# Copyright (C) 2001-2012 Yves Renard # # This file is a part of GETFEM++ # # Getfem++ 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 3 of the License, or # (at your option) any later version along with the GCC Runtime Library # Exception either version 3.1 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 Lesser General Public # License and GCC Runtime Library Exception for more details. # You should have received a copy of the GNU Lesser General Public License # along with this program; if not, write to the Free Software Foundation, # Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. eval 'exec perl -S $0 "$@"' if 0; sub numerique { $a <=> $b; } $nb_iter = 1; # number of iterations on each test $islocal = 0; $with_qd = 0; # test also with dd_real and qd_real $with_lapack = 0; # link with lapack $srcdir = $ENV{srcdir}; # source directory $tests_to_be_done = ""; $fix_base_type = -1; while(@ARGV) { # read optional parameters $param = $ARGV[0]; $val = int(1 * $param); if ($param =~ /.cc/) { $tests_to_be_done = $param; } elsif ($param eq "with-qd") { $with_qd = 1; } elsif ($param eq "with-lapack") { $with_lapack = 1; } elsif ($param eq "float") { $fix_base_type = 0; } elsif ($param eq "double") { $fix_base_type = 1; } elsif ($param eq "complex_float") { $fix_base_type = 2; } elsif ($param eq "complex_double") { $fix_base_type = 3; } elsif ($param eq "dd_real") { $fix_base_type = 0; $with_qd = 1; } elsif ($param eq "qd_real") { $fix_base_type = 1; $with_qd = 1; } elsif ($param eq "complex_dd_real") { $fix_base_type = 2; $with_qd = 1; } elsif ($param eq "complex_qd_real") { $fix_base_type = 3; $with_qd = 1; } elsif ($param =~ "srcdir=") { ($param, $srcdir)=split('=', $param, 2); } elsif ($val != 0) { $nb_iter = $val; } else { print "Unrecognized parameter: $param\n"; print "valid parameters are:\n"; print ". the number of iterations on each test\n"; print ". with-qd : test also with dd_real and qd_real\n"; print ". with-lapack : link with lapack\n"; print ". double, float, complex_double or complex_float"; print " to fix the base type\n"; print ". source name of a test procedure\n"; print ". srcdir=name\n"; exit(1); } shift @ARGV; } if ($srcdir eq "") { $srcdir="../../tests"; print "WARNING : no srcdir, taking $srcdir\n"; $islocal = 1; } if ($tests_to_be_done eq "") { $tests_to_be_done = `ls $srcdir/gmm_torture*.cc`; # list of tests } if ($with_qd && $with_lapack) { print "Options with_qd and with_lapack are not compatible\n"; exit(1); } $nb_test = 0; # number of test procedures $tests_list = $tests_to_be_done; while ($tests_list) { ($org_name, $tests_list) = split('\s', $tests_list, 2); ++$nb_test; } print "Gmm tests : Making $nb_iter execution"; if ($nb_iter > 1) { print "s"; } if ($nb_test == 1) { print " of $tests_to_be_done\n"; } else { print " of each test\n"; } for ($iter = 1; $iter <= $nb_iter; ++$iter) { $tests_list = $tests_to_be_done; while ($tests_list) { ($org_name, $tests_list) = split('\s', $tests_list, 2); if ($nb_iter == 1) { print "Testing $org_name"; } else { print "Test $iter for $org_name"; } if ($with_lapack) { print " linked with lapack"; } if ($with_qd) { print " with qd types"; } print "\n"; $d = $org_name; do { ($b, $d) = split('/', $d, 2); } while ($d); $dest_name = "auto_$b"; ($root_name, $d) = split('.cc', $dest_name, 2); $size_max = 30.0; open(DATAF, $org_name) or die "Open input file impossible : $!\n"; open(TMPF, ">$dest_name") or die "Open output file impossible : $!\n"; print TMPF "\n\n"; if ($with_lapack) { print TMPF "#include\n\n"; } if ($with_qd) { print TMPF "#include \n"; print TMPF "#include \n"; print TMPF "#include \n\n"; } $reading_param = 1; $nb_param = 0; while (($li = )&& ($reading_param)) { chomp($li); if ($li=~/^\/\//) { if ($li=~/ENDPARAM/) { $reading_param = 0; } elsif ($li=~/DENSE_VECTOR_PARAM/) { $param[$nb_param++] = 1; } elsif ($li=~/VECTOR_PARAM/) { $param[$nb_param++] = 2; } elsif ($li=~/RECTANGULAR_MATRIX_PARAM/) { $param[$nb_param++] = 3; } elsif ($li=~/SQUARED_MATRIX_PARAM/) { $param[$nb_param++] = 4; } elsif ($li=~/\/\//) { } else { die "Error in parameter list"; } } } $TYPES[0] = "float"; $TYPES[1] = "std::complex "; $TYPES[2] = "double"; $TYPES[3] = "std::complex "; # $TYPES[4] = "long double"; # $TYPES[5] = "std::complex "; $NB_TYPES = 4.0; if ($with_lapack) { $NB_TYPES = 4.0; } if ($with_qd) { $TYPES[0] = "dd_real"; $TYPES[1] = "qd_real"; $TYPES[2] = "std::complex "; $TYPES[3] = "std::complex "; $NB_TYPES = 4.0; } if ($fix_base_type == -1) { $TYPE = $TYPES[int($NB_TYPES * rand())]; } else { $TYPE = $TYPES[$fix_base_type]; } $VECTOR_TYPES[0] = "std::vector<$TYPE> "; $VECTOR_TYPES[1] = "std::vector<$TYPE> "; $VECTOR_TYPES[2] = "gmm::rsvector<$TYPE> "; $VECTOR_TYPES[3] = "gmm::wsvector<$TYPE> "; $VECTOR_TYPES[4] = "gmm::slvector<$TYPE> "; $NB_VECTOR_TYPES = 5.0; $MATRIX_TYPES[0] = "gmm::dense_matrix<$TYPE> "; $MATRIX_TYPES[1] = "gmm::dense_matrix<$TYPE> "; $MATRIX_TYPES[2] = "gmm::row_matrix > "; $MATRIX_TYPES[3] = "gmm::col_matrix > "; $MATRIX_TYPES[4] = "gmm::row_matrix > "; $MATRIX_TYPES[5] = "gmm::col_matrix > "; $MATRIX_TYPES[6] = "gmm::row_matrix > "; $MATRIX_TYPES[7] = "gmm::col_matrix > "; $MATRIX_TYPES[8] = "gmm::row_matrix > "; $MATRIX_TYPES[9] = "gmm::col_matrix > "; $NB_MATRIX_TYPES = 10.0; while ($li = ) { print TMPF $li; } $sizep = int($size_max*rand()); $theseed = int(10000.0*rand()); # print "Parameters for the test:\n"; print TMPF "\n\n\n"; print TMPF "int main(void) {\n\n"; if ($with_qd) { print TMPF " fpu_fix_start(0);\n\n"; } print TMPF " srand($theseed);\n\n"; print TMPF " gmm::set_warning_level(1);\n\n"; print TMPF " for (int iter = 0; iter < 100000; ++iter) {\n\n"; print TMPF " try {\n\n"; for ($j = 0; $j < $nb_param; ++$j) { $a = rand(); $b = rand(); if ($with_lapack) { $a = $b = 1.0; } $sizepp = $sizep + int(50.0*rand()); $step = $sizep; if ($step == 0) { ++$step; } $step = int(1.0*int($sizepp/$step - 1)*rand()) + 1; if (($param[$j] == 1) || ($param[$j] == 2)) { # vectors $lt = $VECTOR_TYPES[0]; if ($param[$j] == 2 && $with_lapack==0) { $lt = $VECTOR_TYPES[int($NB_VECTOR_TYPES * rand())]; } if ($a < 0.1) { $li = " $lt param$j($sizepp);"; $c = int(1.0*($sizepp-$sizep+1)*rand()); $param_name[$j] = "gmm::sub_vector(param$j, gmm::sub_interval($c, $sizep))"; } elsif ($a < 0.2) { $li = " $lt param$j($sizepp);"; $c = int(1.0*($sizepp-($sizep*$step+1))*rand()); $param_name[$j] = "gmm::sub_vector(param$j, gmm::sub_slice($c, $sizep, $step))"; } elsif ($a < 0.3) { $li = " $lt param$j($sizepp);"; @sub_index = (); @sortind = 0 .. ($sizepp-1); while (@sortind) { push (@sub_index, splice(@sortind , rand @sortind, 1)); } @sub_index = @sub_index[0..$sizep-1]; @sub_index = sort numerique @sub_index; if ($sizep == 0) { $li = "$li\n gmm::size_type param_tab$j [1] = {0};"; } else { $li="$li\n gmm::size_type param_tab$j [$sizep] ={$sub_index[0]"; for ($k = 1; $k < $sizep; ++$k) { $li = "$li , $sub_index[$k]"; } $li = "$li};"; } $param_name[$j] = "gmm::sub_vector(param$j,". " gmm::sub_index(¶m_tab$j [0], ¶m_tab$j [$sizep]))"; } else { $li = " $lt param$j($sizep);"; $param_name[$j] = "param$j"; } print TMPF "$li\n gmm::fill_random(param$j);\n"; } elsif ($param[$j] == 3 || $param[$j] == 4) { # matrices $sm = $sizep; if ($a < 0.3) { $sm = $sizep + int(50.0*rand()); } $s = $sizep; if ($param[$j] == 3) { $s = int($size_max*rand()); } $sn = $s; if ($b < 0.3) { $sn = $s + int(50.0*rand()); } $param_name[$j] = "param$j"; $lt = $MATRIX_TYPES[0]; if ($with_lapack==0) { $lt = $MATRIX_TYPES[int($NB_MATRIX_TYPES * rand())]; } $li = " $lt param$j($sm, $sn);"; if ($a < 0.3 || $b < 0.3) { $sub1 = "gmm::sub_interval(0, $sizep)"; $sub2 = "gmm::sub_interval(0, $s)"; if ($a < 0.1) { $c = int(1.0*($sm-$sizep+1)*rand()); $sub1 = "gmm::sub_interval($c, $sizep)"; } elsif ($a < 0.2) { $step = $sizep; if ($step == 0) { ++$step; } $step = int(1.0*int($sm/$step - 1)*rand()) + 1; $c = int(1.0*($sm-($sizep*$step+1))*rand()); $sub1 = "gmm::sub_slice($c, $sizep, $step)"; } elsif ($a < 0.3) { @sub_index = (); @sortind = 0 .. ($sm-1); while (@sortind) { push (@sub_index, splice(@sortind , rand @sortind, 1)); } @sub_index = @sub_index[0..$sizep-1]; @sub_index = sort numerique @sub_index; if ($sizep == 0) { $li = "$li\n gmm::size_type param_t$j [1] = {0};"; } else { $li="$li\n gmm::size_type param_t$j [$sizep]= {$sub_index[0]"; for ($k = 1; $k < $sizep; ++$k) { $li = "$li , $sub_index[$k]"; } $li = "$li};"; } $sub1 = "gmm::sub_index(¶m_t$j [0], ¶m_t$j [$sizep])"; } if ($b < 0.1) { $c = int(1.0*($sn-$s+1)*rand()); $sub2 = "gmm::sub_interval($c, $s)"; } elsif ($b < 0.2) { $step = $s; if ($step == 0) { ++$step; } $step = int(1.0*int($sn/$step - 1)*rand()) + 1; $c = int(1.0*($sn-($s*$step+1))*rand()); $sub2 = "gmm::sub_slice($c, $s, $step)"; } elsif ($b < 0.3) { @sub_index = (); @sortind = 0 .. ($sn-1); while (@sortind) { push (@sub_index, splice(@sortind , rand @sortind, 1)); } @sub_index = @sub_index[0..$s-1]; @sub_index = sort numerique @sub_index; if ($s == 0) { $li = "$li\n gmm::size_type param_u$j [1] = {0};"; } else { $li="$li\n gmm::size_type param_u$j [$s] = {$sub_index[0]"; for ($k = 1; $k < $s; ++$k) { $li = "$li , $sub_index[$k]"; } $li = "$li};"; } $sub2 = "gmm::sub_index(¶m_u$j [0], ¶m_u$j [$s])"; } $param_name[$j] = "gmm::sub_matrix(param$j, $sub1, $sub2)"; } if (1.0 * rand() < 0.5) { print TMPF "$li\n gmm::fill_random(param$j);\n"; } else { print TMPF "$li\n gmm::fill_random(param$j, 0.2);\n"; } $sizep = $s; } # print "$li ($param_name[$j])\n"; } print TMPF " \n\n bool ret = test_procedure($param_name[0]"; for ($j = 1; $j < $nb_param; ++$j) { print TMPF ", $param_name[$j]"; } print TMPF ");\n"; print TMPF " if (ret) return 0;\n\n"; print TMPF " }\n"; print TMPF " GMM_STANDARD_CATCH_ERROR;\n"; print TMPF " }\n"; print TMPF " return 0;\n"; print TMPF "}\n"; close(DATAF); close(TMPF); `rm -f $root_name`; $compilo=`../gmm-config --cxx` || die('cannot execute ../gmm-config --cxx'); chomp($compilo); $compile_options=`../gmm-config --build-flags`; chomp($compile_options); $compile_options="$compile_options -I$srcdir/../src -I$srcdir/../include -I../src -I../include"; $compile_libs="-lm"; if ($with_lapack) { $compile_libs="-llapack -lblas -lg2c $compile_libs"; $compile_options="$compile_options -DGMM_USES_LAPACK" } if ($with_qd) { $compile_libs="-lqd $compile_libs"; } # print "$compilo $compile_options $dest_name -o $root_name $compile_libs\n"; print `$compilo $compile_options $dest_name -o $root_name $compile_libs`; if ($? != 0) { print "$compilo $compile_options $dest_name -o $root_name $compile_libs\n"; print "\n******************************************************\n"; print "* Compilation error, please submit this bug to\n"; print "* Yves.Renard\@insa-lyon.fr, with the file\n"; print "* $dest_name\n"; print "* produced in directory \"tests\".\n"; print "******************************************************\n"; exit(1); } print `./$root_name`; if ($? != 0) { print "$compilo $compile_options $dest_name -o $root_name $compile_libs\n"; print "\n******************************************************\n"; print "* Execution error, please submit this bug to\n"; print "* Yves.Renard\@insa-lyon.fr, with the file\n"; print "* $dest_name\n"; print "* produced in directory \"tests\".\n"; print "******************************************************\n"; exit(1); } # `rm -f $dest_name`; } }