLIB) && HAVE_ZLIB # define ZLIB_BYTE_PTR(a) ((Bytef *)(a)) #endif /** @if mat_devman * @brief Matlab MAT File information * * Contains information about a Matlab MAT file * @ingroup mat_internal * @endif */ struct _mat_t { /* void *fp; */ /**< File pointer for the MAT file */ /* gjl 2012 */ FILE *fp; /**< File pointer for the MAT file */ char *header; /**< MAT File header string */ char *subsys_offset; /**< offset */ char *filename; /**< Filename of the MAT file */ int version; /**< MAT File version */ int byteswap; /**< 1 if byte swapping is required, 0 otherwise */ int mode; /**< Access mode */ long bof; /**< Beginning of file not including any header */ long next_index; /**< Index/File position of next variable to read */ long num_datasets; /**< Number of datasets in the file */ hid_t refs_id; /**< Id of the /#refs# group in HDF5 */ }; /** @if mat_devman * @brief internal structure for MAT variables * @ingroup mat_internal * @endif */ struct matvar_internal { char *hdf5_name; hobj_ref_t hdf5_ref; hid_t id; long fpos; /**< Offset from the beginning of the MAT file to the variable */ long datapos; /**< Offset from the beginning of the MAT file to the data */ mat_t *fp; /**< Pointer to the MAT file structure (mat_t) */ unsigned num_fields; char **fieldnames; #if defined(HAVE_ZLIB) z_stream *z; /**< zlib compression state */ #endif }; /* snprintf.c */ EXTERN int mat_snprintf(char *str,size_t count,const char *fmt,...); EXTERN int mat_asprintf(char **ptr,const char *format, ...); EXTERN int mat_vsnprintf(char *str,size_t count,const char *fmt,va_list args); EXTERN int mat_vasprintf(char **ptr,const char *format,va_list ap); /* endian.c */ EXTERN double Mat_doubleSwap(double *a); EXTERN float Mat_floatSwap(float *a); #ifdef HAVE_MAT_INT64_T EXTERN mat_int64_t Mat_int64Swap(mat_int64_t *a); #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T EXTERN mat_uint64_t Mat_uint64Swap(mat_uint64_t *a); #endif /* HAVE_MAT_UINT64_T */ EXTERN mat_int32_t Mat_int32Swap(mat_int32_t *a); EXTERN mat_uint32_t Mat_uint32Swap(mat_uint32_t *a); EXTERN mat_int16_t Mat_int16Swap(mat_int16_t *a); EXTERN mat_uint16_t Mat_uint16Swap(mat_uint16_t *a); /* read_data.c */ EXTERN int ReadDoubleData(mat_t *mat,double *data,enum matio_types data_type, int len); EXTERN int ReadSingleData(mat_t *mat,float *data,enum matio_types data_type, int len); #ifdef HAVE_MAT_INT64_T EXTERN int ReadInt64Data (mat_t *mat,mat_int64_t *data, enum matio_types data_type,int len); #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T EXTERN int ReadUInt64Data(mat_t *mat,mat_uint64_t *data, enum matio_types data_type,int len); #endif /* HAVE_MAT_UINT64_T */ EXTERN int ReadInt32Data (mat_t *mat,mat_int32_t *data, enum matio_types data_type,int len); EXTERN int ReadUInt32Data(mat_t *mat,mat_uint32_t *data, enum matio_types data_type,int len); EXTERN int ReadInt16Data (mat_t *mat,mat_int16_t *data, enum matio_types data_type,int len); EXTERN int ReadUInt16Data(mat_t *mat,mat_uint16_t *data, enum matio_types data_type,int len); EXTERN int ReadInt8Data (mat_t *mat,mat_int8_t *data, enum matio_types data_type,int len); EXTERN int ReadUInt8Data (mat_t *mat,mat_uint8_t *data, enum matio_types data_type,int len); EXTERN int ReadCharData (mat_t *mat,char *data,enum matio_types data_type, int len); EXTERN int ReadDataSlab1(mat_t *mat,void *data,enum matio_classes class_type, enum matio_types data_type,int start,int stride,int edge); EXTERN int ReadDataSlab2(mat_t *mat,void *data,enum matio_classes class_type, enum matio_types data_type,size_t *dims,int *start,int *stride, int *edge); EXTERN int ReadDataSlabN(mat_t *mat,void *data,enum matio_classes class_type, enum matio_types data_type,int rank,size_t *dims,int *start, int *stride,int *edge); #if defined(HAVE_ZLIB) EXTERN int ReadCompressedDoubleData(mat_t *mat,z_stream *z,double *data, enum matio_types data_type,int len); EXTERN int ReadCompressedSingleData(mat_t *mat,z_stream *z,float *data, enum matio_types data_type,int len); #ifdef HAVE_MAT_INT64_T EXTERN int ReadCompressedInt64Data(mat_t *mat,z_stream *z,mat_int64_t *data, enum matio_types data_type,int len); #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T EXTERN int ReadCompressedUInt64Data(mat_t *mat,z_stream *z,mat_uint64_t *data, enum matio_types data_type,int len); #endif /* HAVE_MAT_UINT64_T */ EXTERN int ReadCompressedInt32Data(mat_t *mat,z_stream *z,mat_int32_t *data, enum matio_types data_type,int len); EXTERN int ReadCompressedUInt32Data(mat_t *mat,z_stream *z,mat_uint32_t *data, enum matio_types data_type,int len); EXTERN int ReadCompressedInt16Data(mat_t *mat,z_stream *z,mat_int16_t *data, enum matio_types data_type,int len); EXTERN int ReadCompressedUInt16Data(mat_t *mat,z_stream *z,mat_uint16_t *data, enum matio_types data_type,int len); EXTERN int ReadCompressedInt8Data(mat_t *mat,z_stream *z,mat_int8_t *data, enum matio_types data_type,int len); EXTERN int ReadCompressedUInt8Data(mat_t *mat,z_stream *z,mat_uint8_t *data, enum matio_types data_type,int len); EXTERN int ReadCompressedCharData(mat_t *mat,z_stream *z,char *data, enum matio_types data_type,int len); EXTERN int ReadCompressedDataSlab1(mat_t *mat,z_stream *z,void *data, enum matio_classes class_type,enum matio_types data_type, int start,int stride,int edge); EXTERN int ReadCompressedDataSlab2(mat_t *mat,z_stream *z,void *data, enum matio_classes class_type,enum matio_types data_type, size_t *dims,int *start,int *stride,int *edge); EXTERN int ReadCompressedDataSlabN(mat_t *mat,z_stream *z,void *data, enum matio_classes class_type,enum matio_types data_type, int rank,size_t *dims,int *start,int *stride,int *edge); /* inflate.c */ EXTERN int InflateSkip(mat_t *mat, z_stream *z, int nbytes); EXTERN int InflateSkip2(mat_t *mat, matvar_t *matvar, int nbytes); EXTERN int InflateSkipData(mat_t *mat,z_stream *z,enum matio_types data_type,int len); EXTERN int InflateVarTag(mat_t *mat, matvar_t *matvar, void *buf); EXTERN int InflateArrayFlags(mat_t *mat, matvar_t *matvar, void *buf); EXTERN int InflateDimensions(mat_t *mat, matvar_t *matvar, void *buf); EXTERN int InflateVarNameTag(mat_t *mat, matvar_t *matvar, void *buf); EXTERN int InflateVarName(mat_t *mat,matvar_t *matvar,void *buf,int N); EXTERN int InflateDataTag(mat_t *mat, matvar_t *matvar, void *buf); EXTERN int InflateDataType(mat_t *mat, z_stream *matvar, void *buf); EXTERN int InflateData(mat_t *mat, z_stream *z, void *buf, int nBytes); EXTERN int InflateFieldNameLength(mat_t *mat,matvar_t *matvar,void *buf); EXTERN int InflateFieldNamesTag(mat_t *mat,matvar_t *matvar,void *buf); EXTERN int InflateFieldNames(mat_t *mat,matvar_t *matvar,void *buf,int nfields, int fieldname_length,int padding); #endif #endif PDL-IO-Matlab-release-0.005/matio-1.5.0/src/matio_pubconf.h.in000066400000000000000000000054771206363665300232470ustar00rootroot00000000000000/* * Copyright (C) 2010-2012 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef MATIO_PUBCONF_H #define MATIO_PUBCONF_H 1 /* Matio major version number */ #undef MATIO_MAJOR_VERSION /* Matio minor version number */ #undef MATIO_MINOR_VERSION /* Matio release level number */ #undef MATIO_RELEASE_LEVEL /* Matio version number */ #undef MATIO_VERSION /* Default file format */ #undef MAT_FT_DEFAULT /* Define to 1 if you have the header file. */ #undef MATIO_HAVE_STDINT_H /* Define to 1 if you have the header file. */ #undef MATIO_HAVE_INTTYPES_H /* int16 type */ #undef _mat_int16_t /* int32 type */ #undef _mat_int32_t /* int64 type */ #undef _mat_int64_t /* int8 type */ #undef _mat_int8_t /* int16 type */ #undef _mat_uint16_t /* int32 type */ #undef _mat_uint32_t /* int64 type */ #undef _mat_uint64_t /* int8 type */ #undef _mat_uint8_t #if MATIO_HAVE_INTTYPES_H # include #endif #if MATIO_HAVE_STDINT_H # include #endif #ifdef _mat_int64_t typedef _mat_int64_t mat_int64_t; #endif #ifdef _mat_uint64_t typedef _mat_uint64_t mat_uint64_t; #endif #ifdef _mat_int32_t typedef _mat_int32_t mat_int32_t; #endif #ifdef _mat_uint32_t typedef _mat_uint32_t mat_uint32_t; #endif #ifdef _mat_int16_t typedef _mat_int16_t mat_int16_t; #endif #ifdef _mat_uint16_t typedef _mat_uint16_t mat_uint16_t; #endif #ifdef _mat_int8_t typedef _mat_int8_t mat_int8_t; #endif #ifdef _mat_uint8_t typedef _mat_uint8_t mat_uint8_t; #endif #endif /* MATIO_PUBCONF_H */ PDL-IO-Matlab-release-0.005/matio-1.5.0/src/matvar_cell.c000066400000000000000000000135721206363665300222740ustar00rootroot00000000000000/* * Copyright (C) 2012 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include "matio_private.h" /** @brief Returns a pointer to the Cell array at a specific index * * Returns a pointer to the Cell Array Field at the given 1-relative index. * MAT file must be a version 5 matlab file. * @ingroup MAT * @param matvar Pointer to the Cell Array MAT variable * @param index linear index of cell to return * @return Pointer to the Cell Array Field on success, NULL on error */ matvar_t * Mat_VarGetCell(matvar_t *matvar,int index) { int nmemb = 1, i; matvar_t *cell = NULL; if ( matvar == NULL ) return NULL; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; if ( index < nmemb ) cell = *((matvar_t **)matvar->data + index); return cell; } /** @brief Indexes a cell array * * Finds cells of a cell array given a start, stride, and edge for each. * dimension. The cells are placed in a pointer array. The cells should not * be freed, but the array of pointers should be. If copies are needed, * use Mat_VarDuplicate on each cell. * * Note that this function is limited to structure arrays with a rank less than * 10. * * @ingroup MAT * @param matvar Cell Array matlab variable * @param start vector of length rank with 0-relative starting coordinates for * each diemnsion. * @param stride vector of length rank with strides for each diemnsion. * @param edge vector of length rank with the number of elements to read in * each diemnsion. * @returns an array of pointers to the cells */ matvar_t ** Mat_VarGetCells(matvar_t *matvar,int *start,int *stride,int *edge) { int i, j, N, I = 0; size_t idx[10] = {0,}, cnt[10] = {0,}, dimp[10] = {0,}; matvar_t **cells; if ( (matvar == NULL) || (start == NULL) || (stride == NULL) || (edge == NULL) ) { return NULL; } else if ( matvar->rank > 9 ) { return NULL; } dimp[0] = matvar->dims[0]; N = edge[0]; I = start[0]; idx[0] = start[0]; for ( i = 1; i < matvar->rank; i++ ) { idx[i] = start[i]; dimp[i] = dimp[i-1]*matvar->dims[i]; N *= edge[i]; I += start[i]*dimp[i-1]; } cells = malloc(N*sizeof(matvar_t *)); for ( i = 0; i < N; i+=edge[0] ) { for ( j = 0; j < edge[0]; j++ ) { cells[i+j] = *((matvar_t **)matvar->data + I); I += stride[0]; } idx[0] = start[0]; I = idx[0]; cnt[1]++; idx[1] += stride[1]; for ( j = 1; j < matvar->rank; j++ ) { if ( cnt[j] == edge[j] ) { cnt[j] = 0; idx[j] = start[j]; cnt[j+1]++; idx[j+1] += stride[j+1]; } I += idx[j]*dimp[j-1]; } } return cells; } /** @brief Indexes a cell array * * Finds cells of a cell array given a linear indexed start, stride, and edge. * The cells are placed in a pointer array. The cells themself should not * be freed as they are part of the original cell array, but the pointer array * should be. If copies are needed, use Mat_VarDuplicate on each of the cells. * MAT file version must be 5. * @ingroup MAT * @param matvar Cell Array matlab variable * @param start starting index * @param stride stride * @param edge Number of cells to get * @returns an array of pointers to the cells */ matvar_t ** Mat_VarGetCellsLinear(matvar_t *matvar,int start,int stride,int edge) { int i, I = 0; matvar_t **cells = NULL; if ( matvar != NULL ) { cells = malloc(edge*sizeof(matvar_t *)); I = start; for ( i = 0; i < edge; i++ ) { cells[i] = *((matvar_t **)matvar->data + I); I += stride; } } return cells; } /** @brief Sets the element of the cell array at the specific index * * Sets the element of the cell array at the given 0-relative index to @c cell. * @ingroup MAT * @param matvar Pointer to the cell array variable * @param index 0-relative linear index of the cell to set * @return Pointer to the previous cell element, or NULL if there was no * previous cell element or error. */ matvar_t * Mat_VarSetCell(matvar_t *matvar,int index,matvar_t *cell) { int nmemb = 1, i; matvar_t **cells, *old_cell = NULL; if ( matvar == NULL || matvar->rank < 1 ) return NULL; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; cells = matvar->data; if ( index < nmemb ) { old_cell = cells[index]; cells[index] = cell; } return old_cell; }PDL-IO-Matlab-release-0.005/matio-1.5.0/src/matvar_struct.c000066400000000000000000000432751206363665300227040ustar00rootroot00000000000000/* * Copyright (C) 2012 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include "matio_private.h" /** @brief Creates a structure MATLAB variable with the given name and fields * * @ingroup MAT * @param name Name of the structure variable to create * @param rank Rank of the variable * @param dims array of dimensions of the variable of size rank * @param fields Array of @c nfields fieldnames * @param nfields Number of fields in the structure * @param matvar Pointer to store the new structure MATLAB variable * @return @c MATIO_SUCCESS if successful, or an error value (See * @ref enum matio_error_t). */ matvar_t * Mat_VarCreateStruct(const char *name,int rank,size_t *dims,const char **fields, unsigned nfields) { int i, nmemb = 1; matvar_t *matvar; if ( NULL == dims ) return NULL; matvar = Mat_VarCalloc(); if ( NULL == matvar ) return NULL; matvar->compression = MAT_COMPRESSION_NONE; if ( NULL != name ) matvar->name = strdup(name); matvar->rank = rank; matvar->dims = malloc(matvar->rank*sizeof(*matvar->dims)); for ( i = 0; i < matvar->rank; i++ ) { matvar->dims[i] = dims[i]; nmemb *= dims[i]; } matvar->class_type = MAT_C_STRUCT; matvar->data_type = MAT_T_STRUCT; matvar->data_size = sizeof(matvar_t *); if ( nfields ) { matvar->internal->num_fields = nfields; matvar->internal->fieldnames = malloc(nfields*sizeof(*matvar->internal->fieldnames)); if ( NULL == matvar->internal->fieldnames ) { Mat_VarFree(matvar); matvar = NULL; } else { for ( i = 0; i < nfields; i++ ) { if ( NULL == fields[i] ) { Mat_VarFree(matvar); matvar = NULL; break; } else { matvar->internal->fieldnames[i] = strdup(fields[i]); } } } if ( NULL != matvar && nmemb > 0 && nfields > 0 ) { matvar->nbytes = nmemb*nfields*matvar->data_size; matvar->data = malloc(matvar->nbytes); } } return matvar; } /** @brief Adds a field to a structure * * Adds the given field to the structure. fields should be an array of matvar_t * pointers of the same size as the structure (i.e. 1 field per structure * element). * @ingroup MAT * @param matvar Pointer to the Structure MAT variable * @param fields Array of fields to be added * @retval 0 on success */ int Mat_VarAddStructField(matvar_t *matvar,const char *fieldname) { int i, f, nfields, nmemb, cnt = 0; matvar_t **new_data, **old_data; if ( matvar == NULL || fieldname == NULL ) return -1; nmemb = 1; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; nfields = matvar->internal->num_fields+1; matvar->internal->num_fields = nfields; matvar->internal->fieldnames = realloc(matvar->internal->fieldnames, nfields*sizeof(*matvar->internal->fieldnames)); matvar->internal->fieldnames[nfields-1] = strdup(fieldname); new_data = malloc(nfields*nmemb*sizeof(*new_data)); if ( new_data == NULL ) return -1; old_data = matvar->data; for ( i = 0; i < nmemb; i++ ) { for ( f = 0; f < nfields-1; f++ ) new_data[cnt++] = old_data[i*(nfields-1)+f]; new_data[cnt++] = NULL; } free(matvar->data); matvar->data = new_data; matvar->nbytes = nfields*nmemb*sizeof(*new_data); return 0; } /** @brief Returns the number of fields in a structure variable * * Returns the number of fields in the given structure. * @ingroup MAT * @param matvar Structure matlab variable * @returns Number of fields */ unsigned Mat_VarGetNumberOfFields(matvar_t *matvar) { int nfields; if ( matvar == NULL || matvar->class_type != MAT_C_STRUCT || NULL == matvar->internal ) { nfields = 0; } else { nfields = matvar->internal->num_fields; } return nfields; } /** @brief Returns the fieldnames of a structure variable * * Returns the fieldnames for the given structure. The returned pointers are * internal to the structure and should not be free'd. * @ingroup MAT * @param matvar Structure matlab variable * @returns Array of fieldnames */ char * const * Mat_VarGetStructFieldnames(const matvar_t *matvar) { if ( matvar == NULL || matvar->class_type != MAT_C_STRUCT || NULL == matvar->internal ) { return NULL; } else { return matvar->internal->fieldnames; } } /** @brief Finds a field of a structure by the field's index * * Returns a pointer to the structure field at the given 0-relative index. * @ingroup MAT * @param matvar Pointer to the Structure MAT variable * @param field_index 0-relative index of the field. * @param index linear index of the structure array * @return Pointer to the structure field on success, NULL on error */ matvar_t * Mat_VarGetStructFieldByIndex(matvar_t *matvar,size_t field_index,size_t index) { int i, nfields; matvar_t *field = NULL; size_t nmemb = 1; if ( matvar == NULL || matvar->class_type != MAT_C_STRUCT || matvar->data_size == 0 ) return field; nmemb = 1; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; nfields = matvar->internal->num_fields; if ( nmemb > 0 && index >= nmemb ) { Mat_Critical("Mat_VarGetStructField: structure index out of bounds"); } else if ( nfields > 0 ) { if ( field_index > nfields ) { Mat_Critical("Mat_VarGetStructField: field index out of bounds"); } else { field = *((matvar_t **)matvar->data+index*nfields+field_index); } } return field; } /** @brief Finds a field of a structure by the field's name * * Returns a pointer to the structure field at the given 0-relative index. * @ingroup MAT * @param matvar Pointer to the Structure MAT variable * @param name Name of the structure field * @param index linear index of the structure array * @return Pointer to the structure field on success, NULL on error */ matvar_t * Mat_VarGetStructFieldByName(matvar_t *matvar,const char *field_name, size_t index) { int i, nfields, field_index; matvar_t *field = NULL; size_t nmemb; if ( matvar == NULL || matvar->class_type != MAT_C_STRUCT || matvar->data_size == 0 ) return field; nmemb = 1; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; nfields = matvar->internal->num_fields; field_index = -1; for ( i = 0; i < nfields; i++ ) { if ( !strcmp(matvar->internal->fieldnames[i],field_name) ) { field_index = i; break; } } if ( index >= nmemb ) { Mat_Critical("Mat_VarGetStructField: structure index out of bounds"); } else if ( field_index >= 0 ) { field = *((matvar_t **)matvar->data+index*nfields+field_index); } return field; } /** @brief Finds a field of a structure * * Returns a pointer to the structure field at the given 0-relative index. * @ingroup MAT * @param matvar Pointer to the Structure MAT variable * @param name_or_index Name of the field, or the 1-relative index of the field * If the index is used, it should be the address of an integer variable whose * value is the index number. * @param opt MAT_BY_NAME if the name_or_index is the name or MAT_BY_INDEX if * the index was passed. * @param index linear index of the structure to find the field of * @return Pointer to the Structure Field on success, NULL on error */ matvar_t * Mat_VarGetStructField(matvar_t *matvar,void *name_or_index,int opt,int index) { int i, err = 0, nfields, nmemb; matvar_t *field = NULL; nmemb = 1; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; nfields = matvar->internal->num_fields; if ( index < 0 || (nmemb > 0 && index >= nmemb )) err = 1; else if ( nfields < 1 ) err = 1; if ( !err && (opt == MAT_BY_INDEX) ) { size_t field_index = *(int *)name_or_index; if ( field_index > 0 ) field = Mat_VarGetStructFieldByIndex(matvar,field_index-1,index); } else if ( !err && (opt == MAT_BY_NAME) ) { field = Mat_VarGetStructFieldByName(matvar,name_or_index,index); } return field; } /** @brief Indexes a structure * * Finds structures of a structure array given a start, stride, and edge for * each dimension. The structures are placed in a new structure array. If * copy_fields is non-zero, the indexed structures are copied and should be * freed, but if copy_fields is zero, the indexed structures are pointers to * the original, but should still be freed. The structures have a flag set * so that the structure fields are not freed. * * Note that this function is limited to structure arrays with a rank less than * 10. * * @ingroup MAT * @param matvar Structure matlab variable * @param start vector of length rank with 0-relative starting coordinates for * each diemnsion. * @param stride vector of length rank with strides for each diemnsion. * @param edge vector of length rank with the number of elements to read in * each diemnsion. * @param copy_fields 1 to copy the fields, 0 to just set pointers to them. * @returns A new structure array with fields indexed from @c matvar. */ matvar_t * Mat_VarGetStructs(matvar_t *matvar,int *start,int *stride,int *edge, int copy_fields) { size_t i,j,N,I,nfields,field,idx[10] = {0,},cnt[10] = {0,},dimp[10] = {0,}; matvar_t **fields, *struct_slab; if ( (matvar == NULL) || (start == NULL) || (stride == NULL) || (edge == NULL) ) { return NULL; } else if ( matvar->rank > 9 ) { return NULL; } else if ( matvar->class_type != MAT_C_STRUCT ) { return NULL; } struct_slab = Mat_VarDuplicate(matvar,0); if ( !copy_fields ) struct_slab->mem_conserve = 1; nfields = matvar->internal->num_fields; dimp[0] = matvar->dims[0]; N = edge[0]; I = start[0]; struct_slab->dims[0] = edge[0]; idx[0] = start[0]; for ( i = 1; i < matvar->rank; i++ ) { idx[i] = start[i]; dimp[i] = dimp[i-1]*matvar->dims[i]; N *= edge[i]; I += start[i]*dimp[i-1]; struct_slab->dims[i] = edge[i]; } I *= nfields; struct_slab->nbytes = N*nfields*sizeof(matvar_t *); struct_slab->data = malloc(struct_slab->nbytes); if ( struct_slab->data == NULL ) { Mat_VarFree(struct_slab); return NULL; } fields = struct_slab->data; for ( i = 0; i < N; i+=edge[0] ) { for ( j = 0; j < edge[0]; j++ ) { for ( field = 0; field < nfields; field++ ) { if ( copy_fields ) fields[(i+j)*nfields+field] = Mat_VarDuplicate(*((matvar_t **)matvar->data + I),1); else fields[(i+j)*nfields+field] = *((matvar_t **)matvar->data + I); I++; } if ( stride != 0 ) I += (stride[0]-1)*nfields; } idx[0] = start[0]; I = idx[0]; cnt[1]++; idx[1] += stride[1]; for ( j = 1; j < matvar->rank; j++ ) { if ( cnt[j] == edge[j] ) { cnt[j] = 0; idx[j] = start[j]; cnt[j+1]++; idx[j+1] += stride[j+1]; } I += idx[j]*dimp[j-1]; } I *= nfields; } return struct_slab; } /** @brief Indexes a structure * * Finds structures of a structure array given a single (linear)start, stride, * and edge. The structures are placed in a new structure array. If * copy_fields is non-zero, the indexed structures are copied and should be * freed, but if copy_fields is zero, the indexed structures are pointers to * the original, but should still be freed since the mem_conserve flag is set * so that the structures are not freed. * MAT File version must be 5. * @ingroup MAT * @param matvar Structure matlab variable * @param start starting index (0-relative) * @param stride stride (1 reads consecutive elements) * @param edge Number of elements to read * @param copy_fields 1 to copy the fields, 0 to just set pointers to them. * @returns A new structure with fields indexed from matvar */ matvar_t * Mat_VarGetStructsLinear(matvar_t *matvar,int start,int stride,int edge, int copy_fields) { int i, I = 0, field, nfields; matvar_t *struct_slab, **fields; /* FIXME: Check allocations */ if ( matvar == NULL || matvar->rank > 10 ) { struct_slab = NULL; } else { struct_slab = Mat_VarDuplicate(matvar,0); if ( !copy_fields ) struct_slab->mem_conserve = 1; nfields = matvar->internal->num_fields; struct_slab->nbytes = edge*nfields*sizeof(matvar_t *); struct_slab->data = malloc(struct_slab->nbytes); struct_slab->dims[0] = edge; struct_slab->dims[1] = 1; fields = struct_slab->data; I = start*nfields; for ( i = 0; i < edge; i++ ) { if ( copy_fields ) { for ( field = 0; field < nfields; field++ ) { fields[i*nfields+field] = Mat_VarDuplicate(*((matvar_t **)matvar->data+I),1); I++; } } else { for ( field = 0; field < nfields; field++ ) { fields[i*nfields+field] = *((matvar_t **)matvar->data + I); I++; } } I += (stride-1)*nfields; } } return struct_slab; } /** @brief Sets the structure field to the given variable * * Sets the structure field specified by the 0-relative field index * @c field_index for the given 0-relative structure index @c index to * @c field. * @ingroup MAT * @param matvar Pointer to the structure MAT variable * @param field_index 0-relative index of the field. * @param index linear index of the structure array * @param field New field variable * @return Pointer to the previous field (NULL if no previous field) */ matvar_t * Mat_VarSetStructFieldByIndex(matvar_t *matvar,size_t field_index,size_t index, matvar_t *field) { int i, nfields; matvar_t *old_field = NULL; size_t nmemb = 1; if ( matvar == NULL || matvar->class_type != MAT_C_STRUCT || matvar->data == NULL ) return old_field; nmemb = 1; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; nfields = matvar->internal->num_fields; if ( index < nmemb && field_index < nfields ) { matvar_t **fields = matvar->data; old_field = fields[index*nfields+field_index]; fields[index*nfields+field_index] = field; if ( NULL != field->name ) { free(field->name); } field->name = strdup(matvar->internal->fieldnames[field_index]); } return old_field; } /** @brief Sets the structure field to the given variable * * Sets the specified structure fieldname at the given 0-relative @c index to * @c field. * @ingroup MAT * @param matvar Pointer to the Structure MAT variable * @param field_name Name of the structure field * @param index linear index of the structure array * @param field New field variable * @return Pointer to the previous field (NULL if no previous field) */ matvar_t * Mat_VarSetStructFieldByName(matvar_t *matvar,const char *field_name, size_t index,matvar_t *field) { int i, nfields, field_index; matvar_t *old_field = NULL; size_t nmemb; if ( matvar == NULL || matvar->class_type != MAT_C_STRUCT || matvar->data == NULL ) return old_field; nmemb = 1; for ( i = 0; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; nfields = matvar->internal->num_fields; field_index = -1; for ( i = 0; i < nfields; i++ ) { if ( !strcmp(matvar->internal->fieldnames[i],field_name) ) { field_index = i; break; } } if ( index < nmemb && field_index >= 0 ) { matvar_t **fields = matvar->data; old_field = fields[index*nfields+field_index]; fields[index*nfields+field_index] = field; if ( NULL != field->name ) { free(field->name); } field->name = strdup(matvar->internal->fieldnames[field_index]); } return old_field; } PDL-IO-Matlab-release-0.005/matio-1.5.0/src/read_data.c000066400000000000000000007012441206363665300217070ustar00rootroot00000000000000/** @file read_data.c * Matlab MAT version 5 file functions * @ingroup MAT */ /* * Copyright (C) 2005-2011 Christopher C. Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* FIXME: Implement Unicode support */ #include #include #include #include #include #include "matio_private.h" #if defined(HAVE_ZLIB) # include #endif /* * -------------------------------------------------------------------------- * Routines to read data of any type into arrays of a specific type * -------------------------------------------------------------------------- */ /** @cond mat_devman */ /** @brief Reads data of type @c data_type into a double type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as double's in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output double values (len*sizeof(double)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadDoubleData(mat_t *mat,double *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { data_size = sizeof(double); if ( mat->byteswap ) { bytesread += fread(data,data_size,len,mat->fp); for ( i = 0; i < len; i++ ) { (void)Mat_doubleSwap(data+i); } } else { bytesread += fread(data,data_size,len,mat->fp); } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into a double type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as double's in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output double values (len*sizeof(double)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedDoubleData(mat_t *mat,z_stream *z,double *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; union _buf { #if SIZEOF_DOUBLE == 8 double d[128]; #elif SIZEOF_DOUBLE == 16 double d[64]; #endif float f[256]; mat_int32_t i32[256]; mat_uint32_t ui32[256]; mat_int16_t i16[512]; mat_uint16_t ui16[512]; mat_int8_t i8[1024]; mat_uint8_t ui8[1024]; } buf; switch ( data_type ) { case MAT_T_DOUBLE: { data_size = sizeof(double); if ( mat->byteswap ) { InflateData(mat,z,data,len*data_size); for ( i = 0; i < len; i++ ) (void)Mat_doubleSwap(data+i); } else { InflateData(mat,z,data,len*data_size); } break; } case MAT_T_INT32: { data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { if ( len <= 256 ){ InflateData(mat,z,buf.i32,len*data_size); for ( i = 0; i < len; i++ ) data[i] = Mat_int32Swap(buf.i32+i); } else { int j; len -= 256; for ( i = 0; i < len; i+=256 ) { InflateData(mat,z,buf.i32,256*data_size); for ( j = 0; j < 256; j++ ) data[i+j] = Mat_int32Swap(buf.i32+j); } len = len-(i-256); InflateData(mat,z,buf.i32,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = Mat_int32Swap(buf.i32+j); } } else { if ( len <= 256 ){ InflateData(mat,z,buf.i32,len*data_size); for ( i = 0; i < len; i++ ) data[i] = buf.i32[i]; } else { int j; len -= 256; for ( i = 0; i < len; i+=256 ) { InflateData(mat,z,buf.i32,256*data_size); for ( j = 0; j < 256; j++ ) data[i+j] = buf.i32[j]; } len = len-(i-256); InflateData(mat,z,buf.i32,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = buf.i32[j]; } } break; } case MAT_T_UINT32: { data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { if ( len <= 256 ){ InflateData(mat,z,buf.ui32,len*data_size); for ( i = 0; i < len; i++ ) data[i] = Mat_uint32Swap(buf.ui32+i); } else { int j; len -= 256; for ( i = 0; i < len; i+=256 ) { InflateData(mat,z,buf.ui32,256*data_size); for ( j = 0; j < 256; j++ ) data[i+j] = Mat_uint32Swap(buf.ui32+j); } len = len-(i-256); InflateData(mat,z,buf.ui32,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = Mat_uint32Swap(buf.ui32+j); } } else { if ( len <= 256 ) { InflateData(mat,z,buf.ui32,len*data_size); for ( i = 0; i < len; i++ ) data[i] = buf.ui32[i]; } else { int j; len -= 256; for ( i = 0; i < len; i+=256 ) { InflateData(mat,z,buf.ui32,256*data_size); for ( j = 0; j < 256; j++ ) data[i+j] = buf.ui32[j]; } len = len-(i-256); InflateData(mat,z,buf.ui32,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = buf.ui32[j]; } } break; } case MAT_T_INT16: { data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { if ( len <= 512 ){ InflateData(mat,z,buf.i16,len*data_size); for ( i = 0; i < len; i++ ) data[i] = Mat_int16Swap(buf.i16+i); } else { int j; len -= 512; for ( i = 0; i < len; i+=512 ) { InflateData(mat,z,buf.i16,512*data_size); for ( j = 0; j < 512; j++ ) data[i+j] = Mat_int16Swap(buf.i16+j); } len = len-(i-512); InflateData(mat,z,buf.i16,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = Mat_int16Swap(buf.i16+j); } } else { if ( len <= 512 ) { InflateData(mat,z,buf.i16,len*data_size); for ( i = 0; i < len; i++ ) data[i] = buf.i16[i]; } else { int j; len -= 512; for ( i = 0; i < len; i+=512 ) { InflateData(mat,z,buf.i16,512*data_size); for ( j = 0; j < 512; j++ ) data[i+j] = buf.i16[j]; } len = len-(i-512); InflateData(mat,z,buf.i16,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = buf.i16[j]; } } break; } case MAT_T_UINT16: { data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { if ( len <= 512 ){ InflateData(mat,z,buf.ui16,len*data_size); for ( i = 0; i < len; i++ ) data[i] = Mat_uint16Swap(buf.ui16+i); } else { int j; len -= 512; for ( i = 0; i < len; i+=512 ) { InflateData(mat,z,buf.ui16,512*data_size); for ( j = 0; j < 512; j++ ) data[i+j] = Mat_uint16Swap(buf.ui16+j); } len = len-(i-512); InflateData(mat,z,buf.ui16,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = Mat_uint16Swap(buf.ui16+j); } } else { if ( len <= 512 ) { InflateData(mat,z,buf.ui16,len*data_size); for ( i = 0; i < len; i++ ) data[i] = buf.ui16[i]; } else { int j; len -= 512; for ( i = 0; i < len; i+=512 ) { InflateData(mat,z,buf.ui16,512*data_size); for ( j = 0; j < 512; j++ ) data[i+j] = buf.ui16[j]; } len = len-(i-512); InflateData(mat,z,buf.ui16,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = buf.ui16[j]; } } break; } case MAT_T_UINT8: { data_size = sizeof(mat_uint8_t); if ( len <= 1024 ) { InflateData(mat,z,buf.ui8,len*data_size); for ( i = 0; i < len; i++ ) data[i] = buf.ui8[i]; } else { int j; len -= 1024; for ( i = 0; i < len; i+=1024 ) { InflateData(mat,z,buf.ui8,1024*data_size); for ( j = 0; j < 1024; j++ ) data[i+j] = buf.ui8[j]; } len = len-(i-1024); InflateData(mat,z,buf.ui8,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = buf.ui8[j]; } break; } case MAT_T_INT8: { data_size = sizeof(mat_int8_t); if ( len <= 1024 ) { InflateData(mat,z,buf.i8,len*data_size); for ( i = 0; i < len; i++ ) data[i] = buf.i8[i]; } else { int j; len -= 1024; for ( i = 0; i < len; i+=1024 ) { InflateData(mat,z,buf.i8,1024*data_size); for ( j = 0; j < 1024; j++ ) data[i+j] = buf.i8[j]; } len = len-(i-1024); InflateData(mat,z,buf.i8,len*data_size); for ( j = 0; j < len; j++ ) data[i+j] = buf.i8[j]; } break; } } nBytes = len*data_size; return nBytes; } #endif /** @brief Reads data of type @c data_type into a float type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as float's in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output float values (len*sizeof(float)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadSingleData(mat_t *mat,float *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into a float type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as float's in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output float values (len*sizeof(float)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedSingleData(mat_t *mat,z_stream *z,float *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (z == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,data+i,data_size); } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = ui16; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui8,data_size); data[i] = ui8; } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i8,data_size); data[i] = i8; } break; } } nBytes = len*data_size; return nBytes; } #endif #ifdef HAVE_MAT_INT64_T /** @brief Reads data of type @c data_type into a signed 64-bit integer type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as signed 64-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output signed 64-bit integer values * (len*sizeof(mat_int64_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadInt64Data(mat_t *mat,mat_int64_t *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT64: { mat_int64_t i64; data_size = sizeof(mat_int64_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i64,data_size,1,mat->fp); data[i] = Mat_int64Swap(&i64); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i64,data_size,1,mat->fp); data[i] = i64; } } break; } case MAT_T_UINT64: { mat_uint64_t ui64; data_size = sizeof(mat_uint64_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui64,data_size,1,mat->fp); data[i] = Mat_uint64Swap(&ui64); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui64,data_size,1,mat->fp); data[i] = ui64; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into a signed 64-bit integer type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as signed 64-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output signed 64-bit integer values * (len*sizeof(mat_int64_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedInt64Data(mat_t *mat,z_stream *z,mat_int64_t *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (z == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = f; } } break; } case MAT_T_INT64: { mat_int64_t i64; data_size = sizeof(mat_int64_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i64,data_size); data[i] = Mat_int64Swap(&i64); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i64,data_size); data[i] = i64; } } break; } case MAT_T_UINT64: { mat_uint64_t ui64; data_size = sizeof(mat_uint64_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui64,data_size); data[i] = Mat_uint64Swap(&ui64); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui64,data_size); data[i] = ui64; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = ui16; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui8,data_size); data[i] = ui8; } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i8,data_size); data[i] = i8; } break; } } nBytes = len*data_size; return nBytes; } #endif #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T /** @brief Reads data of type @c data_type into an unsigned 64-bit integer type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as unsigned 64-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output unsigned 64-bit integer values * (len*sizeof(mat_uint64_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadUInt64Data(mat_t *mat,mat_uint64_t *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT64: { mat_int64_t i64; data_size = sizeof(mat_int64_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i64,data_size,1,mat->fp); data[i] = Mat_int64Swap(&i64); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i64,data_size,1,mat->fp); data[i] = i64; } } break; } case MAT_T_UINT64: { mat_uint64_t ui64; data_size = sizeof(mat_uint64_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui64,data_size,1,mat->fp); data[i] = Mat_uint64Swap(&ui64); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui64,data_size,1,mat->fp); data[i] = ui64; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into an unsigned 64-bit integer type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as unsigned 64-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output unsigned 64-bit integer values * (len*sizeof(mat_uint64_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedUInt64Data(mat_t *mat,z_stream *z,mat_uint64_t *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (z == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = f; } } break; } case MAT_T_INT64: { mat_int64_t i64; data_size = sizeof(mat_int64_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i64,data_size); data[i] = Mat_int64Swap(&i64); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i64,data_size); data[i] = i64; } } break; } case MAT_T_UINT64: { mat_uint64_t ui64; data_size = sizeof(mat_uint64_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui64,data_size); data[i] = Mat_uint64Swap(&ui64); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui64,data_size); data[i] = ui64; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = ui16; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui8,data_size); data[i] = ui8; } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i8,data_size); data[i] = i8; } break; } } nBytes = len*data_size; return nBytes; } #endif /* HAVE_ZLIB */ #endif /* HAVE_MAT_UINT64_T */ /** @brief Reads data of type @c data_type into a signed 32-bit integer type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as signed 32-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output signed 32-bit integer values * (len*sizeof(mat_int32_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadInt32Data(mat_t *mat,mat_int32_t *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into a signed 32-bit integer type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as signed 32-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output signed 32-bit integer values * (len*sizeof(mat_int32_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedInt32Data(mat_t *mat,z_stream *z,mat_int32_t *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (z == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = ui16; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui8,data_size); data[i] = ui8; } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i8,data_size); data[i] = i8; } break; } } nBytes = len*data_size; return nBytes; } #endif /** @brief Reads data of type @c data_type into an unsigned 32-bit integer type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as unsigned 32-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output unsigned 32-bit integer values * (len*sizeof(mat_uint32_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadUInt32Data(mat_t *mat,mat_uint32_t *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into an unsigned 32-bit integer type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as unsigned 32-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output unsigned 32-bit integer values * (len*sizeof(mat_uint32_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedUInt32Data(mat_t *mat,z_stream *z,mat_uint32_t *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (z == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = ui16; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui8,data_size); data[i] = ui8; } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i8,data_size); data[i] = i8; } break; } } nBytes = len*data_size; return nBytes; } #endif /** @brief Reads data of type @c data_type into a signed 16-bit integer type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as signed 16-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output signed 16-bit integer values * (len*sizeof(mat_int16_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadInt16Data(mat_t *mat,mat_int16_t *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into a signed 16-bit integer type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as signed 16-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output signed 16-bit integer values * (len*sizeof(mat_int16_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedInt16Data(mat_t *mat,z_stream *z,mat_int16_t *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (z == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = ui16; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui8,data_size); data[i] = ui8; } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i8,data_size); data[i] = i8; } break; } } nBytes = len*data_size; return nBytes; } #endif /** @brief Reads data of type @c data_type into an unsigned 16-bit integer type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as unsigned 16-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output unsigned 16-bit integer values * (len*sizeof(mat_uint16_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadUInt16Data(mat_t *mat,mat_uint16_t *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into an unsigned 16-bit integer type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as unsigned 16-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output n unsigned 16-bit integer values * (len*sizeof(mat_uint16_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedUInt16Data(mat_t *mat,z_stream *z,mat_uint16_t *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (z == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = ui16; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui8,data_size); data[i] = ui8; } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i8,data_size); data[i] = i8; } break; } } nBytes = len*data_size; return nBytes; } #endif /** @brief Reads data of type @c data_type into a signed 8-bit integer type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as signed 8-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output signed 8-bit integer values * (len*sizeof(mat_int8_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadInt8Data(mat_t *mat,mat_int8_t *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into a signed 8-bit integer type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as signed 8-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output signed 8-bit integer values * (len*sizeof(mat_int8_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedInt8Data(mat_t *mat,z_stream *z,mat_int8_t *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (z == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = ui16; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui8,data_size); data[i] = ui8; } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i8,data_size); data[i] = i8; } break; } } nBytes = len*data_size; return nBytes; } #endif /** @brief Reads data of type @c data_type into an unsigned 8-bit integer type * * Reads from the MAT file @c len elements of data type @c data_type storing * them as unsigned 8-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output unsigned 8-bit integer values * (len*sizeof(mat_uint8_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadUInt8Data(mat_t *mat,mat_uint8_t *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&d,data_size,1,mat->fp); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&f,data_size,1,mat->fp); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i32,data_size,1,mat->fp); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui32,data_size,1,mat->fp); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,data_size,1,mat->fp); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui16,data_size,1,mat->fp); data[i] = ui16; } } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i8,data_size,1,mat->fp); data[i] = i8; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&ui8,data_size,1,mat->fp); data[i] = ui8; } } break; } } bytesread *= data_size; return bytesread; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into an unsigned 8-bit integer type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as unsigned 8-bit integers in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output 8-bit integer values * (len*sizeof(mat_uint8_t)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedUInt8Data(mat_t *mat,z_stream *z,mat_uint8_t *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (z == NULL) ) return 0; switch ( data_type ) { case MAT_T_DOUBLE: { double d; data_size = sizeof(double); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = Mat_doubleSwap(&d); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&d,data_size); data[i] = d; } } break; } case MAT_T_SINGLE: { float f; data_size = sizeof(float); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = Mat_floatSwap(&f); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&f,data_size); data[i] = f; } } break; } case MAT_T_INT32: { mat_int32_t i32; data_size = sizeof(mat_int32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = Mat_int32Swap(&i32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i32,data_size); data[i] = i32; } } break; } case MAT_T_UINT32: { mat_uint32_t ui32; data_size = sizeof(mat_uint32_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = Mat_uint32Swap(&ui32); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui32,data_size); data[i] = ui32; } } break; } case MAT_T_INT16: { mat_int16_t i16; data_size = sizeof(mat_int16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_int16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } case MAT_T_UINT16: { mat_uint16_t ui16; data_size = sizeof(mat_uint16_t); if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = Mat_uint16Swap(&ui16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui16,data_size); data[i] = ui16; } } break; } case MAT_T_UINT8: { mat_uint8_t ui8; data_size = sizeof(mat_uint8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&ui8,data_size); data[i] = ui8; } break; } case MAT_T_INT8: { mat_int8_t i8; data_size = sizeof(mat_int8_t); for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i8,data_size); data[i] = i8; } break; } } nBytes = len*data_size; return nBytes; } #endif #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type into a char type * * Reads from the MAT file @c len compressed elements of data type @c data_type * storing them as char's in @c data. * @ingroup mat_internal * @param mat MAT file pointer * @param z Pointer to the zlib stream for inflation * @param data Pointer to store the output char values (len*sizeof(char)) * @param data_type one of the @c matio_types enumerations which is the source * data type in the file * @param len Number of elements of type @c data_type to read from the file * @retval Number of bytes read from the file */ int ReadCompressedCharData(mat_t *mat,z_stream *z,char *data, enum matio_types data_type,int len) { int nBytes = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_UTF8: data_size = 1; for ( i = 0; i < len; i++ ) InflateData(mat,z,data+i,data_size); break; case MAT_T_INT8: case MAT_T_UINT8: data_size = 1; for ( i = 0; i < len; i++ ) InflateData(mat,z,data+i,data_size); break; case MAT_T_INT16: case MAT_T_UINT16: { mat_uint16_t i16; data_size = 2; if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = Mat_uint16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { InflateData(mat,z,&i16,data_size); data[i] = i16; } } break; } default: printf("Character data not supported type: %d",data_type); break; } nBytes = len*data_size; return nBytes; } #endif int ReadCharData(mat_t *mat,char *data,enum matio_types data_type,int len) { int bytesread = 0, data_size = 0, i; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; switch ( data_type ) { case MAT_T_UTF8: for ( i = 0; i < len; i++ ) bytesread += fread(data+i,1,1,mat->fp); break; case MAT_T_INT8: case MAT_T_UINT8: for ( i = 0; i < len; i++ ) bytesread += fread(data+i,1,1,mat->fp); break; case MAT_T_INT16: case MAT_T_UINT16: { mat_uint16_t i16; if ( mat->byteswap ) { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,2,1,mat->fp); data[i] = Mat_uint16Swap(&i16); } } else { for ( i = 0; i < len; i++ ) { bytesread += fread(&i16,2,1,mat->fp); data[i] = i16; } } break; } default: printf("Character data not supported type: %d",data_type); break; } bytesread *= data_size; return bytesread; } /* *------------------------------------------------------------------- * Routines to read "slabs" of data *------------------------------------------------------------------- */ /** @brief Reads data of type @c data_type by user-defined dimensions * * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output data * @param class_type Type of data class (matio_classes enumerations) * @param data_type Datatype of the stored data (matio_types enumerations) * @param rank Number of dimensions in the data * @param dims Dimensions of the data * @param start Index to start reading data in each dimension * @param stride Read every @c stride elements in each dimension * @param edge Number of elements to read in each dimension * @retval Number of bytes read from the file, or -1 on error */ int ReadDataSlabN(mat_t *mat,void *data,enum matio_classes class_type, enum matio_types data_type,int rank,size_t *dims,int *start,int *stride, int *edge) { int nBytes = 0, i, j, N, I = 0; int inc[10] = {0,}, cnt[10] = {0,}, dimp[10] = {0,}; size_t data_size; int (*read_data_func)(mat_t *mat,void *data,enum matio_types data_type, int len) = NULL; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) || (start == NULL) || (stride == NULL) || (edge == NULL) ) { return -1; } else if ( rank > 10 ) { return -1; } data_size = Mat_SizeOf(data_type); switch ( class_type ) { case MAT_C_DOUBLE: { double *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadDoubleData(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadDoubleData(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } case MAT_C_SINGLE: { float *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadSingleData(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadSingleData(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: { mat_int64_t *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadInt64Data(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadInt64Data(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: { mat_uint64_t *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadUInt64Data(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadUInt64Data(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } #endif /* HAVE_MAT_UINT64_T */ case MAT_C_INT32: { mat_int32_t *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadInt32Data(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadInt32Data(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } case MAT_C_UINT32: { mat_uint32_t *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadUInt32Data(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadUInt32Data(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } case MAT_C_INT16: { mat_int16_t *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadInt16Data(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadInt16Data(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } case MAT_C_UINT16: { mat_uint16_t *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadUInt16Data(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadUInt16Data(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } case MAT_C_INT8: { mat_int8_t *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadInt8Data(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadInt8Data(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } case MAT_C_UINT8: { mat_uint8_t *ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; /* start[0]; */ for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } fseek(mat->fp,I*data_size,SEEK_CUR); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } ReadUInt8Data(mat,ptr+i,data_type,edge[0]); I += dims[0]-start[0]; fseek(mat->fp,data_size*(dims[0]-edge[0]-start[0]), SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j])+ dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { fseek(mat->fp,start[0]*data_size,SEEK_CUR); I += start[0]; } for ( j = 0; j < edge[0]; j++ ) { ReadUInt8Data(mat,ptr+i+j,data_type,1); fseek(mat->fp,data_size*(stride[0]-1),SEEK_CUR); I += stride[0]; } I += dims[0]-edge[0]*stride[0]-start[0]; fseek(mat->fp,data_size* (dims[0]-edge[0]*stride[0]-start[0]),SEEK_CUR); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { fseek(mat->fp,data_size* (dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]),SEEK_CUR); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { fseek(mat->fp,data_size*(dimp[j-1]*start[j]), SEEK_CUR); I += dimp[j-1]*start[j]; } } else { I += inc[j]; fseek(mat->fp,data_size*inc[j],SEEK_CUR); break; } } } } break; } default: nBytes = 0; } return nBytes; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type by user-defined dimensions * * @ingroup mat_internal * @param mat MAT file pointer * @param z zlib compression stream * @param data Pointer to store the output data * @param class_type Type of data class (matio_classes enumerations) * @param data_type Datatype of the stored data (matio_types enumerations) * @param rank Number of dimensions in the data * @param dims Dimensions of the data * @param start Index to start reading data in each dimension * @param stride Read every @c stride elements in each dimension * @param edge Number of elements to read in each dimension * @retval Number of bytes read from the file, or -1 on error */ int ReadCompressedDataSlabN(mat_t *mat,z_stream *z,void *data, enum matio_classes class_type,enum matio_types data_type,int rank, size_t *dims,int *start,int *stride,int *edge) { int nBytes = 0, i, j, N, I = 0; int inc[10] = {0,}, cnt[10] = {0,}, dimp[10] = {0,}; z_stream z_copy = {0,}; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) || (start == NULL) || (stride == NULL) || (edge == NULL) ) { return 1; } else if ( rank > 10 ) { return 1; } i = inflateCopy(&z_copy,z); switch ( class_type ) { case MAT_C_DOUBLE: { double *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedDoubleData(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedDoubleData(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedDoubleData(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { #if 0 I += dims[0]-edge[0]*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type, dims[0]-edge[0]*stride[0]-start[0]); #endif if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } case MAT_C_SINGLE: { float *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedSingleData(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedSingleData(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedSingleData(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: { mat_int64_t *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedInt64Data(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedInt64Data(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedInt64Data(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_INT64_T case MAT_C_UINT64: { mat_uint64_t *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedUInt64Data(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedUInt64Data(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedUInt64Data(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } #endif /* HAVE_MAT_UINT64_T */ case MAT_C_INT32: { mat_int32_t *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedInt32Data(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedInt32Data(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedInt32Data(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } case MAT_C_UINT32: { mat_uint32_t *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedUInt32Data(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedUInt32Data(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedUInt32Data(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } case MAT_C_INT16: { mat_int16_t *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedInt16Data(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedInt16Data(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedInt16Data(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } case MAT_C_UINT16: { mat_uint16_t *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedUInt16Data(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedUInt16Data(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedUInt16Data(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } case MAT_C_INT8: { mat_int8_t *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedInt8Data(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedInt8Data(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedInt8Data(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } case MAT_C_UINT8: { mat_uint8_t *ptr; ptr = data; inc[0] = stride[0]-1; dimp[0] = dims[0]; N = edge[0]; I = 0; for ( i = 1; i < rank; i++ ) { inc[i] = stride[i]-1; dimp[i] = dims[i-1]; for ( j = i ; j--; ) { inc[i] *= dims[j]; dimp[i] *= dims[j+1]; } N *= edge[i]; I += dimp[i-1]*start[i]; } /* Skip all data to the starting indeces */ InflateSkipData(mat,&z_copy,data_type,I); if ( stride[0] == 1 ) { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } ReadCompressedUInt8Data(mat,&z_copy,ptr+i,data_type,edge[0]); InflateSkipData(mat,&z_copy,data_type,dims[0]-start[0]-edge[0]); I += dims[0]-start[0]; for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } else { for ( i = 0; i < N; i+=edge[0] ) { if ( start[0] ) { InflateSkipData(mat,&z_copy,data_type,start[0]); I += start[0]; } for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedUInt8Data(mat,&z_copy,ptr+i+j,data_type,1); InflateSkipData(mat,&z_copy,data_type,(stride[0]-1)); I += stride[0]; } ReadCompressedUInt8Data(mat,&z_copy,ptr+i+j,data_type,1); I += dims[0]-(edge[0]-1)*stride[0]-start[0]; InflateSkipData(mat,&z_copy,data_type,dims[0]-(edge[0]-1)*stride[0]-start[0]-1); for ( j = 1; j < rank; j++ ) { cnt[j]++; if ( (cnt[j] % edge[j]) == 0 ) { cnt[j] = 0; if ( (I % dimp[j]) != 0 ) { InflateSkipData(mat,&z_copy,data_type, dimp[j]-(I % dimp[j])+dimp[j-1]*start[j]); I += dimp[j]-(I % dimp[j]) + dimp[j-1]*start[j]; } else if ( start[j] ) { InflateSkipData(mat,&z_copy,data_type, dimp[j-1]*start[j]); I += dimp[j-1]*start[j]; } } else { if ( inc[j] ) { I += inc[j]; InflateSkipData(mat,&z_copy,data_type,inc[j]); } break; } } } } break; } default: nBytes = 0; } inflateEnd(&z_copy); return nBytes; } #endif /** @brief Reads data of type @c data_type by user-defined dimensions for 1-D * data * * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output data * @param class_type Type of data class (matio_classes enumerations) * @param data_type Datatype of the stored data (matio_types enumerations) * @param start Index to start reading data * @param stride Read every @c stride elements * @param edge Number of elements to read * @return Number of bytes read from the file */ int ReadDataSlab1(mat_t *mat,void *data,enum matio_classes class_type, enum matio_types data_type,int start,int stride,int edge) { int i; size_t data_size; int bytesread = 0; data_size = Mat_SizeOf(data_type); fseek(mat->fp,start*data_size,SEEK_CUR); stride = data_size*(stride-1); switch(class_type) { case MAT_C_DOUBLE: if ( !stride ) { bytesread+=ReadDoubleData(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadDoubleData(mat,(double*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; case MAT_C_SINGLE: if ( !stride ) { bytesread+=ReadSingleData(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadSingleData(mat,(float*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: if ( !stride ) { bytesread+=ReadInt64Data(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadInt64Data(mat,(mat_int64_t*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: if ( !stride ) { bytesread+=ReadUInt64Data(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadUInt64Data(mat,(mat_uint64_t*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; #endif /* HAVE_MAT_UINT64_T */ case MAT_C_INT32: if ( !stride ) { bytesread+=ReadInt32Data(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadInt32Data(mat,(mat_int32_t*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; case MAT_C_UINT32: if ( !stride ) { bytesread+=ReadUInt32Data(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadUInt32Data(mat,(mat_uint32_t*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; case MAT_C_INT16: if ( !stride ) { bytesread+=ReadInt16Data(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadInt16Data(mat,(mat_int16_t*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; case MAT_C_UINT16: if ( !stride ) { bytesread+=ReadUInt16Data(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadUInt16Data(mat,(mat_uint16_t*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; case MAT_C_INT8: if ( !stride ) { bytesread+=ReadInt8Data(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadInt8Data(mat,(mat_int8_t*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; case MAT_C_UINT8: if ( !stride ) { bytesread+=ReadUInt8Data(mat,data,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { bytesread+=ReadUInt8Data(mat,(mat_uint8_t*)data+i,data_type,1); fseek(mat->fp,stride,SEEK_CUR); } } break; } return bytesread; } /** @brief Reads data of type @c data_type by user-defined dimensions for 2-D * data * * @ingroup mat_internal * @param mat MAT file pointer * @param data Pointer to store the output data * @param class_type Type of data class (matio_classes enumerations) * @param data_type Datatype of the stored data (matio_types enumerations) * @param dims Dimensions of the data * @param start Index to start reading data in each dimension * @param stride Read every @c stride elements in each dimension * @param edge Number of elements to read in each dimension * @retval Number of bytes read from the file, or -1 on error */ int ReadDataSlab2(mat_t *mat,void *data,enum matio_classes class_type, enum matio_types data_type,size_t *dims,int *start,int *stride,int *edge) { int nBytes = 0, data_size, i, j; long pos, row_stride, col_stride; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) || (start == NULL) || (stride == NULL) || (edge == NULL) ) { return 0; } data_size = Mat_SizeOf(data_type); switch ( class_type ) { case MAT_C_DOUBLE: { double *ptr; ptr = (double *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadDoubleData(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_C_SINGLE: { float *ptr; ptr = (float *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadSingleData(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: { mat_int64_t *ptr; ptr = (mat_int64_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadInt64Data(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: { mat_uint64_t *ptr; ptr = (mat_uint64_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadUInt64Data(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } #endif /* HAVE_MAT_UINT64_T */ case MAT_C_INT32: { mat_int32_t *ptr; ptr = (mat_int32_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadInt32Data(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_C_UINT32: { mat_uint32_t *ptr; ptr = (mat_uint32_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadUInt32Data(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_C_INT16: { mat_int16_t *ptr; ptr = (mat_int16_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadInt16Data(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_C_UINT16: { mat_uint16_t *ptr; ptr = (mat_uint16_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadUInt16Data(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_C_INT8: { mat_int8_t *ptr; ptr = (mat_int8_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadInt8Data(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } case MAT_C_UINT8: { mat_uint8_t *ptr; ptr = (mat_uint8_t *)data; row_stride = (stride[0]-1)*data_size; col_stride = stride[1]*dims[0]*data_size; pos = ftell(mat->fp); fseek(mat->fp,start[1]*dims[0]*data_size,SEEK_CUR); for ( i = 0; i < edge[1]; i++ ) { pos = ftell(mat->fp); fseek(mat->fp,start[0]*data_size,SEEK_CUR); for ( j = 0; j < edge[0]; j++ ) { ReadUInt8Data(mat,ptr++,data_type,1); fseek(mat->fp,row_stride,SEEK_CUR); } pos = pos+col_stride-ftell(mat->fp); fseek(mat->fp,pos,SEEK_CUR); } break; } default: nBytes = 0; } return nBytes; } #if defined(HAVE_ZLIB) /** @brief Reads data of type @c data_type by user-defined dimensions for 1-D * data * * @ingroup mat_internal * @param mat MAT file pointer * @param z zlib compression stream * @param data Pointer to store the output data * @param class_type Type of data class (matio_classes enumerations) * @param data_type Datatype of the stored data (matio_types enumerations) * @param dims Dimensions of the data * @param start Index to start reading data in each dimension * @param stride Read every @c stride elements in each dimension * @param edge Number of elements to read in each dimension * @retval Number of bytes read from the file, or -1 on error */ int ReadCompressedDataSlab1(mat_t *mat,z_stream *z,void *data, enum matio_classes class_type,enum matio_types data_type,int start, int stride,int edge) { int nBytes = 0, i, err; z_stream z_copy = {0,}; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) ) return 0; stride--; err = inflateCopy(&z_copy,z); InflateSkipData(mat,&z_copy,data_type,start); switch ( class_type ) { case MAT_C_DOUBLE: { double *ptr = data; if ( !stride ) { nBytes+=ReadCompressedDoubleData(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedDoubleData(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } case MAT_C_SINGLE: { float *ptr = data; if ( !stride ) { nBytes+=ReadCompressedSingleData(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedSingleData(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } #ifdef HAVE_MAT_INT64_T case MAT_C_INT64: { mat_int64_t *ptr = data; if ( !stride ) { nBytes+=ReadCompressedInt64Data(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedInt64Data(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: { mat_uint64_t *ptr = data; if ( !stride ) { nBytes+=ReadCompressedUInt64Data(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedUInt64Data(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } #endif /* HAVE_MAT_UINT64_T */ case MAT_C_INT32: { mat_int32_t *ptr = data; if ( !stride ) { nBytes+=ReadCompressedInt32Data(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedInt32Data(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } case MAT_C_UINT32: { mat_uint32_t *ptr = data; if ( !stride ) { nBytes+=ReadCompressedUInt32Data(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedUInt32Data(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } case MAT_C_INT16: { mat_int16_t *ptr = data; if ( !stride ) { nBytes+=ReadCompressedInt16Data(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedInt16Data(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } case MAT_C_UINT16: { mat_uint16_t *ptr = data; if ( !stride ) { nBytes+=ReadCompressedUInt16Data(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedUInt16Data(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } case MAT_C_INT8: { mat_int8_t *ptr = data; if ( !stride ) { nBytes+=ReadCompressedInt8Data(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedInt8Data(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } case MAT_C_UINT8: { mat_uint8_t *ptr = data; if ( !stride ) { nBytes+=ReadCompressedUInt8Data(mat,&z_copy,ptr,data_type,edge); } else { for ( i = 0; i < edge; i++ ) { nBytes+=ReadCompressedUInt8Data(mat,&z_copy,ptr+i,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride); } } break; } } inflateEnd(&z_copy); return nBytes; } /** @brief Reads data of type @c data_type by user-defined dimensions for 2-D * data * * @ingroup mat_internal * @param mat MAT file pointer * @param z zlib compression stream * @param data Pointer to store the output data * @param class_type Type of data class (matio_classes enumerations) * @param data_type Datatype of the stored data (matio_types enumerations) * @param dims Dimensions of the data * @param start Index to start reading data in each dimension * @param stride Read every @c stride elements in each dimension * @param edge Number of elements to read in each dimension * @retval Number of bytes read from the file, or -1 on error */ int ReadCompressedDataSlab2(mat_t *mat,z_stream *z,void *data, enum matio_classes class_type,enum matio_types data_type,size_t *dims, int *start,int *stride,int *edge) { int nBytes = 0, data_size, i, j, err; int pos, row_stride, col_stride; z_stream z_copy = {0,}; if ( (mat == NULL) || (data == NULL) || (mat->fp == NULL) || (start == NULL) || (stride == NULL) || (edge == NULL) ) { return 0; } err = inflateCopy(&z_copy,z); switch ( class_type ) { case MAT_C_DOUBLE: { double *ptr; data_size = sizeof(double); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); /* If stride[0] is 1 and stride[1] is 1, we are reading all of the * data so get rid of the loops. If stride[0] is 1 and stride[1] * is not 0, we are reading whole columns, so get rid of inner loop * to speed up the code */ #if 0 if ( (stride[0] == 1 && edge[0] == dims[0]) && (stride[1] == 1) ) { ReadCompressedDoubleData(mat,&z_copy,ptr,data_type, edge[0]*edge[1]); } else if ( stride[0] == 1 ) { for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); ReadCompressedDoubleData(mat,&z_copy,ptr,data_type,edge[0]); ptr += edge[0]; pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } } else { #endif for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedDoubleData(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedDoubleData(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } #if 0 } #endif break; } case MAT_C_SINGLE: { float *ptr; data_size = sizeof(float); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedSingleData(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedSingleData(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } #ifdef HAVE_MAT_UINT64_T case MAT_C_INT64: { mat_int64_t *ptr; data_size = sizeof(mat_int64_t); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedInt64Data(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedInt64Data(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } #endif /* HAVE_MAT_INT64_T */ #ifdef HAVE_MAT_UINT64_T case MAT_C_UINT64: { mat_uint64_t *ptr; data_size = sizeof(mat_uint64_t); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedUInt64Data(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedUInt64Data(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } #endif /* HAVE_MAT_UINT64_T */ case MAT_C_INT32: { mat_int32_t *ptr; data_size = sizeof(mat_int32_t); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedInt32Data(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedInt32Data(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } case MAT_C_UINT32: { mat_uint32_t *ptr; data_size = sizeof(mat_uint32_t); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedUInt32Data(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedUInt32Data(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } case MAT_C_INT16: { mat_int16_t *ptr; data_size = sizeof(mat_int16_t); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedInt16Data(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedInt16Data(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } case MAT_C_UINT16: { mat_uint16_t *ptr; data_size = sizeof(mat_uint16_t); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedUInt16Data(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedUInt16Data(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } case MAT_C_INT8: { mat_int8_t *ptr; data_size = sizeof(mat_int8_t); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedInt8Data(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedInt8Data(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } case MAT_C_UINT8: { mat_uint8_t *ptr; data_size = sizeof(mat_uint8_t); ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedUInt8Data(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedUInt8Data(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } case MAT_C_CHAR: { char *ptr; data_size = 1; ptr = data; row_stride = (stride[0]-1); col_stride = (stride[1]-1)*dims[0]; InflateSkipData(mat,&z_copy,data_type,start[1]*dims[0]); for ( i = 0; i < edge[1]; i++ ) { InflateSkipData(mat,&z_copy,data_type,start[0]); for ( j = 0; j < edge[0]-1; j++ ) { ReadCompressedCharData(mat,&z_copy,ptr++,data_type,1); InflateSkipData(mat,&z_copy,data_type,stride[0]-1); } ReadCompressedCharData(mat,&z_copy,ptr++,data_type,1); pos = dims[0]-(edge[0]-1)*stride[0]-1-start[0] + col_stride; InflateSkipData(mat,&z_copy,data_type,pos); } break; } default: nBytes = 0; } inflateEnd(&z_copy); return nBytes; } #endif /** @endcond */ PDL-IO-Matlab-release-0.005/matio-1.5.0/src/snprintf.c000066400000000000000000000723551206363665300216520ustar00rootroot00000000000000/* * Copyright Patrick Powell 1995 * This code is based on code written by Patrick Powell (papowell@astart.com) * It may be used for any purpose as long as this notice remains intact * on all source code distributions */ /*============================================================= * Original: * Patrick Powell Tue Apr 11 09:48:21 PDT 1995 * A bombproof version of doprnt (dopr) included. * Sigh. This sort of thing is always nasty do deal with. Note that * the version here does not include floating point... * * snprintf() is used instead of sprintf() as it does limit checks * for string length. This covers a nasty loophole. * * The other functions are there to prevent NULL pointers from * causing nast effects. * * More Recently: * Brandon Long 9/15/96 for mutt 0.43 * This was ugly. It is still ugly. I opted out of floating point * numbers, but the formatter understands just about everything * from the normal C string format, at least as far as I can tell from * the Solaris 2.5 printf(3S) man page. * * Brandon Long 10/22/97 for mutt 0.87.1 * Ok, added some minimal floating point support, which means this * probably requires libm on most operating systems. Don't yet * support the exponent (e,E) and sigfig (g,G). Also, fmtint() * was pretty badly broken, it just wasn't being exercised in ways * which showed it, so that's been fixed. Also, formated the code * to mutt conventions, and removed dead code left over from the * original. Also, there is now a builtin-test, just compile with: * gcc -DTEST_SNPRINTF -o snprintf snprintf.c -lm * and run snprintf for results. * * Thomas Roessler 01/27/98 for mutt 0.89i * The PGP code was using unsigned hexadecimal formats. * Unfortunately, unsigned formats simply didn't work. * * Michael Elkins 03/05/98 for mutt 0.90.8 * The original code assumed that both snprintf() and vsnprintf() were * missing. Some systems only have snprintf() but not vsnprintf(), so * the code is now broken down under HAVE_SNPRINTF and HAVE_VSNPRINTF. * * Andrew Tridgell (tridge@samba.org) Oct 1998 * fixed handling of %.0f * added test for HAVE_LONG_DOUBLE * * tridge@samba.org, idra@samba.org, April 2001 * got rid of fcvt code (twas buggy and made testing harder) * added C99 semantics * * date: 2002/12/19 19:56:31; author: herb; state: Exp; lines: +2 -0 * actually print args for %g and %e * * date: 2002/06/03 13:37:52; author: jmcd; state: Exp; lines: +8 -0 * Since includes.h isn't included here, VA_COPY has to be defined here. I don't * see any include file that is guaranteed to be here, so I'm defining it * locally. Fixes AIX and Solaris builds. * * date: 2002/06/03 03:07:24; author: tridge; state: Exp; lines: +5 -13 * put the ifdef for HAVE_VA_COPY in one place rather than in lots of * functions * * date: 2002/05/17 14:51:22; author: jmcd; state: Exp; lines: +21 -4 * Fix usage of va_list passed as an arg. Use __va_copy before using it * when it exists. * * date: 2002/04/16 22:38:04; author: idra; state: Exp; lines: +20 -14 * Fix incorrect zpadlen handling in fmtfp. * Thanks to Ollie Oldham for spotting it. * few mods to make it easier to compile the tests. * addedd the "Ollie" test to the floating point ones. * * Martin Pool (mbp@samba.org) April 2003 * Remove NO_CONFIG_H so that the test case can be built within a source * tree with less trouble. * Remove unnecessary SAFE_FREE() definition. * * Martin Pool (mbp@samba.org) May 2003 * Put in a prototype for dummy_snprintf() to quiet compiler warnings. * * Move #endif to make sure VA_COPY, LDOUBLE, etc are defined even * if the C library has some snprintf functions already. =============================================================*/ #include "matioConfig.h" #if defined(HAVE_STRING_H) || defined(STDC_HEADERS) #include #endif #if defined(HAVE_STRINGS_H) #include #endif #if defined(HAVE_CTYPE_H) || defined(STDC_HEADERS) #include #endif #include #include #if defined(HAVE_STDLIB_H) || defined(STDC_HEADERS) #include #endif #include #ifdef HAVE_LONG_DOUBLE #define LDOUBLE long double #else #define LDOUBLE double #endif #ifdef HAVE_LONG_LONG #define LLONG long long #else #define LLONG long #endif #ifndef VA_COPY #ifdef HAVE_VA_COPY #define VA_COPY(dest, src) va_copy(dest, src) #else #ifdef HAVE___VA_COPY #define VA_COPY(dest, src) __va_copy(dest, src) #else #define VA_COPY(dest, src) (dest) = (src) #endif #endif /* * dopr(): poor man's version of doprintf */ /* format read states */ #define DP_S_DEFAULT 0 #define DP_S_FLAGS 1 #define DP_S_MIN 2 #define DP_S_DOT 3 #define DP_S_MAX 4 #define DP_S_MOD 5 #define DP_S_CONV 6 #define DP_S_DONE 7 /* format flags - Bits */ #define DP_F_MINUS (1 << 0) #define DP_F_PLUS (1 << 1) #define DP_F_SPACE (1 << 2) #define DP_F_NUM (1 << 3) #define DP_F_ZERO (1 << 4) #define DP_F_UP (1 << 5) #define DP_F_UNSIGNED (1 << 6) /* Conversion Flags */ #define DP_C_SHORT 1 #define DP_C_LONG 2 #define DP_C_LDOUBLE 3 #define DP_C_LLONG 4 #define char_to_int(p) ((p)- '0') #ifndef MAX #define MAX(p,q) (((p) >= (q)) ? (p) : (q)) #endif /* yes this really must be a ||. Don't muck with this (tridge) */ #if !defined(HAVE_VSNPRINTF) || !defined(HAVE_C99_VSNPRINTF) static size_t dopr(char *buffer, size_t maxlen, const char *format, va_list args_in); static void fmtstr(char *buffer, size_t *currlen, size_t maxlen, char *value, int flags, int min, int max); static void fmtint(char *buffer, size_t *currlen, size_t maxlen, long value, int base, int min, int max, int flags); static void fmtfp(char *buffer, size_t *currlen, size_t maxlen, LDOUBLE fvalue, int min, int max, int flags); static void dopr_outch(char *buffer, size_t *currlen, size_t maxlen, char c); static size_t dopr(char *buffer, size_t maxlen, const char *format, va_list args_in) { char ch; LLONG value; LDOUBLE fvalue; char *strvalue; int min; int max; int state; int flags; int cflags; size_t currlen; va_list args; VA_COPY(args, args_in); state = DP_S_DEFAULT; currlen = flags = cflags = min = 0; max = -1; ch = *format++; while (state != DP_S_DONE) { if (ch == '\0') state = DP_S_DONE; switch(state) { case DP_S_DEFAULT: if (ch == '%') state = DP_S_FLAGS; else dopr_outch (buffer, &currlen, maxlen, ch); ch = *format++; break; case DP_S_FLAGS: switch (ch) { case '-': flags |= DP_F_MINUS; ch = *format++; break; case '+': flags |= DP_F_PLUS; ch = *format++; break; case ' ': flags |= DP_F_SPACE; ch = *format++; break; case '#': flags |= DP_F_NUM; ch = *format++; break; case '0': flags |= DP_F_ZERO; ch = *format++; break; default: state = DP_S_MIN; break; } break; case DP_S_MIN: if (isdigit((unsigned char)ch)) { min = 10*min + char_to_int (ch); ch = *format++; } else if (ch == '*') { min = va_arg (args, int); ch = *format++; state = DP_S_DOT; } else { state = DP_S_DOT; } break; case DP_S_DOT: if (ch == '.') { state = DP_S_MAX; ch = *format++; } else { state = DP_S_MOD; } break; case DP_S_MAX: if (isdigit((unsigned char)ch)) { if (max < 0) max = 0; max = 10*max + char_to_int (ch); ch = *format++; } else if (ch == '*') { max = va_arg (args, int); ch = *format++; state = DP_S_MOD; } else { state = DP_S_MOD; } break; case DP_S_MOD: switch (ch) { case 'h': cflags = DP_C_SHORT; ch = *format++; break; case 'l': cflags = DP_C_LONG; ch = *format++; if (ch == 'l') { /* It's a long long */ cflags = DP_C_LLONG; ch = *format++; } break; case 'L': cflags = DP_C_LDOUBLE; ch = *format++; break; default: break; } state = DP_S_CONV; break; case DP_S_CONV: switch (ch) { case 'd': case 'i': if (cflags == DP_C_SHORT) value = va_arg (args, int); else if (cflags == DP_C_LONG) value = va_arg (args, long int); else if (cflags == DP_C_LLONG) value = va_arg (args, LLONG); else value = va_arg (args, int); fmtint (buffer, &currlen, maxlen, value, 10, min, max, flags); break; case 'o': flags |= DP_F_UNSIGNED; if (cflags == DP_C_SHORT) value = va_arg (args, unsigned int); else if (cflags == DP_C_LONG) value = (long)va_arg (args, unsigned long int); else if (cflags == DP_C_LLONG) value = (long)va_arg (args, unsigned LLONG); else value = (long)va_arg (args, unsigned int); fmtint (buffer, &currlen, maxlen, value, 8, min, max, flags); break; case 'u': flags |= DP_F_UNSIGNED; if (cflags == DP_C_SHORT) value = va_arg (args, unsigned int); else if (cflags == DP_C_LONG) value = (long)va_arg (args, unsigned long int); else if (cflags == DP_C_LLONG) value = (LLONG)va_arg (args, unsigned LLONG); else value = (long)va_arg (args, unsigned int); fmtint (buffer, &currlen, maxlen, value, 10, min, max, flags); break; case 'X': flags |= DP_F_UP; case 'x': flags |= DP_F_UNSIGNED; if (cflags == DP_C_SHORT) value = va_arg (args, unsigned int); else if (cflags == DP_C_LONG) value = (long)va_arg (args, unsigned long int); else if (cflags == DP_C_LLONG) value = (LLONG)va_arg (args, unsigned LLONG); else value = (long)va_arg (args, unsigned int); fmtint (buffer, &currlen, maxlen, value, 16, min, max, flags); break; case 'f': if (cflags == DP_C_LDOUBLE) fvalue = va_arg (args, LDOUBLE); else fvalue = va_arg (args, double); /* um, floating point? */ fmtfp (buffer, &currlen, maxlen, fvalue, min, max, flags); break; case 'E': flags |= DP_F_UP; case 'e': if (cflags == DP_C_LDOUBLE) fvalue = va_arg (args, LDOUBLE); else fvalue = va_arg (args, double); fmtfp (buffer, &currlen, maxlen, fvalue, min, max, flags); break; case 'G': flags |= DP_F_UP; case 'g': if (cflags == DP_C_LDOUBLE) fvalue = va_arg (args, LDOUBLE); else fvalue = va_arg (args, double); fmtfp (buffer, &currlen, maxlen, fvalue, min, max, flags); break; case 'c': dopr_outch (buffer, &currlen, maxlen, va_arg (args, int)); break; case 's': strvalue = va_arg (args, char *); if (!strvalue) strvalue = "(NULL)"; if (max == -1) { max = strlen(strvalue); } if (min > 0 && max >= 0 && min > max) max = min; fmtstr (buffer, &currlen, maxlen, strvalue, flags, min, max); break; case 'p': strvalue = va_arg (args, void *); fmtint (buffer, &currlen, maxlen, (long) strvalue, 16, min, max, flags); break; case 'n': if (cflags == DP_C_SHORT) { short int *num; num = va_arg (args, short int *); *num = currlen; } else if (cflags == DP_C_LONG) { long int *num; num = va_arg (args, long int *); *num = (long int)currlen; } else if (cflags == DP_C_LLONG) { LLONG *num; num = va_arg (args, LLONG *); *num = (LLONG)currlen; } else { int *num; num = va_arg (args, int *); *num = currlen; } break; case '%': dopr_outch (buffer, &currlen, maxlen, ch); break; case 'w': /* not supported yet, treat as next char */ ch = *format++; break; default: /* Unknown, skip */ break; } ch = *format++; state = DP_S_DEFAULT; flags = cflags = min = 0; max = -1; break; case DP_S_DONE: break; default: /* hmm? */ break; /* some picky compilers need this */ } } if (maxlen != 0) { if (currlen < maxlen - 1) buffer[currlen] = '\0'; else if (maxlen > 0) buffer[maxlen - 1] = '\0'; } return currlen; } static void fmtstr(char *buffer, size_t *currlen, size_t maxlen, char *value, int flags, int min, int max) { int padlen, strln; /* amount to pad */ int cnt = 0; #ifdef DEBUG_SNPRINTF printf("fmtstr min=%d max=%d s=[%s]\n", min, max, value); #endif if (value == 0) { value = ""; } for (strln = 0; value[strln]; ++strln); /* strlen */ padlen = min - strln; if (padlen < 0) padlen = 0; if (flags & DP_F_MINUS) padlen = -padlen; /* Left Justify */ while ((padlen > 0) && (cnt < max)) { dopr_outch (buffer, currlen, maxlen, ' '); --padlen; ++cnt; } while (*value && (cnt < max)) { dopr_outch (buffer, currlen, maxlen, *value++); ++cnt; } while ((padlen < 0) && (cnt < max)) { dopr_outch (buffer, currlen, maxlen, ' '); ++padlen; ++cnt; } } /* Have to handle DP_F_NUM (ie 0x and 0 alternates) */ static void fmtint(char *buffer, size_t *currlen, size_t maxlen, long value, int base, int min, int max, int flags) { int signvalue = 0; unsigned long uvalue; char convert[20]; int place = 0; int spadlen = 0; /* amount to space pad */ int zpadlen = 0; /* amount to zero pad */ int caps = 0; if (max < 0) max = 0; uvalue = value; if(!(flags & DP_F_UNSIGNED)) { if( value < 0 ) { signvalue = '-'; uvalue = -value; } else { if (flags & DP_F_PLUS) /* Do a sign (+/i) */ signvalue = '+'; else if (flags & DP_F_SPACE) signvalue = ' '; } } if (flags & DP_F_UP) caps = 1; /* Should characters be upper case? */ do { convert[place++] = (caps? "0123456789ABCDEF":"0123456789abcdef") [uvalue % (unsigned)base ]; uvalue = (uvalue / (unsigned)base ); } while(uvalue && (place < 20)); if (place == 20) place--; convert[place] = 0; zpadlen = max - place; spadlen = min - MAX (max, place) - (signvalue ? 1 : 0); if (zpadlen < 0) zpadlen = 0; if (spadlen < 0) spadlen = 0; if (flags & DP_F_ZERO) { zpadlen = MAX(zpadlen, spadlen); spadlen = 0; } if (flags & DP_F_MINUS) spadlen = -spadlen; /* Left Justifty */ #ifdef DEBUG_SNPRINTF printf("zpad: %d, spad: %d, min: %d, max: %d, place: %d\n", zpadlen, spadlen, min, max, place); #endif /* Spaces */ while (spadlen > 0) { dopr_outch (buffer, currlen, maxlen, ' '); --spadlen; } /* Sign */ if (signvalue) dopr_outch (buffer, currlen, maxlen, signvalue); /* Zeros */ if (zpadlen > 0) { while (zpadlen > 0) { dopr_outch (buffer, currlen, maxlen, '0'); --zpadlen; } } /* Digits */ while (place > 0) dopr_outch (buffer, currlen, maxlen, convert[--place]); /* Left Justified spaces */ while (spadlen < 0) { dopr_outch (buffer, currlen, maxlen, ' '); ++spadlen; } } static LDOUBLE abs_val(LDOUBLE value) { LDOUBLE result = value; if (value < 0) result = -value; return result; } static LDOUBLE POW10(int exp) { LDOUBLE result = 1; while (exp) { result *= 10; exp--; } return result; } static LLONG ROUND(LDOUBLE value) { LLONG intpart; intpart = (LLONG)value; value = value - intpart; if (value >= 0.5) intpart++; return intpart; } /* a replacement for modf that doesn't need the math library. Should be portable, but slow */ static double my_modf(double x0, double *iptr) { int i; long l; double x = x0; double f = 1.0; for (i=0;i<100;i++) { l = (long)x; if (l <= (x+1) && l >= (x-1)) break; x *= 0.1; f *= 10.0; } if (i == 100) { /* yikes! the number is beyond what we can handle. What do we do? */ (*iptr) = 0; return 0; } if (i != 0) { double i2; double ret; ret = my_modf(x0-l*f, &i2); (*iptr) = l*f + i2; return ret; } (*iptr) = l; return x - (*iptr); } static void fmtfp (char *buffer, size_t *currlen, size_t maxlen, LDOUBLE fvalue, int min, int max, int flags) { int signvalue = 0; double ufvalue; char iconvert[311]; char fconvert[311]; int iplace = 0; int fplace = 0; int padlen = 0; /* amount to pad */ int zpadlen = 0; int caps = 0; int idx; double intpart; double fracpart; double temp; /* * AIX manpage says the default is 0, but Solaris says the default * is 6, and sprintf on AIX defaults to 6 */ if (max < 0) max = 6; ufvalue = abs_val (fvalue); if (fvalue < 0) { signvalue = '-'; } else { if (flags & DP_F_PLUS) { /* Do a sign (+/i) */ signvalue = '+'; } else { if (flags & DP_F_SPACE) signvalue = ' '; } } #if 0 if (flags & DP_F_UP) caps = 1; /* Should characters be upper case? */ #endif #if 0 if (max == 0) ufvalue += 0.5; /* if max = 0 we must round */ #endif /* * Sorry, we only support 16 digits past the decimal because of our * conversion method */ if (max > 16) max = 16; /* We "cheat" by converting the fractional part to integer by * multiplying by a factor of 10 */ temp = ufvalue; my_modf(temp, &intpart); fracpart = ROUND((POW10(max)) * (ufvalue - intpart)); if (fracpart >= POW10(max)) { intpart++; fracpart -= POW10(max); } /* Convert integer part */ do { temp = intpart*0.1; my_modf(temp, &intpart); idx = (int) ((temp -intpart +0.05)* 10.0); /* idx = (int) (((double)(temp*0.1) -intpart +0.05) *10.0); */ /* printf ("%llf, %f, %x\n", temp, intpart, idx); */ iconvert[iplace++] = (caps? "0123456789ABCDEF":"0123456789abcdef")[idx]; } while (intpart && (iplace < 311)); if (iplace == 311) iplace--; iconvert[iplace] = 0; /* Convert fractional part */ if (fracpart) { do { temp = fracpart*0.1; my_modf(temp, &fracpart); idx = (int) ((temp -fracpart +0.05)* 10.0); /* idx = (int) ((((temp/10) -fracpart) +0.05) *10); */ /* printf ("%lf, %lf, %ld\n", temp, fracpart, idx ); */ fconvert[fplace++] = (caps? "0123456789ABCDEF":"0123456789abcdef")[idx]; } while(fracpart && (fplace < 311)); if (fplace == 311) fplace--; } fconvert[fplace] = 0; /* -1 for decimal point, another -1 if we are printing a sign */ padlen = min - iplace - max - 1 - ((signvalue) ? 1 : 0); zpadlen = max - fplace; if (zpadlen < 0) zpadlen = 0; if (padlen < 0) padlen = 0; if (flags & DP_F_MINUS) padlen = -padlen; /* Left Justifty */ if ((flags & DP_F_ZERO) && (padlen > 0)) { if (signvalue) { dopr_outch (buffer, currlen, maxlen, signvalue); --padlen; signvalue = 0; } while (padlen > 0) { dopr_outch (buffer, currlen, maxlen, '0'); --padlen; } } while (padlen > 0) { dopr_outch (buffer, currlen, maxlen, ' '); --padlen; } if (signvalue) dopr_outch (buffer, currlen, maxlen, signvalue); while (iplace > 0) dopr_outch (buffer, currlen, maxlen, iconvert[--iplace]); #ifdef DEBUG_SNPRINTF printf("fmtfp: fplace=%d zpadlen=%d\n", fplace, zpadlen); #endif /* * Decimal point. This should probably use locale to find the correct * char to print out. */ if (max > 0) { dopr_outch (buffer, currlen, maxlen, '.'); while (zpadlen > 0) { dopr_outch (buffer, currlen, maxlen, '0'); --zpadlen; } while (fplace > 0) dopr_outch (buffer, currlen, maxlen, fconvert[--fplace]); } while (padlen < 0) { dopr_outch (buffer, currlen, maxlen, ' '); ++padlen; } } static void dopr_outch(char *buffer, size_t *currlen, size_t maxlen, char c) { if (*currlen < maxlen) { buffer[(*currlen)] = c; } (*currlen)++; } int mat_vsnprintf (char *str, size_t count, const char *fmt, va_list args) { return dopr(str, count, fmt, args); } #else int mat_vsnprintf (char *str, size_t count, const char *fmt, va_list args) { return vsnprintf(str, count, fmt, args); } #endif int mat_snprintf(char *str,size_t count,const char *fmt,...) { size_t ret; va_list ap; va_start(ap, fmt); ret = mat_vsnprintf(str, count, fmt, ap); va_end(ap); return ret; } #endif #ifndef HAVE_VASPRINTF int mat_vasprintf(char **ptr, const char *format, va_list ap) { int ret; va_list ap2; VA_COPY(ap2, ap); ret = mat_vsnprintf(NULL, 0, format, ap2); if (ret <= 0) return ret; (*ptr) = (char *)malloc(ret+1); if (!*ptr) return -1; VA_COPY(ap2, ap); ret = mat_vsnprintf(*ptr, ret+1, format, ap2); return ret; } #else int mat_vasprintf(char **ptr, const char *format, va_list ap) { return vasprintf(ptr,format,ap); } #endif int mat_asprintf(char **ptr, const char *format, ...) { va_list ap; int ret; *ptr = NULL; va_start(ap, format); ret = mat_vasprintf(ptr, format, ap); va_end(ap); return ret; } PDL-IO-Matlab-release-0.005/matio-1.5.0/test/000077500000000000000000000000001206363665300200175ustar00rootroot00000000000000PDL-IO-Matlab-release-0.005/matio-1.5.0/test/Makefile.in000066400000000000000000000475441206363665300221020ustar00rootroot00000000000000# Makefile.in generated by automake 1.11.4 from Makefile.am. # @configure_input@ # Copyright (C) 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, # 2003, 2004, 2005, 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Hulbert ## ## All rights reserved. ## ## Redistribution and use in source and binary forms, with or without ## modification, are permitted provided that the following conditions are met: ## ## 1. Redistributions of source code must retain the above copyright notice, ## this list of conditions and the following disclaimer. ## ## 2. Redistributions in binary form must reproduce the above copyright ## notice, this list of conditions and the following disclaimer in the ## documentation and/or other materials provided with the distribution. ## ## THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY EXPRESS ## OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ## OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO ## EVENT SHALL CHRISTOPHER C. 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Hulbert * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY CHRISTOPHER C. HULBERT ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CHRISTOPHER C. HULBERT OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include "matio_private.h" #if !defined(HAVE_STRCASECMP) # define strcasecmp(a,b) strcmp(a,b) #endif static const char *optstring = "df:hvHV"; static struct option options[] = { {"data", no_argument, NULL,'d'}, {"format", required_argument,NULL,'f'}, {"human", no_argument, NULL,'h'}, {"verbose", optional_argument,NULL,'v'}, {"help", no_argument, NULL,'H'}, {"version", no_argument, NULL,'V'}, {NULL,0,NULL,0} }; static const char *helpstr[] = { "", "Usage: matdump [OPTIONS] mat_file [var1 var2 ...]", "", "Runs various test on the Matlab I/O library libmatio", "", "OPTIONS", "-d,--data Print data with header information", "-h,--human Human readable sizes in 'whos' display mode", "-v,--verbose Turn on verbose messages", "-H,--help This output", "-V,--version version information", "", "mat_file name of the MAT file to dump", "var1 var2 ... If specified, dumps only listed variables", "", "Report bugs to .", NULL }; static char *byteswapping[2] = {"No","Yes"}; static char *mxclass[15] = { "mxCELL_CLASS", "mxSTRUCT_CLASS", "mxOBJECT_CLASS", "mxCHAR_CLASS", "mxSPARSE_CLASS", "mxDOUBLE_CLASS", "mxSINGLE_CLASS", "mxINT8_CLASS", "mxUINT8_CLASS", "mxINT16_CLASS", "mxUINT16_CLASS", "mxINT32_CLASS", "mxUINT32_CLASS","mxINT64_CLASS","mxUINT64_CLASS", }; static int printdata = 0; static int human_readable = 0; static int print_whos_first = 1; /* Print Functions */ static void print_whos(matvar_t *matvar); static void print_default(matvar_t *matvar); static void (*printfunc)(matvar_t *matvar) = NULL; static void print_whos(matvar_t *matvar) { int i; int nbytes; char size[32] = {'\0',}; if ( print_whos_first ) { printf("%-20s %-10s %-10s %-18s\n\n","Name","Size","Bytes","Class"); print_whos_first = 0; } printf("%-20s", matvar->name); if ( matvar->rank > 0 ) { int cnt = 0; printf("%8zu", matvar->dims[0]); nbytes = matvar->dims[0]; for ( i = 1; i < matvar->rank; i++ ) { if ( ceil(log10(matvar->dims[i]))+1 < 32 ) cnt += sprintf(size+cnt,"x%zu", matvar->dims[i]); nbytes *= matvar->dims[i]; } printf("%-10s",size); nbytes *= Mat_SizeOfClass(matvar->class_type); } else { printf(" "); } if ( human_readable ) { if ( nbytes > 1073741824L ) printf(" %10.1fG",(double)nbytes/1073741824.0); else if ( nbytes > 1048576 ) printf(" %10.1fM",(double)nbytes/1048576.0); else if ( nbytes > 1024 ) printf(" %10.1fK",(double)nbytes/1024.0); else printf(" %10dB",nbytes); } else { printf(" %10d",nbytes); } printf(" %-18s\n",mxclass[matvar->class_type-1]); return; } static int indent = 0; static void default_printf_func(int log_level,char *message) { int i; for ( i = 0; i < indent; i++ ) printf(" "); printf("%s\n",message); } static void print_default(matvar_t *matvar) { if ( NULL == matvar ) return; switch ( matvar->class_type ) { case MAT_C_DOUBLE: case MAT_C_SINGLE: case MAT_C_INT64: case MAT_C_UINT64: case MAT_C_INT32: case MAT_C_UINT32: case MAT_C_INT16: case MAT_C_UINT16: case MAT_C_INT8: case MAT_C_UINT8: case MAT_C_CHAR: case MAT_C_SPARSE: Mat_VarPrint(matvar, printdata); break; case MAT_C_STRUCT: { matvar_t **fields = (matvar_t **)matvar->data; int nfields; int i; size_t nmemb; if ( matvar->name ) Mat_Message(" Name: %s", matvar->name); Mat_Message(" Rank: %d", matvar->rank); if ( matvar->rank == 0 ) return; Mat_Message("Class Type: Structure"); nfields = Mat_VarGetNumberOfFields(matvar); nmemb = matvar->dims[0]; for ( i = 1; i < matvar->rank; i++ ) nmemb *= matvar->dims[i]; if ( nfields > 0 && nmemb < 1 ) { char * const *fieldnames = Mat_VarGetStructFieldnames(matvar); Mat_Message("Fields[%d] {", nfields); indent++; for ( i = 0; i < nfields; i++ ) Mat_Message(" Name: %s", matvar->name); indent--; Mat_Message("}"); } else if ( nfields > 0 && nmemb > 0 ) { Mat_Message("Fields[%d] {", nfields); indent++; for ( i = 0; i < nfields*nmemb; i++ ) print_default(fields[i]); indent--; Mat_Message("}"); } break; } case MAT_C_CELL: { matvar_t **cells = (matvar_t **)matvar->data; size_t ncells; int i; if ( matvar->name ) Mat_Message(" Name: %s", matvar->name); Mat_Message(" Rank: %d", matvar->rank); if ( matvar->rank == 0 ) return; ncells = matvar->dims[0]; for ( i = 1; i < matvar->rank; i++ ) ncells *= matvar->dims[i]; Mat_Message("Class Type: Cell Array"); Mat_Message("{"); indent++; for ( i = 0; i < ncells; i++ ) print_default(cells[i]); indent--; Mat_Message("}"); break; } default: Mat_Message("Empty"); } } int main (int argc, char *argv[]) { char *prog_name = "matdump"; int i, k, c, err = EXIT_SUCCESS; mat_t *mat; matvar_t *matvar; int version[3]; Mat_GetLibraryVersion(version, version+1, version+2); if ( MATIO_MAJOR_VERSION != version[0] || MATIO_MINOR_VERSION != version[1] || MATIO_RELEASE_LEVEL != version[2] ) { fprintf(stderr,"matio version in header does not match runtime " "version\n"); return EXIT_FAILURE; } Mat_LogInitFunc(prog_name,default_printf_func); printfunc = print_default; while ((c = getopt_long(argc,argv,optstring,options,NULL)) != EOF) { switch (c) { case 'd': printdata = 1; Mat_VerbMessage(1,"Printing data\n"); break; case 'f': if ( NULL != optarg && !strcmp(optarg,"whos") ) { printfunc = print_whos; break; } Mat_Warning("%s is not a recognized output format. " "Using default\n", optarg); break; case 'h': human_readable = 1; break; case 'v': Mat_SetVerbose(1,0); break; case 'H': Mat_Help(helpstr); exit(EXIT_SUCCESS); case 'V': printf("%s %s\nWritten by Christopher Hulbert\n\n" "Copyright(C) 2006-2012 Christopher C. Hulbert\n", prog_name,PACKAGE_VERSION); exit(EXIT_SUCCESS); default: printf("%c not a valid option\n", c); break; } } if ( (argc-optind) < 1 ) Mat_Error("Must specify at least one argument"); mat = Mat_Open( argv[optind],MAT_ACC_RDONLY ); if ( NULL == mat ) { Mat_Error("Error opening %s\n", argv[optind]); return EXIT_FAILURE; } optind++; if ( optind < argc ) { /* variables specified on the command line */ if ( printdata ) { for ( i = optind; i < argc; i++ ) { matvar = Mat_VarRead(mat,argv[i]); if ( matvar ) { (*printfunc)(matvar); Mat_VarFree(matvar); matvar = NULL; } else { Mat_Warning("Couldn't find variable %s in the MAT file", argv[i]); } } } else { for ( i = optind; i < argc; i++ ) { matvar = Mat_VarReadInfo(mat,argv[i]); if ( matvar ) { (*printfunc)(matvar); Mat_VarFree(matvar); matvar = NULL; } else { Mat_Warning("Couldn't find variable %s in the MAT file", argv[i]); } } } } else { /* print all variables */ if ( printdata ) { while ( (matvar = Mat_VarReadNext(mat)) != NULL ) { (*printfunc)(matvar); Mat_VarFree(matvar); matvar = NULL; } } else { while ( (matvar = Mat_VarReadNextInfo(mat)) != NULL ) { (*printfunc)(matvar); Mat_VarFree(matvar); matvar = NULL; } } } Mat_Close(mat); Mat_LogClose(); return err; } PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/000077500000000000000000000000001206363665300217325ustar00rootroot00000000000000PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/._matio.def000066400000000000000000000002521206363665300237370ustar00rootroot00000000000000Mac OS X  2xATTRcom.apple.quarantineq/0001;00000000;;PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/._matioConfig.h000066400000000000000000000002521206363665300245560ustar00rootroot00000000000000Mac OS X  2xATTRcom.apple.quarantineq/0001;00000000;;PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/._matio_pubconf.h000066400000000000000000000002521206363665300251440ustar00rootroot00000000000000Mac OS X  2xATTRcom.apple.quarantineq/0001;00000000;;PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/libmatio/000077500000000000000000000000001206363665300235325ustar00rootroot00000000000000PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/libmatio/libmatio.vcproj000066400000000000000000000231621206363665300265630ustar00rootroot00000000000000 PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/matdump/000077500000000000000000000000001206363665300234015ustar00rootroot00000000000000PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/matdump/matdump.vcproj000066400000000000000000000175271206363665300263110ustar00rootroot00000000000000 PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/matio.def000066400000000000000000000022101206363665300235160ustar00rootroot00000000000000EXPORTS Mat_GetLibraryVersion Mat_SetVerbose Mat_SetDebug Mat_Critical Mat_Error Mat_Help Mat_LogInit Mat_LogClose Mat_LogInitFunc Mat_Message Mat_DebugMessage Mat_VerbMessage Mat_Warning Mat_SizeOf Mat_SizeOfClass Mat_CreateVer Mat_Close Mat_Open Mat_GetFilename Mat_GetVersion Mat_Rewind Mat_VarCalloc Mat_VarCreate Mat_VarCreateStruct Mat_VarDelete Mat_VarDuplicate Mat_VarFree Mat_VarGetCell Mat_VarGetCells Mat_VarGetCellsLinear Mat_VarGetSize Mat_VarGetNumberOfFields Mat_VarAddStructField Mat_VarGetStructFieldByIndex Mat_VarGetStructFieldByName Mat_VarGetStructField Mat_VarGetStructFieldnames Mat_VarGetStructs Mat_VarGetStructsLinear Mat_VarPrint Mat_VarRead Mat_VarReadData Mat_VarReadDataAll Mat_VarReadDataLinear Mat_VarReadInfo Mat_VarReadNext Mat_VarReadNextInfo Mat_VarSetCell Mat_VarSetStructFieldByIndex Mat_VarSetStructFieldByName Mat_VarWrite Mat_VarWriteInfo Mat_VarWriteData Mat_CalcSingleSubscript Mat_CalcSubscripts PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/matio.sln000066400000000000000000000054741206363665300235730ustar00rootroot00000000000000 Microsoft Visual Studio Solution File, Format Version 10.00 # Visual Studio 2008 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "libmatio", "libmatio\libmatio.vcproj", "{67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}" EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "matdump", "matdump\matdump.vcproj", "{F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}" ProjectSection(ProjectDependencies) = postProject {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655} = {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655} EndProjectSection EndProject Global GlobalSection(SolutionConfigurationPlatforms) = preSolution Debug|Pocket PC 2003 (ARMV4) = Debug|Pocket PC 2003 (ARMV4) Debug|Win32 = Debug|Win32 Debug|x64 = Debug|x64 Release|Pocket PC 2003 (ARMV4) = Release|Pocket PC 2003 (ARMV4) Release|Win32 = Release|Win32 Release|x64 = Release|x64 EndGlobalSection GlobalSection(ProjectConfigurationPlatforms) = postSolution {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Debug|Pocket PC 2003 (ARMV4).ActiveCfg = Debug|x64 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Debug|Pocket PC 2003 (ARMV4).Build.0 = Debug|x64 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Debug|Win32.ActiveCfg = Release|Win32 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Debug|Win32.Build.0 = Release|Win32 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Debug|x64.ActiveCfg = Debug|x64 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Debug|x64.Build.0 = Debug|x64 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Release|Pocket PC 2003 (ARMV4).ActiveCfg = Release|x64 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Release|Win32.ActiveCfg = Release|Win32 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Release|Win32.Build.0 = Release|Win32 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Release|x64.ActiveCfg = Release|x64 {67AB1DE2-B06E-4DC1-AEBB-CB1E8E593655}.Release|x64.Build.0 = Release|x64 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Debug|Pocket PC 2003 (ARMV4).ActiveCfg = Debug|x64 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Debug|Pocket PC 2003 (ARMV4).Build.0 = Debug|x64 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Debug|Pocket PC 2003 (ARMV4).Deploy.0 = Debug|x64 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Debug|Win32.ActiveCfg = Release|Win32 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Debug|Win32.Build.0 = Release|Win32 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Debug|x64.ActiveCfg = Debug|x64 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Debug|x64.Build.0 = Debug|x64 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Release|Pocket PC 2003 (ARMV4).ActiveCfg = Release|x64 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Release|Win32.ActiveCfg = Release|Win32 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Release|Win32.Build.0 = Release|Win32 {F85AD892-CF1E-47B7-BC7D-ED00BCA859C0}.Release|x64.ActiveCfg = Release|Win32 EndGlobalSection GlobalSection(SolutionProperties) = preSolution HideSolutionNode = FALSE EndGlobalSection EndGlobal PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/matioConfig.h000066400000000000000000000100471206363665300243440ustar00rootroot00000000000000/* Debug enabled */ #undef DEBUG /* Extended sparse matrix data types */ #define EXTENDED_SPARSE 1 /* Define to dummy `main' function (if any) required to link to the Fortran libraries. */ #undef FC_DUMMY_MAIN /* Define if F77 and FC dummy `main' functions are identical. */ #undef FC_DUMMY_MAIN_EQ_F77 /* Define to a macro mangling the given C identifier (in lower and upper case), which must not contain underscores, for linking with Fortran. */ #undef FC_FUNC /* As FC_FUNC, but for C identifiers containing underscores. */ #undef FC_FUNC_ /* Have asprintf */ #undef HAVE_ASPRINTF /* Define to 1 if you have the header file. */ #undef HAVE_DLFCN_H /* Define to 1 if you have the header file. */ #undef HAVE_GETOPT_H /* Define to 1 if you have the `getopt_long_only' function. */ #undef HAVE_GETOPT_LONG_ONLY /* Define to 1 if you have the `m' library (-lm). */ #undef HAVE_LIBM /* Have MAT int16 */ #define HAVE_MAT_INT16_T 1 /* Have MAT int32 */ #define HAVE_MAT_INT32_T 1 /* Have MAT int64 */ #define HAVE_MAT_INT64_T 1 /* Have MAT int8 */ #define HAVE_MAT_INT8_T 1 /* Have MAT int16 */ #define HAVE_MAT_UINT16_T 1 /* Have MAT int32 */ #define HAVE_MAT_UINT32_T 1 /* Have MAT int64 */ #define HAVE_MAT_UINT64_T 1 /* Have MAT int8 */ #define HAVE_MAT_UINT8_T 1 /* Define to 1 if you have the header file. */ #define HAVE_MEMORY_H 1 /* Have snprintf */ #undef HAVE_SNPRINTF /* Define to 1 if you have the header file. */ #define HAVE_STDLIB_H 1 /* Define to 1 if you have the header file. */ #undef HAVE_STRINGS_H /* Define to 1 if you have the header file. */ #define HAVE_STRING_H 1 /* Define to 1 if you have the header file. */ #undef HAVE_SYS_STAT_H /* Define to 1 if you have the header file. */ #undef HAVE_SYS_TYPES_H /* Define to 1 if you have the header file. */ #undef HAVE_UNISTD_H /* Have vasprintf */ #undef HAVE_VASPRINTF /* Have va_copy */ #undef HAVE_VA_COPY /* Have vsnprintf */ #undef HAVE_VSNPRINTF /* Have va_copy */ #undef HAVE___VA_COPY /* OS is Linux */ #undef LINUX /* Define to the sub-directory in which libtool stores uninstalled libraries. */ #undef LT_OBJDIR /* Platform */ #if defined(_WIN32) # define MATIO_PLATFORM "i686-pc-windows" #elif defined(_WIN64) # define MATIO_PLATFORM "x86_64-pc-windows" #endif /* Debug disabled */ #undef NODEBUG /* Name of package */ #define PACKAGE "matio" /* Define to the address where bug reports for this package should be sent. */ #define PACKAGE_BUGREPORT "chulbe2lsu@users.sourceforge.net" /* Define to the full name of this package. */ #define PACKAGE_NAME "MATIO" /* Define to the full name and version of this package. */ #define PACKAGE_STRING "MATIO 1.5.0" /* Define to the one symbol short name of this package. */ #define PACKAGE_TARNAME "matio" /* Define to the home page for this package. */ #define PACKAGE_URL "http://sourceforge.net/projects/matio" /* Define to the version of this package. */ #define PACKAGE_VERSION "1.5.0" /* The size of `char', as computed by sizeof. */ #define SIZEOF_CHAR 1 /* The size of `double', as computed by sizeof. */ #define SIZEOF_DOUBLE 8 /* The size of `float', as computed by sizeof. */ #define SIZEOF_FLOAT 4 /* The size of `int', as computed by sizeof. */ #define SIZEOF_INT 4 /* The size of `long', as computed by sizeof. */ #define SIZEOF_LONG 4 /* The size of `long long', as computed by sizeof. */ #define SIZEOF_LONG_LONG 8 /* The size of `short', as computed by sizeof. */ #define SIZEOF_SHORT 2 #if defined(_WIN32) /* The size of `void *', as computed by sizeof. */ # define SIZEOF_VOID_P 4 /* The size of `size_t', as computed by sizeof. */ # define SIZEOF_SIZE_T 4 #elif defined(_WIN64) /* The size of `void *', as computed by sizeof. */ # define SIZEOF_VOID_P 8 /* The size of `size_t', as computed by sizeof. */ # define SIZEOF_SIZE_T 8 #endif /* Define to 1 if you have the ANSI C header files. */ #undef STDC_HEADERS /* Version number of package */ #define VERSION "1.5.0" /* Z prefix */ #undef Z_PREFIX PDL-IO-Matlab-release-0.005/matio-1.5.0/visual_studio/matio_pubconf.h000066400000000000000000000045601206363665300247350ustar00rootroot00000000000000/* * Copyright (C) 2010-2012 Christopher C. Hulbert * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #ifndef MATIO_PUBCONF_H #define MATIO_PUBCONF_H 1 /* Matio major version number */ #define MATIO_MAJOR_VERSION 1 /* Matio minor version number */ #define MATIO_MINOR_VERSION 5 /* Matio release level number */ #define MATIO_RELEASE_LEVEL 0 /* Matio version number */ #define MATIO_VERSION 150 /* Default file format */ #define MAT_FT_DEFAULT MAT_FT_MAT5 /* Define to 1 if you have the header file. */ #undef MATIO_HAVE_STDINT_H /* Define to 1 if you have the header file. */ #undef MATIO_HAVE_INTTYPES_H /* int16 type */ #define _mat_int16_t short /* int32 type */ #define _mat_int32_t int /* int64 type */ #define _mat_int64_t long long /* int8 type */ #define _mat_int8_t signed char /* int16 type */ #define _mat_uint16_t unsigned short /* int32 type */ #define _mat_uint32_t unsigned /* int64 type */ #define _mat_uint64_t unsigned long long /* int8 type */ #define _mat_uint8_t unsigned char #if MATIO_HAVE_INTTYPES_H # include #endif #if MATIO_HAVE_STDINT_H # include #endif #ifdef _mat_int64_t typedef _mat_int64_t mat_int64_t; #endif #ifdef _mat_uint64_t typedef _mat_uint64_t mat_uint64_t; #endif #ifdef _mat_int32_t typedef _mat_int32_t mat_int32_t; #endif #ifdef _mat_uint32_t typedef _mat_uint32_t mat_uint32_t; #endif #ifdef _mat_int16_t typedef _mat_int16_t mat_int16_t; #endif #ifdef _mat_uint16_t typedef _mat_uint16_t mat_uint16_t; #endif #ifdef _mat_int8_t typedef _mat_int8_t mat_int8_t; #endif #ifdef _mat_uint8_t typedef _mat_uint8_t mat_uint8_t; #endif #endif /* MATIO_PUBCONF_H */ PDL-IO-Matlab-release-0.005/matlab.pd000066400000000000000000000530031206363665300170560ustar00rootroot00000000000000##-*- Mode: Perl -*- use strict; use warnings; our $VERSION = '0.005'; pp_setversion("'$VERSION'"); my $Matio_src = 'matio-1.5.0/src'; # This works nicely, but I am not using it for anything my ($MAT_FT_MAT73,$MAT_FT_MAT5,$MAT_FT_MAT4) = (0,1,2); my %Enums; sub make_enum_hash { open my $fh, '<', "$Matio_src/matio.h" or die "Can't open matio.h"; my $in_enum = 0; my $enum_name; while(<$fh>) { if ($in_enum) { if ( /\}/ ) { $in_enum = 0; next; } next unless /^\s+(\w+)\s*=\s*([x\d]+)/; my ($name,$val) = ($1,$2); $Enums{$enum_name}->{$name} = $val =~/x/ ? hex($val) : $val; } if ( /^enum\s+(\w+)/ ) { $enum_name = $1; $in_enum = 1; $Enums{$enum_name} = {}; next; } } close $fh; } make_enum_hash(); pp_addpm({At=>'Top'}, <<'EO_TOPMATTER'); =head1 NAME PDL::IO::Matlab -- Read and write Matlab format data files. =head1 DESCRIPTION This module provides routines to read and write pdls to and from data files in Matlab formats. The module uses the matio C library. Both functional and OO interface are provided. Only real, multi-dimensional arrays corresponding to PDL data types are supported. Compression is currently only supported when reading. See the section L for important information on potential problems when using this module. =head1 SYNOPSIS use PDL; use PDL::IO::Matlab qw( matlab_read matlab_write matlab_print_info); # write two pdls in matlab 5 format matlab_write('file.dat', $x, $y); # read an array of piddles # from file in matlab 4, 5, or 7.3 format. my @pdls = matlab_read('file.dat'); # write pdl in matlab 7.3 format. matlab_write('file.dat', 'MAT73', $x); matlab_print_info('file.dat'); =cut $PDL::onlinedoc->scan(__FILE__) if $PDL::onlinedoc; use strict; use warnings; use PDL::LiteF; use PDL::NiceSlice; use PDL::Options; use Data::Dumper; EO_TOPMATTER pp_addpm({At => 'Middle'}, <<'EO_MIDDLE'); my %Format_list = ( MAT73 => 0, MAT5 => 1, MAT4 => 2 ); my %Inv_format_list = ( 0 => 'MAT73', 1 => 'MAT5', 2 => 'MAT4' ); # non-OO functions =head1 FUNCTIONS The functional interface. =head2 B =head3 Usage Return all arrays in C<$filename> @pdls = matlab_read($filename); @pdls = matlab_read($filename, {OPTIONS}); Return first array in C<$filename> $x = matlab_read($filename); Do not automatically convert C<1xn> and C arrays to 1-d arrays. @pdls = matlab_read($filename, { onedr => 0 } ); Reads all data in the file C<$filename>. Formats 4, 5, and 7.3 are supported. Options are passed to L>. =cut sub matlab_read { my ($filename,$opts) = @_; my $mat = PDL::IO::Matlab->new($filename, '<', $opts || {}); my @res = $mat->read_all; $mat->close; wantarray ? @res : $res[0]; } =head2 B =head3 Usage matlab_write($filename,$x1,$x2,...); matlab_write($filename,$format,$x1,$x2,...); Automatically convert C element, 1-d piddles to C<1xn> matlab variables. matlab_write($filename,$x1,$x2,..., {onedw => 1} ); Automatically convert to C matlab variables. matlab_write($filename,$x1,$x2,..., {onedw => 2} ); Use zlib compression matlab_write($filename,$x1,$x2,..., {compress => 1} ); This method writes pdls C<$x1>, C<$x2>,.... If present, C<$format> must be either C<'MAT5'> or C<'MAT73'>. =cut sub matlab_write { my @strings; my @hashes; my @refs; while(@_) { my $v = shift; if ( ref($v) ) { if ( ref($v) eq 'HASH' ) { push @hashes, $v; } else { push @refs, $v; } } else { push @strings, $v; } } barf 'matlab_write: ' . scalar(@strings) . ' string arguments given. One or two expected.' if @strings < 1 or @strings > 2 ; my $filename = $strings[0]; my $format = $strings[1] || 'MAT5'; my $opth = { format => $format }; foreach (keys %{$hashes[0]}) { $opth->{$_} = $hashes[0]->{$_} } my $mat = PDL::IO::Matlab->new($filename, '>', $opth); $mat->write(@refs) if @refs; $mat->close; scalar(@refs); } =head2 B =head3 Usage # print names and dimensions of variables. matlab_print_info($filename); # also print a small amount of the data. matlab_print_info($filename, { data => 1 }); # This does the same thing. matlab_print_info($filename, data => 1 ); Print information about the contents of the matlab file C<$filename>, including the name, dimension and class type of the variables. =cut sub matlab_print_info { my $name = shift; my $mat = PDL::IO::Matlab->new($name, '<'); $mat->print_all_var_info(@_); $mat->close; } =head1 METHODS =head2 B =head3 Usage # open for writing $mat = PDL::IO::Matlab->new('file.dat', '>', {format => 'MAT5'}); # default format is MAT5 $mat = PDL::IO::Matlab->new('file.dat', '>'); # may use 'w' or '>' $mat = PDL::IO::Matlab->new('file.dat', 'w'); # supply header $mat = PDL::IO::Matlab->new('file.dat', '>', { header => 'some text'} ); # read-write with rw or <> $mat = PDL::IO::Matlab->new('file.dat', 'rw'); # open for reading $mat = PDL::IO::Matlab->new('file.dat', '<'); =head3 Options =over =item format Either C<'MAT5'> or C<'MAT73'>. =item compress Either C<1> for yes, or C<0> for no. =item header A header (a string) to write into the file. =item namekey A hash key that will be used to store the matlab name for a variable read from a file in the header of a piddle. The default value is 'NAME'. Thus, the name can be accessed via C<< $pdl->hdr->{NAME} >>. =item varbasew The base of the default matlab variable name that will be written in the matlab file along with each piddle. An integer will be appended to the base name. This integer is initialized to zero and is incremented after writing each variable. =back The option C enables zlib compression if the zlib library is available and if the data file format is C<'MAT5'>. =cut sub new { my $class = shift; my ($filename,$mode,$iopts) = @_; my $opt = new PDL::Options( { format => undef, header => undef, namekey => 'NAME', varbasew => 'variable', onedw => 1, onedr => 1, compress => 0 }); $iopts ||= {}; my $obj = $opt->options($iopts); my %exobj = ( filename => undef, mode => undef, handle => undef, wvarnum => 0, ); foreach (keys %exobj) { $obj->{$_} = $exobj{$_} }; bless $obj, $class; $obj->set_filename($filename) if $filename; if ( defined $mode ) { if ($mode eq 'r' or $mode eq '<') { $obj->set_mode('r'); } elsif ($mode eq 'w' or $mode eq '>') { $obj->set_mode('w'); } elsif ($mode eq 'rw' or $mode eq '<>') { $obj->set_mode('rw'); } else { barf "PDL::IO::Matlab::open unknown mode '$mode'"; } } elsif (defined $filename) { barf("PDL::IO::Matlab::new filename given, but no access mode."); } barf("PDL::IO::Matlab::new unknown file format") if defined $obj->{format} and not exists $Format_list{$obj->{format}}; $obj->open() if defined $filename; $obj; } # may want to keep track of state at some point, # an automatically close. sub DESTROY { my $self = shift; # $self->close; } sub open { my $self = shift; my $mode = $self->get_mode(); my $filename = $self->get_filename(); my $handle; if ( $mode eq 'r' ) { $handle = _mat_open_read($filename); } elsif ( $mode eq 'w' ) { $self->get_format || $self->set_format('MAT5'); my $header = $self->get_header(); my $header_flag = defined $header ? 1 : 0; $header = '' unless defined $header; $handle = _mat_create_ver( $filename, $header, $Format_list{$self->get_format}, $header_flag); } elsif ( $mode eq 'rw' ) { $handle = _mat_open_read_write($filename); } else { barf "PDL::IO::Matlab::open unknown mode '$mode'"; } barf "PDL::IO::Matlab::open Can't open '$filename' in mode $mode" unless $handle; $self->set_handle($handle); $self->get_format || $self->set_format($self->get_version); $self; } =head2 B =head3 Usage $mat->close; Close matlab file and free memory associated with C<$mat>. =cut sub close { my $self = shift; _mat_close($self->get_handle() ); $self; } =head2 B =head3 Usage my $x = $mat->read_next; print "End of file\n" unless ref($x); my ($err,$x) = $mat->read_next; print "End of file\n" if $err; Read one pdl from file associated with object C<$mat>. =cut sub read_next { my $self = shift; my ($pdl,$matlab_name) = _convert_next_matvar_to_pdl($self->get_handle, $self->get_onedr); my $err = ref($pdl) ? 0 : 1; $pdl->hdr->{$self->get_namekey} = $matlab_name if defined $matlab_name; return ($err,$pdl); } =head2 B =head3 Usage my @pdls = $mat->read_all; Read all remaining pdls from file associated with object C<$mat>. =cut sub read_all { my $self = shift; my @res; while(1) { my ($err,$pdl) = read_next($self); last if $err; push @res, $pdl; } @res; } =head2 B =head3 Usage $x2->hdr->{NAME} = 'variablename'; $mat->write($x1,$x2,...); $mat->write($x1,$x2,...,{OPTIONS}); Append pdls to open file associated with C<$mat>. If a piddle has a matlab name stored in the header it will be used as the matlab name written to the file with this piddle. The key is in C<< $pdl->{namekey} >>, with default value C<'NAME'>. If the name is not in the piddle's header, then a default value will be used. =head3 Options =over =item onedw If C is C<1> then a 1-d pdl of length n is written as a as an C pdl (a C<1xn> matlab variable). If C is C<2> then the output piddle is C<1xn> and the matlab variable C. If C is zero (the default), then the 1-d pdl is written as a 1-d piddle. In the last case, Octave will print an error and fail to read the variable. =item compress If C is C<1> then zlib compression is used, if the library is available and if the format is C<'MAT5'>. =back =cut sub _make_write_var_name { my $self = shift; my $varname = $self->get_varbasew . $self->get_wvarnum; $self->set_wvarnum($self->get_wvarnum + 1); $varname; } sub write { my $self = shift; my @pdls; my @hashes; while (@_) { my $arg = shift; if (ref($arg) eq 'HASH') { push @hashes, $arg; } else { push @pdls, $arg; } } # my %opts = parse( {onedw => 0 }, @hashes ? $hashes[0] : {} ); my $opts = @hashes ? $hashes[0] : {} ; my $onedw = exists $opts->{onedw} ? $opts->{onedw} : $self->get_onedw; $onedw = 1 if $onedw == 0 and $self->get_format eq 'MAT73'; # else crash my $compress = exists $opts->{compress} ? $opts->{compress} : $self->get_compress; foreach (@pdls) { my $name = exists $_->hdr->{$self->get_namekey} ? $_->hdr->{$self->get_namekey} : $self->_make_write_var_name; _write_pdl_to_matlab_file($self->get_handle,$_, $name, $onedw, $compress); } return $self; } =head2 B =head3 Usage $mat->rewind Reset pointer to the head of the file. =cut sub rewind { my $self = shift; _mat_rewind($self->get_handle); } =head2 B =head3 Usage $mat->get_filename Return name of file associated with C<$mat>. =cut =head2 B =head3 Usage $mat->get_format Return matlab data file format for file associated with C<$mat>. One of C<'MAT4'>, C<'MAT5'>, or C<'MAT73'>. =cut sub get_version { my $self = shift; my $val = _mat_get_version($self->get_handle); # print "val = $val\n"; $Inv_format_list{$val}; } =head2 B =head3 Usage $mat->print_all_var_info; # also print a small amount of data from each variable. $mat->print_all_var_info( data => 1 ); Print a summary of all data in the file associated with C<$mat> (starting from the next unread variable.) =cut sub print_all_var_info { my $self = shift; my $len = scalar(@_); my $user_options = {}; if ( $len == 1 ) { $user_options = $_[0]; } elsif ( $len > 1 ) { my %user_option_hash = @_; $user_options = \%user_option_hash; } my %opts = parse( {data => 0} , $user_options); my $printdata = $opts{data} ? 1 : 0; my $handle = $self->get_handle; _extra_matio_print_all_var_info($handle,$printdata); } EO_MIDDLE sub write_accessors { # !e means barf in get_property if property is not set. my @funcs = qw( handle!e mode!e filename!e format header varbasew!e onedw!e onedr!e namekey!e wvarnum!e compress!e); my $s = ''; my @accessors; my $errs; foreach (@funcs) { $errs = s/!e// ? "\n barf 'PDL::IO::Matlab::get_$_: $_ not defined.' unless defined \$self->{$_};" : ''; my $getter = "get_$_"; my $setter = "set_$_"; push @accessors, $getter; push @accessors, $setter; $s .= "\n sub $getter { my \$self = shift;$errs \$self->{$_}; } sub $setter { my \$self = shift; \$self->{$_} = shift; } " } $s .= " =head1 ACCESSOR METHODS The following are additional accessor methods for the matlab file objects PDL::IO::Matlab. " . join(' ',@accessors); " =cut "; $s; } pp_addpm({At => 'Middle'}, write_accessors() ); pp_addpm({At => 'Middle'}, <<'EO_MIDDLE_two'); =head1 CAVEATS =head2 complicating factors There are two complicating factors when using matlab files with PDL. First, matlab does not support one-dimensional vectors. Thus, a 1-d pdl must be represented as either a C<1 x n> of a C matlab variable. Second, matlab stores matrices in column-major order, while pdl stores them in row-major order. =over =item B You can write 1-d pdls to a file with this module. This module can then read the file. But, Octave will fail to read the file and print an error message. See L> for how this is handled. =item B Data written by Octave (PDL) will be read by PDL (Octave) with indices transposed. On the todo list is an option to physically or logically transpose the data on reading and writing. =item B With this module, you may write more than one variable, each with the same name, (the matlab name; not the pdl identifier, or variable, name), to a file in MAT5 format. This module is then able to read all pdls from this file. But, Octave, when reading this file, will overwrite all but the last occurrence of the variable with the last occurrence. See the method L>. Trying to write two pdls with the same matlab variable name in MAT73 format will cause an error. =back =head2 other missing features, bugs When trying to read an unsupported matlab data type from a file, this module will throw an error. Supporting other data types or optionally skipping them is on the todo list. Random access of variables in a file is on the todo list. The underlying B library supports this. This module is currently built with some hardcoded data from a PDL installation, that may contain platform-specific (linux) features. It may fail to build or function correctly when used on other platforms. =head1 AUTHOR John Lapeyre, C<< >> The matio library was written by Christopher C. Hulbert. =head1 LICENSE AND COPYRIGHT Copyright 2012 John Lapeyre. This program is free software; you can redistribute it and/or modify it under the terms of either: the GNU General Public License as published by the Free Software Foundation; or the Artistic License. See http://dev.perl.org/licenses/ for more information. The matio library included here is Copyright 2011 Christopher C. Hulbert. All rights reserved. See the file matio-1.5/COPYING in the source distribution of this module. =cut # broken #sub print_all_var_info_new { # my $self = shift; # my $handle = $self->get_handle; # _extra_matio_print_all_var_info($handle,1,10,10); #} ########################################################################### EO_MIDDLE_two pp_addhdr( qq{ #include #include #include "$Matio_src/matio.h" //#include "$Matio_src/matio_private.h" //#include "$Matio_src/mat5.h" //#include "$Matio_src/mat4.h" //#include "$Matio_src/mat73.h" //#include "mat_var_print.c" #include "extra_matio.c" #include "convert_matvar_pdl.c" }); pp_add_exported qw( matlab_read matlab_write matlab_print_info ); # The line MODULE = ... is also added by PP, so this # is redundant pp_addxs ( '', ' MODULE = PDL::IO::Matlab PACKAGE = PDL::IO::Matlab mat_t * _mat_open_read( filename ) char * filename CODE: RETVAL = Mat_Open(filename,MAT_ACC_RDONLY); OUTPUT: RETVAL mat_t * _mat_open_read_write( filename ) char * filename CODE: RETVAL = Mat_Open(filename,MAT_ACC_RDWR); OUTPUT: RETVAL int _mat_close( handle ) mat_t * handle CODE: /* always returns 0 */ RETVAL = Mat_Close(handle); OUTPUT: RETVAL '); pp_addxs ( '', " mat_t * _mat_create_ver( matname, hdr_str, mat_file_ver_in, header_flag) char * matname char * hdr_str int mat_file_ver_in int header_flag CODE: /* following should be written w/o conditionals ! */ enum mat_ft mat_file_ver; switch (mat_file_ver_in) { case $MAT_FT_MAT73: { mat_file_ver = MAT_FT_MAT73; break; } case $MAT_FT_MAT5: { mat_file_ver = MAT_FT_MAT5; break; } case $MAT_FT_MAT4: { barf(\"PDL::IO::Matlab::open Writing in format version MAT4 not supported.\"); } default: barf(\"PDL::IO::Matlab::open unknown file format.\"); } if (header_flag) RETVAL = Mat_CreateVer(matname, hdr_str, mat_file_ver); else RETVAL = Mat_CreateVer(matname, (void *) NULL, mat_file_ver); OUTPUT: RETVAL "); pp_addxs ( '', " int _mat_get_version(matfp) mat_t * matfp CODE: enum mat_ft mat_file_ver; int retval; mat_file_ver = Mat_GetVersion(matfp); /* fprintf(stderr, \"in C vers %d\", mat_file_ver); */ /* This could be done much more easily ! */ switch (mat_file_ver) { case MAT_FT_MAT73: { retval= $MAT_FT_MAT73; break; } case MAT_FT_MAT5: { retval= $MAT_FT_MAT5; break; } case MAT_FT_MAT4: { retval= $MAT_FT_MAT4; break; } default: { barf(\"PDL::IO::Matlab::get_version returned unknown version.\"); } } RETVAL = retval; OUTPUT: RETVAL "); pp_addxs( '', ' void _read_data_all (mat, matvar) mat_t * mat matvar_t * matvar CODE: Mat_VarReadDataAll(mat,matvar); void get_library_version() INIT: int major,minor,release; PPCODE: Mat_GetLibraryVersion(&major, &minor, &release); XPUSHs(sv_2mortal(newSVnv(major))); XPUSHs(sv_2mortal(newSVnv(minor))); XPUSHs(sv_2mortal(newSVnv(release))); int _mat_rewind(mat) mat_t * mat CODE: RETVAL = Mat_Rewind(mat); if (RETVAL == -1) barf("PDL::IO::Matlab::rewind Bad filehandle"); OUTPUT: RETVAL =pod int _my_mat_feof(mat) mat_t * mat CODE: RETVAL = feof(mat->fp); OUTPUT: RETVAL =cut '); pp_addxs ( '', ' =pod void _extra_matio_print_all_var_info_new (matfp,printdata,max_cols,max_rows) mat_t * matfp int printdata int max_cols int max_rows CODE: extra_matio_print_all_var_info (matfp,printdata,max_cols,max_rows); =cut void _extra_matio_print_all_var_info (matfp,printdata) mat_t * matfp int printdata CODE: extra_matio_print_all_var_info(matfp,printdata); =pod following was a PITA. This returns undef if the reading matvar failed. The library does not seem to provide any way to detect EOF. Important not to use fprintf in this XS code. Can cause segfault. =cut void _convert_next_matvar_to_pdl(matfp,onedr) mat_t * matfp int onedr PPCODE: pdl * retpdl; matvar_t * matvar; retpdl = convert_next_matvar_to_pdl(matfp, &matvar, onedr); SV * s = sv_newmortal(); SV * p = sv_newmortal(); if (retpdl != NULL) PDL->SetSV_PDL(p,retpdl); if (matvar != NULL) { sv_setpv(s, matvar->name); Mat_VarFree(matvar); } XPUSHs(p); XPUSHs(s); =pod old method pdl * disa_convert_next_matvar_to_pdl(matfp) mat_t * matfp CODE: pdl * retval; matvar_t * matvar; retval = convert_next_matvar_to_pdl(matfp, &matvar); Mat_VarFree(matvar); ST(0) = sv_newmortal(); if (retval != NULL) PDL->SetSV_PDL(ST(0),retval); =cut int _write_pdl_to_matlab_file (mat, piddle, varname, oned, compress) mat_t * mat pdl * piddle char * varname int oned int compress CODE: RETVAL = write_pdl_to_matlab_file (mat, piddle, varname, oned, compress); OUTPUT: RETVAL '); pp_done(); 1; # LocalWords: setversion Matio src Enums enum fh matio EO # LocalWords: addpm TOPMATTER Matlab pdls OO multi PDL qw # LocalWords: matlab pdl dat Inv filename wantarray rw eq # LocalWords: iopts undef wvarname wvarnum elsif ver cpan # LocalWords: matvar varname foreach printdata Lapeyre qq # LocalWords: jlapeyre Hulbert addhdr stdlib addxs RETVAL # LocalWords: ACC RDONLY RDWR matname hdr str CreateVer # LocalWords: matfp retval GetVersion fprintf stderr vers # LocalWords: VarReadDataAll INIT PPCODE XPUSHs sv feof # LocalWords: GetLibraryVersion newSVnv filehandle fp EOF # LocalWords: newmortal SetSV namekey varbasew exobj todo # LocalWords: hardcoded retpdl setpv VarFree disa PDL-IO-Matlab-release-0.005/matlab_test.pl000066400000000000000000000021331206363665300201230ustar00rootroot00000000000000#!/usr/bin/env perl use warnings; use strict; use PDL; use PDL::IO::Matlab; my $f1 = 'Rep_Carlo_90nm.mat'; my $mat1 = PDL::IO::Matlab->new($f1, '<'); print "Matlab file format of $f1 is " . $mat1->get_version . "\n"; $mat1->print_all_var_info( print_data => 1 ) ; $mat1->close; my $f2 = 'testf_mat73.mat'; my $mat2 = PDL::IO::Matlab->new($f2, '>', { header => 'This is the header' }); $mat2->close; $mat2 = PDL::IO::Matlab->new($f2, '<'); print "Matlab file format of $f2 is " . $mat2->get_version . "\n"; $mat2->close; my $f3 = 'testf_mat5.mat'; my $mat3 = PDL::IO::Matlab->new($f3, '>', {format => 'MAT5'}); $mat3->close; $mat3 = PDL::IO::Matlab->new($f3, '<'); print "Matlab file format of $f3 is " . $mat3->get_version . "\n"; $mat3->close; my $f4 = 'test_mat73a.mat'; my $mat4 = PDL::IO::Matlab->new($f4, '>', {format => 'MAT73'}); $mat4->close; $mat4 = PDL::IO::Matlab->new($f4, 'r'); print "Matlab file version of $f4 is " . $mat4->get_version . "\n"; print "Matlab file format of $f4 is " . $mat4->get_format . "\n"; $mat4->close; print join('.',PDL::IO::Matlab::get_library_version()), "\n"; 1; PDL-IO-Matlab-release-0.005/memory_leak.pl000066400000000000000000000005211206363665300201270ustar00rootroot00000000000000#!/usr/bin/env perl use warnings; use strict; use PDL; use PDL::IO::Matlab; use PDL::NiceSlice; # test for memory leak. foreach (0..1000) { my $f1 = 'Rep_Carlo_90nm.mat'; my $mat1 = PDL::IO::Matlab->new($f1, '<'); my $x = $mat1->read_next; # print $x->shape, "\n"; $mat1->close; } print "sleeping...\n"; sleep(100); PDL-IO-Matlab-release-0.005/t/000077500000000000000000000000001206363665300155335ustar00rootroot00000000000000PDL-IO-Matlab-release-0.005/t/00-load.t000066400000000000000000000002651206363665300170570ustar00rootroot00000000000000#!perl -T use Test::More tests => 1; BEGIN { use_ok( 'PDL::IO::Matlab' ) || print "Bail out!\n"; } diag( "Testing PDL::IO::Matlab $PDL::IO::Matlab::VERSION, Perl $], $^X" ); PDL-IO-Matlab-release-0.005/t/1-matlab.t000066400000000000000000000037521206363665300173250ustar00rootroot00000000000000#!perl use strict; use warnings; use Test::More tests => 17; use PDL; use PDL::IO::Matlab qw ( matlab_read matlab_write ); sub tapprox { my($x,$y, $eps) = @_; $eps ||= 1e-10; my $diff = abs($x-$y)->sum; return $diff < $eps; } my @vers = (1,5,0); ok( @vers == (my @res = PDL::IO::Matlab::get_library_version), 'library version' ); my ($x,$y); # Write one pdl my $f = 'testf.mat'; my $mat = PDL::IO::Matlab->new($f, '>', {format => 'MAT5'}); ok( $mat != 0 , 'file opened for write'); $mat->write(sequence(10)); $mat->close(); # Read the pdl $mat = PDL::IO::Matlab->new($f, '<'); ok($mat != 0 , 'file opened for read'); ok($mat->get_version eq 'MAT5', 'file format MAT5'); $x = $mat->read_next; $mat->close(); ok(tapprox($x,sequence(10)), 'read data same as write data'); $mat = PDL::IO::Matlab->new($f, '>', {format => 'MAT5'}); my @types = ( double, float, long, byte, short, ushort ); map { $mat->write(sequence($_,10)) } @types; $mat->close; $mat = PDL::IO::Matlab->new($f, '<'); while(1) { my ($err,$x) = $mat->read_next; last if $err; # last unless ref($x); # this works as well my $type = shift @types; ok($x->type == $type, "trying type $type "); } $mat->close; $mat = PDL::IO::Matlab->new($f, '<'); my @pdls = $mat->read_all; ok( scalar(@pdls) == 6 , 'read_all'); $mat->rewind; @pdls = $mat->read_all; ok( scalar(@pdls) == 6 , 'rewind'); $mat->close; matlab_write('tst.mat',zeroes(10),ones(5)); ($x,$y) = matlab_read('tst.mat'); ok( (tapprox($x,zeroes(10)) and tapprox($y,ones(5))), 'matlab_read matlab_write'); matlab_write('tst.mat', 'MAT73', zeroes(10)); ($x) = matlab_read('tst.mat'); ok( tapprox($x,zeroes(10)), 'matlab_read matlab_write, MAT73'); matlab_write('tst.mat', sequence(5)); $x = matlab_read('tst.mat', {onedr => 0} ); ok( tapprox($x->shape, pdl [5, 1]), 'onedr => 0'); matlab_write('tst.mat', sequence(5), {onedw => 2} ); $x = matlab_read('tst.mat', {onedr => 0} ); ok( tapprox($x->shape, pdl [1, 5]), 'onedr => 0 , onedw => 2'); done_testing(); PDL-IO-Matlab-release-0.005/t/manifest.t000066400000000000000000000004201206363665300175220ustar00rootroot00000000000000#!perl -T use strict; use warnings; use Test::More; unless ( $ENV{RELEASE_TESTING} ) { plan( skip_all => "Author tests not required for installation" ); } eval "use Test::CheckManifest 0.9"; plan skip_all => "Test::CheckManifest 0.9 required" if $@; ok_manifest(); PDL-IO-Matlab-release-0.005/t/pod-coverage.t000066400000000000000000000010471206363665300202750ustar00rootroot00000000000000use strict; use warnings; use Test::More; # Ensure a recent version of Test::Pod::Coverage my $min_tpc = 1.08; eval "use Test::Pod::Coverage $min_tpc"; plan skip_all => "Test::Pod::Coverage $min_tpc required for testing POD coverage" if $@; # Test::Pod::Coverage doesn't require a minimum Pod::Coverage version, # but older versions don't recognize some common documentation styles my $min_pc = 0.18; eval "use Pod::Coverage $min_pc"; plan skip_all => "Pod::Coverage $min_pc required for testing POD coverage" if $@; all_pod_coverage_ok(); PDL-IO-Matlab-release-0.005/t/pod.t000066400000000000000000000003501206363665300165000ustar00rootroot00000000000000#!perl -T use strict; use warnings; use Test::More; # Ensure a recent version of Test::Pod my $min_tp = 1.22; eval "use Test::Pod $min_tp"; plan skip_all => "Test::Pod $min_tp required for testing POD" if $@; all_pod_files_ok(); PDL-IO-Matlab-release-0.005/typemap000066400000000000000000000000401206363665300166640ustar00rootroot00000000000000mat_t * T_PTR matvar_t * T_PTR