# Copyright 1999-2016 ImageMagick Studio LLC, a non-profit organization # dedicated to making software imaging solutions freely available. # # You may not use this file except in compliance with the License. You may # obtain a copy of the License at # # http://www.imagemagick.org/script/license.php # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # # Common subroutines to support tests # # Contributed by Bob Friesenhahn # # # Test composite method using comparison with a reference image # # Usage: testFilterCompare( background image name, background read options, # composite image name, composite read options, # composite options,reference image # normalized_mean_error, # normalized_maximum_error ); sub testCompositeCompare { my ($background_name, $background_read_options, $composite_name, $composite_read_options, $composite_options, $refimage_name, $normalized_mean_error_max, $normalized_maximum_error_max) = @_; my ($background, $composite, $errorinfo, $normalized_maximum_error, $normalized_mean_error, $refimage, $status); $errorinfo=''; $status=''; #print( $filter, " ...\n" ); # Create images $background=Image::Magick->new; $composite=Image::Magick->new; $refimage=Image::Magick->new; # Read background image if ( "$background_read_options" ne "" ) { print("Set($background_read_options) ...\n"); eval "\$status=\$background->Set($background_read_options);"; if ("$status") { $errorinfo = "Set($background_read_options): $status"; goto COMPARE_RUNTIME_ERROR; } } $status=$background->ReadImage($background_name); if ("$status") { $errorinfo = "Readimage ($background_name): $status"; goto COMPARE_RUNTIME_ERROR; } # Read composite image if ( "$composite_read_options" ne "" ) { print("Set($composite_read_options) ...\n"); eval "\$status=\$composite->Set($composite_read_options);"; if ("$status") { $errorinfo = "Set($composite_read_options): $status"; goto COMPARE_RUNTIME_ERROR; } } $status=$composite->ReadImage($composite_name); if ("$status") { $errorinfo = "Readimage ($composite_name): $status"; goto COMPARE_RUNTIME_ERROR; } # Do composition print("Composite\($composite_options\) ...\n"); eval "\$status=\$background->Composite(image=>\$composite, $composite_options);"; if ("$status") { $errorinfo = "Composite ($composite_options): $status"; goto COMPARE_RUNTIME_ERROR; } $background->Clamp(); $background->set(depth=>8); # if ("$filter" eq "Atop") { # $background->write(filename=>"$refimage_name", compression=>'None'); # $background->Display(); # } $status=$refimage->ReadImage("$refimage_name"); if ("$status") { $errorinfo = "Readimage ($refimage_name): $status"; goto COMPARE_RUNTIME_ERROR; } $status=$background->Difference($refimage); if ("$status") { $errorinfo = "Difference($refimage_name): $status"; print(" Reference: ", $refimage->Get('columns'), "x", $refimage->Get('rows'), "\n"); print(" Computed: ", $background->Get('columns'), "x", $background->Get('rows'), "\n"); goto COMPARE_RUNTIME_ERROR; } $normalized_mean_error=0; $normalized_mean_error=$background->GetAttribute('mean-error'); if ( !defined($normalized_mean_error) ) { $errorinfo = "GetAttribute('mean-error') returned undefined value!"; goto COMPARE_RUNTIME_ERROR; } $normalized_maximum_error=0; $normalized_maximum_error=$background->GetAttribute('maximum-error'); if ( ! defined($normalized_maximum_error) ) { $errorinfo = "GetAttribute('maximum-error') returned undefined value!"; goto COMPARE_RUNTIME_ERROR; } if ( ($normalized_mean_error > $normalized_mean_error_max) || ($normalized_maximum_error > $normalized_maximum_error_max) ) { print(" mean-error=$normalized_mean_error, maximum-error=$normalized_maximum_error\n"); print "not ok $test\n"; $background->Display(); undef $background; undef $composite; undef $refimage; return 1 } undef $background; undef $composite; undef $refimage; print "ok $test\n"; return 0; COMPARE_RUNTIME_ERROR: undef $background; undef $composite; undef $refimage; print(" $errorinfo\n"); print "not ok $test\n"; return 1 } # # Test reading a 16-bit file in which two signatures are possible, # depending on whether 16-bit pixels data has been enabled # # Usage: testRead( read filename, expected ref_8 [, expected ref_16] [, expected ref_32] ); # sub testRead { my( $infile, $ref_8, $ref_16, $ref_32 ) = @_; my($image,$magick,$success,$ref_signature); $failure=0; if ( !defined( $ref_16 ) ) { $ref_16 = $ref_8; } if ( !defined( $ref_32 ) ) { $ref_32 = $ref_16; } if (Image::Magick->new()->QuantumDepth == 32) { $ref_signature=$ref_32; } elsif (Image::Magick->new()->QuantumDepth == 16) { $ref_signature=$ref_16; } else { $ref_signature=$ref_8; } $magick=''; # # Test reading from file # { my($image, $signature, $status); print( " testing reading from file \"", $infile, "\" ...\n"); $image=Image::Magick->new; $image->Set(size=>'512x512'); $status=$image->ReadImage("$infile"); if( "$status" && !($status =~ /Exception ((315)|(350))/)) { print "ReadImage $infile: $status\n"; ++$failure; } else { if( "$status" ) { print "ReadImage $infile: $status\n"; } undef $status; $magick=$image->Get('magick'); $signature=$image->Get('signature'); if ( $signature ne $ref_signature ) { print "ReadImage()\n"; print "Image: $infile, signatures do not match.\n"; print " Expected: $ref_signature\n"; print " Computed: $signature\n"; print " Depth: ", Image::Magick->new()->QuantumDepth, "\n"; ++$failure; $image->Display(); } } undef $image; } # # Test reading from blob # if (!($infile =~ /\.bz2$/) && !($infile =~ /\.gz$/) && !($infile =~ /\.Z$/)) { my(@blob, $blob_length, $image, $signature, $status); if( open( FILE, "< $infile")) { print( " testing reading from BLOB with magick \"", $magick, "\"...\n"); binmode( FILE ); $blob_length = read( FILE, $blob, 10000000 ); close( FILE ); if( defined( $blob ) ) { $image=Image::Magick->new(magick=>$magick); $status=$image->BlobToImage( $blob ); undef $blob; if( "$status" && !($status =~ /Exception ((315)|(350))/)) { print "BlobToImage $infile: $status\n"; ++$failure; } else { if( "$status" ) { print "ReadImage $infile: $status\n"; } $signature=$image->Get('signature'); if ( $signature ne $ref_signature ) { print "BlobToImage()\n"; print "Image: $infile, signatures do not match.\n"; print " Expected: $ref_signature\n"; print " Computed: $signature\n"; print " Depth: ", Image::Magick->new()->QuantumDepth, "\n"; #$image->Display(); ++$failure; } } } } undef $image; } # # Display test status # if ( $failure != 0 ) { print "not ok $test\n"; } else { print "ok $test\n"; } } # # Test reading a file, and compare with a reference file # sub testReadCompare { my( $srcimage_name,$refimage_name, $read_options, $normalized_mean_error_max, $normalized_maximum_error_max) = @_; my($srcimage, $refimage, $normalized_mean_error, $normalized_maximum_error); $errorinfo=''; # Create images $srcimage=Image::Magick->new; $refimage=Image::Magick->new; if ( "$read_options" ne "" ) { eval "\$status=\$srcimage->Set($read_options);"; if ("$status") { $errorinfo = "Set($read_options): $status"; warn("$errorinfo"); goto COMPARE_RUNTIME_ERROR; } } $status=$srcimage->ReadImage("$srcimage_name"); if ("$status") { $errorinfo = "Readimage ($srcimage_name): $status"; warn("$errorinfo"); goto COMPARE_RUNTIME_ERROR; } # if ("$srcimage_name" eq "input.tim") { # $srcimage->write(filename=>"$refimage_name", compression=>'None'); # } #print("writing file $refimage_name\n"); #$srcimage->Quantize(colors=>256); #$status=$srcimage->write(filename=>"$refimage_name", compression=>'rle'); #warn "$status" if $status; $status=$refimage->ReadImage("$refimage_name"); if ("$status") { $errorinfo = "Readimage ($refimage_name): $status"; warn("$errorinfo"); goto COMPARE_RUNTIME_ERROR; } $srcimage->Clamp(); $srcimage->set(depth=>8); # FIXME: The following statement should not be needed. # $status=$refimage->Set(type=>'TrueColor'); # if ("$status") # { # $errorinfo = "Set(type=>'TrueColor'): $status"; # goto COMPARE_RUNTIME_ERROR; # } # Verify that $srcimage and $refimage contain the same number of frames. if ( $#srcimage != $#refimage ) { $errorinfo = "Source and reference images contain different number of frames ($#srcimage != $#refimage)"; warn("$errorinfo"); goto COMPARE_RUNTIME_ERROR; } # Compare each frame in the sequence. for ($index = 0; $srcimage->[$index] && $refimage->[$index]; $index++) { $status=$srcimage->[$index]->Difference($refimage->[$index]); if ("$status") { $errorinfo = "Difference($refimage_name)->[$index]: $status"; warn("$errorinfo"); goto COMPARE_RUNTIME_ERROR; } } $normalized_mean_error=0; $normalized_mean_error=$srcimage->GetAttribute('mean-error'); if ( !defined($normalized_mean_error) ) { $errorinfo = "GetAttribute('mean-error') returned undefined value!"; warn("$errorinfo"); goto COMPARE_RUNTIME_ERROR; } $normalized_maximum_error=0; $normalized_maximum_error=$srcimage->GetAttribute('maximum-error'); if ( ! defined($normalized_maximum_error) ) { $errorinfo = "GetAttribute('maximum-error') returned undefined value!"; warn("$errorinfo"); goto COMPARE_RUNTIME_ERROR; } if ( ($normalized_mean_error > $normalized_mean_error_max) || ($normalized_maximum_error > $normalized_maximum_error_max) ) { print("mean-error=$normalized_mean_error, maximum-error=$normalized_maximum_error\n"); #$srcimage->Display(); print "not ok $test\n"; return 1 } undef $srcimage; undef $refimage; print "ok $test\n"; return 0; COMPARE_RUNTIME_ERROR: undef $srcimage; undef $refimage; print "not ok $test\n"; return 1 } # # Test reading a file which requires a file size to read (GRAY, RGB, CMYK) # or supports multiple resolutions (JBIG, JPEG, PCD) # # Usage: testRead( read filename, size, depth, expected ref_8 [, expected ref_16] [, expected ref_32] ); # sub testReadSized { my( $infile, $size, $ref_8, $ref_16, $ref_32 ) = @_; my($image,$ref_signature); if ( !defined( $ref_16 ) ) { $ref_16 = $ref_8; } if ( !defined( $ref_32 ) ) { $ref_32 = $ref_16; } if (Image::Magick->new()->QuantumDepth == 32) { $ref_signature=$ref_32; } elsif (Image::Magick->new()->QuantumDepth == 16) { $ref_signature=$ref_16; } else { $ref_signature=$ref_8; } $image=Image::Magick->new; # Set size attribute $status=$image->SetAttribute(size=>"$size"); warn "$status" if "$status"; # If depth is not zero, then set it if ( Image::Magick->new()->QuantumDepth != 0 ) { $status=$image->SetAttribute(depth=>Image::Magick->new()->QuantumDepth); warn "$status" if "$status"; } $status=$image->ReadImage("$infile"); if( "$status" ) { print "ReadImage $infile: $status"; print "not ok $test\n"; } else { $signature=$image->Get('signature'); if ( $signature ne $ref_signature ) { print "ReadImage()\n"; print "Image: $infile, signatures do not match.\n"; print " Expected: $ref_signature\n"; print " Computed: $signature\n"; print " Depth: ", Image::Magick->new()->QuantumDepth, "\n"; print "not ok $test\n"; #$image->Display(); } else { print "ok $test\n"; } } } # # Test writing a file by first reading a source image, writing to a new image, # reading the written image, and comparing with expected REF_8. # # Usage: testReadWrite( read filename, write filename, write options, # expected ref_8 [, expected ref_16] ); # # .e.g # # testReadWrite( 'input.jpg', 'output.jpg', q/quality=>80, interlace=>'None'/, # 'dc0a144a0b9480cd1e93757a30f01ae3' ); # # If the REF_8 of the written image is not what is expected, the written # image is preserved. Otherwise, the written image is removed. # sub testReadWrite { my( $infile, $outfile, $writeoptions, $ref_8, $ref_16, $ref_32 ) = @_; my($image); if ( !defined( $ref_16 ) ) { $ref_16 = $ref_8; } if ( !defined( $ref_32 ) ) { $ref_32 = $ref_16; } if (Image::Magick->new()->QuantumDepth == 32) { $ref_signature=$ref_32; } elsif (Image::Magick->new()->QuantumDepth == 16) { $ref_signature=$ref_16; } else { $ref_signature=$ref_8; } $image=Image::Magick->new; $status=$image->ReadImage("$infile"); $signature=$image->Get('signature'); if( "$status" ) { print "ReadImage $infile: $status\n"; print "not ok $test\n"; } else { # Write image to file my $options = 'filename=>"$outfile", ' . "$writeoptions"; #print "Using options: $options\n"; eval "\$status=\$image->WriteImage( $options ) ;"; if( $@ ) { print "$@\n"; print "not ok $test\n"; exit 1; } if( "$status" ) { print "WriteImage $outfile: $status\n"; print "not ok $test\n"; } else { my($image); # Read image just written $image=Image::Magick->new; $status=$image->ReadImage("$outfile"); if( "$status" ) { print "ReadImage $outfile: $status\n"; print "not ok $test\n"; } else { # Check signature $signature=$image->Get('signature'); if ( $signature ne $ref_signature ) { print "ReadImage()\n"; print "Image: $infile, signatures do not match.\n"; print " Expected: $ref_signature\n"; print " Computed: $signature\n"; print " Depth: ", Image::Magick->new()->QuantumDepth, "\n"; print "not ok $test\n"; $image->Display(); } else { print "ok $test\n"; ($file = $outfile) =~ s/.*://g; #unlink "$file"; } } } } } # # Test reading a file, and compare with a reference file # sub testReadWriteCompare { my( $srcimage_name, $outimage_name, $refimage_name, $read_options, $write_options, $normalized_mean_error_max, $normalized_maximum_error_max) = @_; my($srcimage, $refimage, $normalized_mean_error, $normalized_maximum_error); $errorinfo=''; $image=Image::Magick->new; $refimage=Image::Magick->new; # # Read the initial image # $status=$image->ReadImage($srcimage_name); if ("$status") { $errorinfo = "Readimage ($srcimage_name): $status"; goto COMPARE_RUNTIME_ERROR; } # # Write image to output file # if ( "$write_options" ne "" ) { eval "\$status=\$image->Set($write_options);"; if ("$status") { $errorinfo = "Set($write_options): $status"; goto COMPARE_RUNTIME_ERROR; } } $image->Set(filename=>"$outimage_name"); $status=$image->WriteImage( ); if ("$status") { $errorinfo = "WriteImage ($outimage_name): $status"; goto COMPARE_RUNTIME_ERROR; } undef $image; $image=Image::Magick->new; # # Read image from output file # if ( "$read_options" ne "" ) { eval "\$status=\$image->Set($read_options);"; if ("$status") { $errorinfo = "Set($read_options): $status"; goto COMPARE_RUNTIME_ERROR; } } $image->ReadImage("$outimage_name"); if ("$status") { $errorinfo = "WriteImage ($outimage_name): $status"; goto COMPARE_RUNTIME_ERROR; } # eval "\$status=\$image->Set($write_options);"; #$status=$image->write(filename=>"$refimage_name", compression=>'None'); # warn "$status" if $status; # # Read reference image # $status=$refimage->ReadImage("$refimage_name"); if ("$status") { $errorinfo = "Readimage ($refimage_name): $status"; goto COMPARE_RUNTIME_ERROR; } # # Compare output file with reference image # $image->Clamp(); $image->set(depth=>8); # FIXME: The following statement should not be needed. # $status=$refimage->Set(type=>'TrueColor'); # if ("$status") # { # $errorinfo = "Set(type=>'TrueColor'): $status"; # goto COMPARE_RUNTIME_ERROR; # } $status=$image->Difference($refimage); if ("$status") { $errorinfo = "Difference($refimage_name): $status"; goto COMPARE_RUNTIME_ERROR; } $normalized_mean_error=0; $normalized_mean_error=$image->GetAttribute('mean-error'); if ( !defined($normalized_mean_error) ) { $errorinfo = "GetAttribute('mean-error') returned undefined value!"; goto COMPARE_RUNTIME_ERROR; } $normalized_maximum_error=0; $normalized_maximum_error=$image->GetAttribute('maximum-error'); if ( ! defined($normalized_maximum_error) ) { $errorinfo = "GetAttribute('maximum-error') returned undefined value!"; goto COMPARE_RUNTIME_ERROR; } if ( ($normalized_mean_error > $normalized_mean_error_max) || ($normalized_maximum_error > $normalized_maximum_error_max) ) { print("mean-error=$normalized_mean_error, maximum-error=$normalized_maximum_error\n"); print "not ok $test\n"; return 1 } print "ok $test\n"; undef $image; undef $refimage; return 0; COMPARE_RUNTIME_ERROR: warn("$errorinfo"); print "not ok $test\n"; undef $image; undef $refimage; return 1 } # # Test writing a file by first reading a source image, writing to a # new image, and reading the written image. Depends on detecting # reported errors by ImageMagick # # Usage: testReadWrite( read filename, write filename, write options); # # .e.g # # testReadWrite( 'input.jpg', 'output.jpg', q/quality=>80, 'interlace'=>'None'/ ); # # If the read of the written image is not what is expected, the # written image is preserved. Otherwise, the written image is # removed. # sub testReadWriteNoVerify { my( $infile, $outfile, $writeoptions) = @_; my($image, $images); $image=Image::Magick->new; $status=$image->ReadImage("$infile"); if( "$status" ) { print "$status\n"; print "ReadImage $infile: not ok $test\n"; } else { # Write image to file my $options = 'filename=>"$outfile", ' . $writeoptions; #print "Using options: $options\n"; eval "\$status=\$image->WriteImage( $options ) ;"; if( $@ ) { print "$@"; print "not ok $test\n"; exit 1; } if( "$status" ) { print "WriteImage $outfile: $status\n"; print "not ok $test\n"; } else { my($image); # Read image just written $image=Image::Magick->new; $status=$image->ReadImage("$outfile"); if( "$status" ) { print "ReadImage $outfile: $status\n"; print "not ok $test\n"; } else { print "ok $test\n"; unlink $outfile; } } } } # # Test writing a file by first reading a source image, writing to a new image, # reading the written image, and comparing with expected REF_8. # # Usage: testReadWriteSized( read filename, # write filename, # read filename size, # read filename depth, # write options, # expected ref_8 [,expected ref_16] ); # # .e.g # # testReadWriteSized( 'input.jpg', 'output.jpg', '70x46', 8, q/quality=>80, # 'interlace'=>'None'/, 'dc0a144a0b9480cd1e93757a30f01ae3' ); # # If the REF_8 of the written image is not what is expected, the written # image is preserved. Otherwise, the written image is removed. A depth of 0 is # ignored. # sub testReadWriteSized { my( $infile, $outfile, $size, $readdepth, $writeoptions, $ref_8, $ref_16, $ref_32 ) = @_; my($image, $ref_signature); if ( !defined( $ref_16 ) ) { $ref_16 = $ref_8; } if ( !defined( $ref_32 ) ) { $ref_32 = $ref_16; } if (Image::Magick->new()->QuantumDepth == 32) { $ref_signature=$ref_32; } elsif (Image::Magick->new()->QuantumDepth == 16) { $ref_signature=$ref_16; } else { $ref_signature=$ref_8; } $image=Image::Magick->new; #$image->SetAttribute(debug=>'transform'); # Set size attribute $status=$image->SetAttribute(size=>"$size"); warn "$status" if "$status"; # If read depth is not zero, then set it if ( $readdepth != 0 ) { $status=$image->SetAttribute(depth=>$readdepth); warn "$status" if "$status"; } $status=$image->ReadImage("$infile"); if( "$status" ) { print "ReadImage $infile: $status\n"; print "not ok $test\n"; } else { # Write image to file my $options = 'filename=>"$outfile", ' . "$writeoptions"; #print "Using options: $options\n"; eval "\$status=\$image->WriteImage( $options ) ;"; if( $@ ) { print "$@\n"; print "not ok $test\n"; exit 1; } if( "$status" ) { print "WriteImage $outfile: $status\n"; print "not ok $test\n"; } else { my($image); $image=Image::Magick->new; if ( $readdepth != 0 ) { $status=$image->SetAttribute(depth=>$readdepth); warn "$status" if "$status"; } # Set image size attribute $status=$image->SetAttribute(size=>"$size"); warn "$status" if "$status"; # Read image just written $status=$image->ReadImage("$outfile"); if( "$status" ) { print "ReadImage $outfile: $status\n"; print "not ok $test\n"; } else { # Check signature $signature=$image->Get('signature'); if ( $signature ne $ref_signature ) { print "ReadImage()\n"; print "Image: $infile, signatures do not match.\n"; print " Expected: $ref_signature\n"; print " Computed: $signature\n"; print " Depth: ", Image::Magick->new()->QuantumDepth, "\n"; print "not ok $test\n"; #$image->Display(); } else { print "ok $test\n"; #$image->Display(); ($file = $outfile) =~ s/.*://g; unlink "$file"; } } } } } # # Test SetAttribute method # # Usage: testSetAttribute( name, attribute); # sub testSetAttribute { my( $srcimage, $name, $attribute ) = @_; my($image); # Create temporary image $image=Image::Magick->new; $status=$image->ReadImage("$srcimage"); warn "Readimage: $status" if "$status"; # Set image option print "Image Option : $name=>$attribute\n"; eval "\$status = \$image->Set('$name'=>'$attribute') ;"; warn "SetImage: $status" if "$status"; # Convert input values to expected output values $expected=$attribute; if ($attribute eq 'True' || $attribute eq 'true') { $expected = 1; } elsif ($attribute eq 'False' || $attribute eq 'false') { $expected = 0; } $value=$image->GetAttribute($name); if( defined( $value ) ) { if ("$expected" eq "$value") { print "ok $test\n"; } else { print "Expected ($expected), Got ($value)\n"; print "not ok $test\n"; } } else { print "GetAttribute returned undefined value!\n"; print "not ok $test\n"; } } # # Test GetAttribute method # # Usage: testGetAttribute( name, expected); # sub testGetAttribute { my( $srcimage, $name, $expected ) = @_; my($image); # Create temporary image $image=Image::Magick->new; $status=$image->ReadImage("$srcimage"); warn "Readimage: $status" if "$status"; $value=$image->GetAttribute($name); if( !defined( $expected ) && !defined( $value ) ) { # Undefined value is expected print "ok $test\n"; } elsif ( !defined( $value ) ) { print "Expected ($expected), Got (undefined)\n"; print "not ok $test\n"; } else { if ("$expected" eq "$value") { print "ok $test\n"; } else { print "Expected ($expected), Got ($value)\n"; print "not ok $test\n"; } } } # # Test MontageImage method # # Usage: testMontage( input image attributes, montage options, expected REF_8 # [, expected REF_16] ); # sub testMontage { my( $imageOptions, $montageOptions, $ref_8, $ref_16, $ref_32 ) = @_; my($image,$ref_signature); if ( !defined( $ref_16 ) ) { $ref_16 = $ref_8; } if ( !defined( $ref_32 ) ) { $ref_32 = $ref_16; } if (Image::Magick->new()->QuantumDepth == 32) { $ref_signature=$ref_32; } elsif (Image::Magick->new()->QuantumDepth == 16) { $ref_signature=$ref_16; } else { $ref_signature=$ref_8; } # Create image for image list $images=Image::Magick->new; # Create temporary image $image=Image::Magick->new; my @colors = ( '#000000', '#008000', '#C0C0C0', '#00FF00', '#808080', '#808000', '#FFFFFF', '#FFFF00', '#800000', '#000080', '#FF0000', '#0000FF', '#800080', '#008080', '#FF00FF', '#00FFFF' ); my $color; foreach $color ( @colors ) { # Generate image $image->Set(size=>'50x50'); #print("\$image->ReadImage(xc:$color);\n"); $status=$image->ReadImage("xc:$color"); if ("$status") { warn "Readimage: $status" if "$status"; } else { # Add image to list push( @$images, @$image); } undef @$image; } # Set image options if ("$imageOptions" ne "") { print("\$images->Set($imageOptions)\n"); eval "\$status = \$images->Set($imageOptions) ;"; warn "SetImage: $status" if "$status"; } #print "Border color : ", $images->Get('bordercolor'), "\n"; #print "Matte color : ", $images->Get('mattecolor'), "\n"; #print "Pen color : ", $images->Get('pen'), "\n"; # Do montage #print "Montage Options: $montageOptions\n"; print("\$montage=\$images->Montage( $montageOptions )\n"); eval "\$montage=\$images->Montage( $montageOptions ) ;"; if( $@ ) { print "$@"; print "not ok $test\n"; return 1; } if( ! ref($montage) ) { print "not ok $test\n"; } else { # Check REF_8 signature # $montage->Display(); $signature=$montage->GetAttribute('signature'); if ( defined( $signature ) ) { if ( $signature ne $ref_signature ) { print "ReadImage()\n"; print "Test $test, signatures do not match.\n"; print " Expected: $ref_signature\n"; print " Computed: $signature\n"; print " Depth: ", Image::Magick->new()->QuantumDepth, "\n"; $status = $montage->Write("test_${test}_out.miff"); warn "Write: $status" if "$status"; print "not ok $test\n"; } else { # Check montage directory my $directory = $montage->Get('directory'); my $expected = join( "\n", @colors ) . "\n"; if ( !defined($directory) ) { print "ok $test\n"; } elsif ( $directory ne $expected) { print("Invalid montage directory:\n\"$directory\"\n"); print("Expected:\n\"$expected\"\n"); print "not ok $test\n"; } else { # Check montage geometry $montage_geom=$montage->Get('montage'); if( !defined($montage_geom) ) { print("Montage geometry not defined!\n"); print "not ok $test\n"; } elsif ( $montage_geom !~ /^\d+x\d+\+\d+\+\d+$/ ) { print("Montage geometry not in correct format: \"$montage_geom\"\n"); print "not ok $test\n"; } else { print "ok $test\n"; } } } } else { warn "GetAttribute returned undefined value!"; print "not ok $test\n"; } } } # # Test filter method using signature compare # # Usage: testFilterSignature( input image attributes, filter, options, expected REF_8 # [, expected REF_16] ); # sub testFilterSignature { my( $srcimage, $filter, $filter_options, $ref_8, $ref_16, $ref_32 ) = @_; my($image, $ref_signature); # print( $filter, " ...\n" ); if ( !defined( $ref_16 ) ) { $ref_16 = $ref_8; } if ( !defined( $ref_32 ) ) { $ref_32 = $ref_16; } if (Image::Magick->new()->QuantumDepth == 32) { $ref_signature=$ref_32; } elsif (Image::Magick->new()->QuantumDepth == 16) { $ref_signature=$ref_16; } else { $ref_signature=$ref_8; } # Create temporary image $image=Image::Magick->new; $status=$image->ReadImage("$srcimage"); warn "Readimage: $status" if "$status"; print("$filter\($filter_options\) ...\n"); $image->$filter($filter_options); #$image->write(filename=>"reference/filter/$filter.miff", compression=>'None'); $signature=$image->GetAttribute('signature'); if ( defined( $signature ) ) { if ( $signature ne $ref_signature ) { print "Test $test, signatures do not match.\n"; print " Expected: $ref_signature\n"; print " Computed: $signature\n"; print " Depth: ", Image::Magick->new()->QuantumDepth, "\n"; #$image->Display(); print "not ok $test\n"; } else { print "ok $test\n"; } } else { warn "GetAttribute returned undefined value!"; print "not ok $test\n"; } } # # Test filter method using comparison with reference image # # Usage: testFilterCompare( input image, input image options, reference image, filter, filter options, # normalized_mean_error, # normalized_maximum_error ); sub testFilterCompare { my ($srcimage_name, $src_read_options, $refimage_name, $filter, $filter_options, $normalized_mean_error_max, $normalized_maximum_error_max) = @_; my($srcimage, $refimage, $normalized_mean_error, $normalized_maximum_error); my($status,$errorinfo); $errorinfo=''; $status=''; #print( $filter, " ...\n" ); # Create images $srcimage=Image::Magick->new; $refimage=Image::Magick->new; if ( "$src_read_options" ne "" ) { print("Set($src_read_options) ...\n"); eval "\$status=\$srcimage->Set($src_read_options);"; if ("$status") { $errorinfo = "Set($src_read_options): $status"; goto COMPARE_RUNTIME_ERROR; } } $status=$srcimage->ReadImage($srcimage_name); #eval "\$status=\$srcimage->ReadImage($srcimage_name);"; if ("$status") { $errorinfo = "Readimage ($srcimage_name): $status"; goto COMPARE_RUNTIME_ERROR; } print("$filter\($filter_options\) ...\n"); eval "\$status=\$srcimage->$filter($filter_options);"; if ("$status") { $errorinfo = "$filter ($filter_options): $status"; goto COMPARE_RUNTIME_ERROR; } $srcimage->Clamp(); $srcimage->set(depth=>8); # if ("$filter" eq "Shear") { # $srcimage->Display(); # $srcimage->write(filename=>"$refimage_name", compression=>'None'); # } $status=$refimage->ReadImage("$refimage_name"); if ("$status") { $errorinfo = "Readimage ($refimage_name): $status"; goto COMPARE_RUNTIME_ERROR; } # FIXME: The following statement should not be needed. # $status=$refimage->Set(type=>'TrueColor'); # if ("$status") # { # $errorinfo = "Set(type=>'TrueColor'): $status"; # goto COMPARE_RUNTIME_ERROR; # } $status=$srcimage->Difference($refimage); if ("$status") { $errorinfo = "Difference($refimage_name): $status"; print(" Reference: ", $refimage->Get('columns'), "x", $refimage->Get('rows'), "\n"); print(" Computed: ", $srcimage->Get('columns'), "x", $srcimage->Get('rows'), "\n"); goto COMPARE_RUNTIME_ERROR; } $normalized_mean_error=0; $normalized_mean_error=$srcimage->GetAttribute('mean-error'); if ( !defined($normalized_mean_error) ) { $errorinfo = "GetAttribute('mean-error') returned undefined value!"; goto COMPARE_RUNTIME_ERROR; } $normalized_maximum_error=0; $normalized_maximum_error=$srcimage->GetAttribute('maximum-error'); if ( ! defined($normalized_maximum_error) ) { $errorinfo = "GetAttribute('maximum-error') returned undefined value!"; goto COMPARE_RUNTIME_ERROR; } if ( ($normalized_mean_error > $normalized_mean_error_max) || ($normalized_maximum_error > $normalized_maximum_error_max) ) { print(" mean-error=$normalized_mean_error, maximum-error=$normalized_maximum_error\n"); print "not ok $test\n"; #$srcimage->Display(); undef $srcimage; undef $refimage; return 1 } undef $srcimage; undef $refimage; print "ok $test\n"; return 0; COMPARE_RUNTIME_ERROR: undef $srcimage; undef $refimage; print(" $errorinfo\n"); print "not ok $test\n"; return 1 } 1;