// This may look like C code, but it is really -*- C++ -*- // // Copyright Bob Friesenhahn, 1999, 2000, 2001, 2002, 2003 // // Tests for setting/getting Magick::Image attributes // #include #include #include using namespace std; using namespace Magick; int main( int /*argc*/, char ** argv) { // Initialize ImageMagick install location for Windows InitializeMagick(*argv); volatile int failures=0; try { size_t columns = 640; size_t rows = 480; Geometry geometry(columns,rows); Color canvasColor( "red" ); Image image( geometry, canvasColor); // // antiAlias // // Test default value if ( image.antiAlias() != true ) { ++failures; cout << "Line: " << __LINE__ << ", antiAlias default not true" << endl; } // Test setting false image.antiAlias( false ); if ( image.antiAlias() != false ) { ++failures; cout << "Line: " << __LINE__ << ", antiAlias not false" << endl; } // Test setting true image.antiAlias( true ); if ( image.antiAlias() != true ) { ++failures; cout << "Line: " << __LINE__ << ", antiAlias not true" << endl; } // // adjoin // // Test default value if ( image.adjoin() != true ) { ++failures; cout << "Line: " << __LINE__ << ", adjoin default not 'true' as expected" << endl; } // Test setting false image.adjoin( false ); if ( image.adjoin() != false ) { ++failures; cout << "Line: " << __LINE__ << ", adjoin failed set to 'false'" << endl; } // Test setting true image.adjoin( true ); if ( image.adjoin() != true ) { ++failures; cout << "Line: " << __LINE__ << ", adjoin failed set to 'true'" << endl; } // // animationDelay // // Test default value if ( image.animationDelay() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", animationDelay default (" << image.animationDelay() << ") not 0 as expected" << endl; } // Test setting to 0 image.animationDelay( 0 ); if ( image.animationDelay() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", failed to set animationDelay to 0" << endl; } // Test setting to 100 image.animationDelay( 100 ); if ( image.animationDelay() != 100 ) { ++failures; cout << "Line: " << __LINE__ << ", failed to set animationDelay to 100" << endl; } image.animationDelay(0); // // animationIterations // // Test default value if ( image.animationIterations() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", animationIterations default (" << image.animationIterations() << ") not 0 as expected" << endl; } // Test setting to 0 image.animationIterations( 0 ); if ( image.animationIterations() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", failed to set animationIterations to 0" << endl; } // Test setting to 100 image.animationIterations( 100 ); if ( image.animationIterations() != 100 ) { ++failures; cout << "Line: " << __LINE__ << ", failed to set animationIterations to 100" << endl; } image.animationIterations( 0 ); // // backgroundColor // // Test default value. if ( image.backgroundColor() != ColorRGBA("white") ) { ++failures; cout << "Line: " << __LINE__ << ", backgroundColor default (" << string(image.backgroundColor()) << ") is incorrect" << endl; } // Test setting to blue image.backgroundColor("blue"); if ( !image.backgroundColor().isValid() ) { ++failures; cout << "Line: " << __LINE__ << ", backgroundColor (" << string(image.backgroundColor()) << ") failed set to 'blue'" << endl; } else if ( string(image.backgroundColor()) != "#0000FF" && string(image.backgroundColor()) != "#00000000FFFF" && string(image.backgroundColor()) != "#0000000000000000FFFFFFFF" ) { ++failures; cout << "Line: " << __LINE__ << ", backgroundColor (" << string(image.backgroundColor()) << ") is incorrect" << endl; } // Test setting using hex color image.backgroundColor("#00AAFF"); if ( !image.backgroundColor().isValid() ) { ++failures; cout << "Line: " << __LINE__ << ", backgroundColor (" << string(image.backgroundColor()) << ") is incorrectly invalid" << endl; } else if ( string(image.backgroundColor()) != "#00AAFF" && string(image.backgroundColor()) != "#0000AAAAFFFF" && string(image.backgroundColor()) != "#00000000AAAAAAAAFFFFFFFF" ) { ++failures; cout << "Line: " << __LINE__ << ", backgroundColor (" << string(image.backgroundColor()) << ") is incorrect" << endl; } // // backgroundTexture // // Test default value if ( image.backgroundTexture() != "" ) { ++failures; cout << "Line: " << __LINE__ << ", backgroundTexture default (" << image.backgroundTexture() << ") is incorrect" << endl; } // Test setting/getting value image.backgroundTexture("afile.jpg"); if ( image.backgroundTexture() != "afile.jpg" ) { ++failures; cout << "Line: " << __LINE__ << ", backgroundTexture (" << image.backgroundTexture() << ") is incorrect" << endl; } // Test setting back to default image.backgroundTexture(""); if ( image.backgroundTexture() != "" ) { ++failures; cout << "Line: " << __LINE__ << ", backgroundTexture (" << image.backgroundTexture() << ") failed to set to \"\"" << endl; } // // baseColumns // if ( image.baseColumns() != columns ) { ++failures; cout << "Line: " << __LINE__ << ", baseColumns (" << image.baseColumns() << ") is not equal to " << columns << " as expected" << endl; } // // baseFilename // // Base filename is color for xc images if ( image.baseFilename() != "xc:#FF0000" && image.baseFilename() != "xc:#FFFF00000000" && image.baseFilename() != "xc:#FFFFFFFF0000000000000000") { ++failures; cout << "Line: " << __LINE__ << ", baseFilename (" << image.baseFilename() << ") is incorrect" << endl; } // // baseRows // if ( image.baseRows() != rows ) { ++failures; cout << "Line: " << __LINE__ << ", baseRows (" << image.baseRows() << ") != rows (" << rows << ")" << endl; } // // borderColor // if ( image.borderColor() != ColorRGBA("#dfdfdf") ) { ++failures; cout << "Line: " << __LINE__ << ", borderColor default (" << string(image.borderColor()) << ") is incorrect" << endl; } image.borderColor("#FF0000"); if ( image.borderColor() != Color("#FF0000") ) { ++failures; cout << "Line: " << __LINE__ << ", failed to set borderColor (" << string(image.borderColor()) << ")" << endl; } image.borderColor("black"); if ( image.borderColor() != Color("#000000") ) { ++failures; cout << "Line: " << __LINE__ << ", failed to set borderColor (" << string(image.borderColor()) << ")" << endl; } // // boxColor // image.boxColor("#FF0000"); if ( image.boxColor() != Color("#FF0000") ) { ++failures; cout << "Line: " << __LINE__ << ", failed to set boxColor (" << string(image.boxColor()) << ")" << endl; } image.boxColor("black"); if ( image.boxColor() != Color("#000000") ) { ++failures; cout << "Line: " << __LINE__ << ", failed to set boxColor (" << string(image.boxColor()) << ") to #000000" << endl; } // // chromaBluePrimary // { // Test default setting double x, y; image.chromaBluePrimary( &x, &y ); if ( x == 0.0f || y == 0.0f ) { ++failures; cout << "Line: " << __LINE__ << ", chromaBluePrimary x/y defaults are zero" << endl; } // Test set/get image.chromaBluePrimary( 50, 100 ); image.chromaBluePrimary( &x, &y ); if ( x != 50 || y != 100 ) { ++failures; cout << "Line: " << __LINE__ << ", chromaBluePrimary x/y failed set/get" << endl; } } // // chromaGreenPrimary // { // Test default setting double x, y; image.chromaGreenPrimary( &x, &y ); if ( x == 0.0f || y == 0.0f ) { ++failures; cout << "Line: " << __LINE__ << ", chromaGreenPrimary x/y defaults are zero" << endl; } // Test set/get image.chromaGreenPrimary( 50, 100 ); image.chromaGreenPrimary( &x, &y ); if ( x != 50 || y != 100 ) { ++failures; cout << "Line: " << __LINE__ << ", chromaGreenPrimary x/y failed set/get" << endl; } } // // chromaRedPrimary // { // Test default setting double x, y; image.chromaRedPrimary( &x, &y ); if ( x == 0.0f || y == 0.0f ) { ++failures; cout << "Line: " << __LINE__ << ", chromaRedPrimary x/y defaults are zero" << endl; } // Test set/get image.chromaRedPrimary( 50, 100 ); image.chromaRedPrimary( &x, &y ); if ( x != 50 || y != 100 ) { ++failures; cout << "Line: " << __LINE__ << ", chromaRedPrimary x/y failed set/get" << endl; } } // // chromaWhitePoint // { // Test default setting double x, y; image.chromaWhitePoint( &x, &y ); if ( x == 0.0f || y == 0.0f ) { ++failures; cout << "Line: " << __LINE__ << ", chromaWhitePoint x/y defaults are zero" << endl; } // Test set/get image.chromaWhitePoint( 50, 100 ); image.chromaWhitePoint( &x, &y ); if ( x != 50 || y != 100 ) { ++failures; cout << "Line: " << __LINE__ << ", chromaWhitePoint x/y failed set/get" << endl; } } // // classType // if ( image.classType() != DirectClass ) { ++failures; cout << "Line: " << __LINE__ << ", classType is not DirectClass" << endl; } // // colorFuzz // // Test default if ( image.colorFuzz() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", colorFuzz default is non-zero" << endl; } // Test set/get image.colorFuzz( 2 ); if ( image.colorFuzz() != 2 ) { ++failures; cout << "Line: " << __LINE__ << ", colorFuzz failed to set/get" << endl; } image.colorFuzz( 0 ); // // columns // if ( image.columns() != columns ) { ++failures; cout << "Line: " << __LINE__ << ", columns is not equal to canvas image columns" << endl; } // // comment // // Test default if ( image.comment().length() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", comment default non-zero length" << endl; } // Test set/get { std::string comment("This is a comment."); image.comment( comment ); if ( image.comment() != comment ) { ++failures; cout << "Line: " << __LINE__ << ", comment set/get failed" << endl; } } // Test resetting comment image.comment( string() ); if ( image.comment().length() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", comment failed to reset" << endl; } // // compressType // // Test default if ( image.compressType() != UndefinedCompression ) { ++failures; cout << "Line: " << __LINE__ << ", compressType default is incorrect" << endl; } // Test set/get image.compressType(RLECompression); if ( image.compressType() != RLECompression ) { ++failures; cout << "Line: " << __LINE__ << ", compressType set/get failed" << endl; } image.compressType(UndefinedCompression); // // density // { // Test defaults if ( image.density() != Geometry(72,72) ) { ++failures; cout << "Line: " << __LINE__ << ", density default is not 72x72 as expected" << endl; } // Test set/get Geometry density(150,75); image.density(density); if ( image.density() != density ) { ++failures; cout << "Line: " << __LINE__ << ", density set/get failed" << endl; } if ( image.xResolution() != 150 || image.yResolution() != 75 ) { ++failures; cout << "Line: " << __LINE__ << ", density set/get failed" << endl; } image.density("72x72"); } // // Format specific defines // if (image.defineSet("foo","bar")) { ++failures; cout << "Line: " << __LINE__ << ", define for foo:bar incorrectly reports set." << endl; } image.defineSet("foo","bar",true); if (!image.defineSet("foo","bar")) { ++failures; cout << "Line: " << __LINE__ << ", define for foo:bar incorrectly reports not set." << endl; } image.defineSet("foo","bar",false); if (image.defineSet("foo","bar")) { ++failures; cout << "Line: " << __LINE__ << ", define for foo:bar incorrectly reports set." << endl; } image.defineValue("foo","bar","value"); std::string value = image.defineValue("foo","bar"); if (image.defineValue("foo","bar") != "value") { ++failures; cout << "Line: " << __LINE__ << ", define for foo:bar incorrectly reports value \"" << value << "\"" << endl; } image.defineSet("foo","bar",false); if (image.defineSet("foo","bar")) { ++failures; cout << "Line: " << __LINE__ << ", define for foo:bar incorrectly reports set." << endl; } // // depth // if ( image.depth() != MAGICKCORE_QUANTUM_DEPTH ) { ++failures; cout << "Line: " << __LINE__ << ", depth (" << image.depth() << ") is not equal to " << MAGICKCORE_QUANTUM_DEPTH << endl; } // // Directory // { // Since this is not a montage image, simply verify error report bool caughtException = false; cout << "Testing throwing and catching exceptions. A program crash or a message" << endl << "that the exception was not caught indicates a test failure. A properly" << endl << "formatted exception message indicates success:" << endl; try { //image.directory(); Magick::Image bad_image("foo"); } catch ( Exception &exception_) { cout << "Caught exception, good!:" << endl << " \"" << exception_.what() << "\"" << endl; caughtException = true; } if ( caughtException != true ) { ++failures; cout << "failed to catch exception!" << endl; } } // // fileName // // Test default if ( image.fileName() != string("xc:") + string(canvasColor) ) { ++failures; cout << "Line: " << __LINE__ << ", fileName (" << image.fileName() << ") is not canvas color (" << string(canvasColor) <<") as expected" << endl; } // Set/get value image.fileName("filename.jpg"); if ( image.fileName() != "filename.jpg" ) { ++failures; cout << "Line: " << __LINE__ << ", fileName (" << image.fileName() << ") failed to set/get" << endl; } image.fileName(canvasColor); // // fileSize // // Test default if ( image.fileSize() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", fileSize (" << static_cast(image.fileSize()) << ") is not zero as expected" << endl; } // // filterType // // Test default if ( image.filterType() != UndefinedFilter ) { ++failures; cout << "Line: " << __LINE__ << ", filterType default (" << (int)image.filterType() << ") is incorrect" << endl; } // Test set/get image.filterType( TriangleFilter ); if ( image.filterType() != TriangleFilter ) { ++failures; cout << "Line: " << __LINE__ << ", filterType set/get failed" << endl; } // // font // // Test set/get image.font("helvetica"); if ( image.font() != "helvetica" ) { ++failures; cout << "Line: " << __LINE__ << ", font set/get failed" << endl; } // Test set to null font image.font( string() ); if ( image.font().length() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", font failed to unset" << endl; } // // fontPointsize // // Test default if ( image.fontPointsize() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", fontPointsize (" << image.fontPointsize() << ") is not default of 0 as expected" << endl; } // Test set/get image.fontPointsize(10); if ( image.fontPointsize() != 10 ) { ++failures; cout << "Line: " << __LINE__ << ", fontPointsize set/get failed" << endl; } image.fontPointsize(12); // // format // if ( image.format() != "Constant image uniform color" ) { ++failures; cout << "Line: " << __LINE__ << ", format (" << image.format() << ") is not expected value" << endl; } // // gamma // if ( image.gamma() == 1.0f ) { ++failures; cout << "Line: " << __LINE__ << ", gamma correction is not unity as expected" << endl; } // // geometry // { bool caughtException = false; try { image.geometry(); } catch ( Exception ) { caughtException = true; } if ( caughtException != true ) { ++failures; cout << "Line: " << __LINE__ << ", geometry failed to report missing image geometry"; } } // // gifDisposeMethod // // Test default if ( image.gifDisposeMethod() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", gifDisposeMethod default is not zero as expected" << endl; } // Test set/get image.gifDisposeMethod(4); if ( image.gifDisposeMethod() != 4 ) { ++failures; cout << "Line: " << __LINE__ << ", gifDisposeMethod set/get failed" << endl; } image.gifDisposeMethod(0); // // interlaceType // // Test default if ( image.interlaceType() != NoInterlace ) { ++failures; cout << "Line: " << __LINE__ << ", interlaceType default is not NoInterlace as expected" << endl; } // Test set/get image.interlaceType( PlaneInterlace ); if ( image.interlaceType() != PlaneInterlace ) { ++failures; cout << "Line: " << __LINE__ << ", interlaceType set/get failed" << endl; } image.interlaceType(NoInterlace); // // label // // Test default if ( image.label().length() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", label default is not empty string as expected" << endl; } // Test set/get image.label("How now brown cow?"); if ( image.label() != "How now brown cow?" ) { ++failures; cout << "Line: " << __LINE__ << ", label set/get failed" << endl; } // Test set to default image.label( string() ); if ( image.label().length() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", label failed to unset" << endl; } // // lineWidth // // Test default if ( image.lineWidth() != 1 ) { ++failures; cout << "Line: " << __LINE__ << ", lineWidth default is not 1 as expected" << endl; } // Test set/get image.lineWidth(2); if ( image.lineWidth() != 2 ) { ++failures; cout << "Line: " << __LINE__ << ", lineWidth set/get failed" << endl; } image.lineWidth(1); // // magick // // Test canvas default if ( image.magick() != "XC" ) { ++failures; cout << "Line: " << __LINE__ << ", magick canvas default is not XC as expected" << endl; } // Test set/get image.magick("GIF"); if ( image.magick() != "GIF" ) { ++failures; cout << "Line: " << __LINE__ << ", magick set/get failed" << endl; } image.magick("XC"); // // matte // // Test default if ( image.matte() != false ) { ++failures; cout << "Line: " << __LINE__ << ", matte default is not false as expected" << endl; } // Test set/get image.matte(true); if ( image.matte() != true ) { ++failures; cout << "Line: " << __LINE__ << ", matte set/get failed" << endl; } image.matte(false); // // matteColor // // Test default if ( image.matteColor() != Color("#BDBDBD") ) { ++failures; cout << "Line: " << __LINE__ << ", matteColor default is not #BDBDBD as expected" << endl; } // Test set/get image.matteColor(ColorRGBA(0.5,0.5,1)); if ( image.matteColor() != ColorRGBA(0.5,0.5,1) ) { ++failures; cout << "Line: " << __LINE__ << ", matteColor set/get failed" << endl; } // Test unset image.matteColor( Color() ); image.matteColor("#BDBDBD"); // // meanErrorPerPixel // if ( image.meanErrorPerPixel() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", meanErrorPerPixel is not zero as expected" << endl; } // // montageGeometry // { bool caughtException = false; try { image.montageGeometry(); } catch ( Exception ) { caughtException = true; } if ( caughtException != true ) { ++failures; cout << "Line: " << __LINE__ << ", montageGeometry failed to report missing montage geometry"; } } // // monochrome // // Test default if ( image.monochrome() != false ) { ++failures; cout << "Line: " << __LINE__ << ", monochrome is not false as expected" << endl; } // Test set/get image.monochrome(true); if ( image.monochrome() != true ) { ++failures; cout << "Line: " << __LINE__ << ", monochrome get/set failed" << endl; } image.monochrome(false); // // normalizedMaxError // if ( image.normalizedMaxError() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ",normalizedMaxError is not zero as expected" << endl; } // // normalizedMeanError // if ( image.normalizedMeanError() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", normalizedMeanError is not zero as expected" << endl; } // // penColor // image.penColor(ColorRGBA(0.5,0.5,1)); if ( image.penColor() != ColorRGBA(0.5,0.5,1) ) { ++failures; cout << "Line: " << __LINE__ << ", penColor (" << string(image.penColor()) << ") set/get failed" << endl; } // // strokeColor // image.strokeColor(ColorRGBA(0.5,0.5,1)); if ( image.strokeColor() != ColorRGBA(0.5,0.5,1) ) { ++failures; cout << "Line: " << __LINE__ << ", strokeColor (" << string(image.strokeColor()) << ") set/get failed" << endl; } // // fillColor // image.fillColor(ColorRGBA(0.5,0.5,1)); if ( image.fillColor() != ColorRGBA(0.5,0.5,1) ) { ++failures; cout << "Line: " << __LINE__ << ", fillColor (" << string(image.fillColor()) << ") set/get failed" << endl; } // // pixelColor // // Test default if ( image.pixelColor(40,60) != canvasColor ) { ++failures; cout << "Line: " << __LINE__ << ", pixelColor default (" << string(image.pixelColor(40,60)) << ") is not canvas color (" << string(canvasColor) << ") as expected" << endl; } // Test set/get image.pixelColor(40,60, ColorRGBA(0.5,1,1)); if ( image.pixelColor(40,60) != ColorRGBA(0.5,1,1) ) { ++failures; cout << "Line: " << __LINE__ << ", pixelColor set/get failed" << endl; } // // page // // Test default if ( image.page() != Geometry(640,480,0,0) ) { ++failures; cout << "Line: " << __LINE__ << ", page default " << "(" << string(image.page()) << ")" << " is not 640x480 as expected" << endl; } // Test set/get image.page("letter+43+43>"); if ( image.page() != "612x792+43+43" ) { ++failures; cout << "Line: " << __LINE__ << ", page set/get failed (" << string(image.page()) << ")" << endl; } // // quality // // Test default if ( image.quality() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", quality default is not 0 as expected" << endl; } // Test set/get image.quality(65); if ( image.quality() != 65 ) { ++failures; cout << "Line: " << __LINE__ << ", quality set/get failed" << endl; } image.quality(0); // // quantizeColors // // Test default if ( image.quantizeColors() != 256 ) { ++failures; cout << "Line: " << __LINE__ << ", quantizeColors is not 256 as expected" << endl; } // Test set/get image.quantizeColors(200); if ( image.quantizeColors() != 200 ) { ++failures; cout << "Line: " << __LINE__ << ", quantizeColors set/get failed" << endl; } image.quantizeColors(0); // // quantizeColorSpace // // Test default if ( image.quantizeColorSpace() != UndefinedColorspace ) { ++failures; cout << "Line: " << __LINE__ << ", quantizeColorSpace is not RGBColorspace as expected" << endl; } // Test set/get image.quantizeColorSpace(YIQColorspace); if ( image.quantizeColorSpace() != YIQColorspace ) { ++failures; cout << "Line: " << __LINE__ << ", quantizeColorSpace set/get failed" << endl; } image.quantizeColorSpace(RGBColorspace); // // quantizeDither // // Test default if ( image.quantizeDither() == false ) { ++failures; cout << "Line: " << __LINE__ << ", quantizeDither is not false as expected" << endl; } // Test set/get image.quantizeDither(false); if ( image.quantizeDither() != false ) { ++failures; cout << "Line: " << __LINE__ << ", quantizeDither get/set failed" << endl; } image.quantizeDither(true); // // quantizeTreeDepth // if ( image.quantizeTreeDepth() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", quantizeTreeDepth default is " << image.quantizeTreeDepth() << " rather than zero as expected" << endl; } image.quantizeTreeDepth(7); if ( image.quantizeTreeDepth() != 7 ) { ++failures; cout << "Line: " << __LINE__ << ", quantizeTreeDepth set/get failed" << endl; } image.quantizeTreeDepth(8); // // renderingIntent // if ( image.renderingIntent() == UndefinedIntent ) { ++failures; cout << "Line: " << __LINE__ << ", renderingIntent default is UndefinedIntent as expected" << endl; } image.renderingIntent(PerceptualIntent); if ( image.renderingIntent() != PerceptualIntent ) { ++failures; cout << "Line: " << __LINE__ << ", renderingIntent set/get failed" << endl; } image.renderingIntent(UndefinedIntent); // // resolutionUnits // if ( image.resolutionUnits() != UndefinedResolution ) { ++failures; cout << "Line: " << __LINE__ << ", resolutionUnits default is not UndefinedResolution as expected" << endl; } image.resolutionUnits(PixelsPerCentimeterResolution); if ( image.resolutionUnits() != PixelsPerCentimeterResolution ) { ++failures; cout << "Line: " << __LINE__ << ", resolutionUnits set/get failed" << endl; } image.resolutionUnits(UndefinedResolution); // // rows // if ( image.rows() != rows ) { ++failures; cout << "Line: " << __LINE__ << ", rows is canvas rows as expected" << endl; } // // scene // if ( image.scene() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", scene default is not zero as expected" << endl; } image.scene(5); if ( image.scene() != 5 ) { ++failures; cout << "Line: " << __LINE__ << ", scene set/get failed" << endl; } image.scene(0); // // signature // if (( image.signature() != "5caa527c00cf9e59345de4aaef4f0c2312d1955c2f391ccafa98f8e11370e6e0") && ( image.signature() != "b89bff8473dd6fe2302bcfd365e7d20daf7bd97ad667fe42d1a87469fce0d138")) { ++failures; cout << "Line: " << __LINE__ << ", signature (" << image.signature() << ") is incorrect" << endl; image.display(); } // // size // if ( image.size() != geometry ) { ++failures; cout << "Line: " << __LINE__ << ", size (" << string(image.size()) << ") is not equal to geometry (" << string(geometry) << ")" << endl; } image.size("800x600"); if ( image.size() != Geometry("800x600") ) { ++failures; cout << "Line: " << __LINE__ << ", size set/get failed" << endl; } image.size( geometry ); // // subImage // if ( image.subImage() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", subImage default is not zero as expected" << endl; } image.subImage(5); if ( image.subImage() != 5 ) { ++failures; cout << "Line: " << __LINE__ << ", subImage set/get failed" << endl; } image.subImage(0); // // subRange // if ( image.subRange() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", subRange default is not zero as expected" << endl; } image.subRange(5); if ( image.subRange() != 5 ) { ++failures; cout << "Line: " << __LINE__ << ", subRange set/get failed" << endl; } image.subRange(0); // // totalColors // if ( image.totalColors() != 2 ) { ++failures; cout << "Line: " << __LINE__ << ", totalColors is " << image.totalColors() << " rather than 2 as expected" << endl; } // // type // image.type(PaletteType); if ( image.type() != PaletteType ) { ++failures; cout << "Line: " << __LINE__ << ", type is not PaletteType as expected. Reported type " << (int) image.type() << endl; } // // verbose // if ( image.verbose() != false ) { ++failures; cout << "Line: " << __LINE__ << ", verbose is not false as expected" << endl; } // // view // if ( image.view().length() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", view default is not empty string as expected" << endl; } image.view("How now brown cow?"); if ( image.view() != "How now brown cow?" ) { ++failures; cout << "Line: " << __LINE__ << ", view set/get failed" << endl; } image.view( string() ); if ( image.view().length() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", view failed to unset" << endl; } // // x11Display // if ( image.x11Display().length() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", x11Display default is not empty string as expected" << endl; } image.x11Display(":0.0"); if ( image.x11Display() != ":0.0" ) { ++failures; cout << "Line: " << __LINE__ << ", x11Display set/get failed" << endl; } image.x11Display( string() ); if ( image.x11Display().length() != 0 ) { ++failures; cout << "Line: " << __LINE__ << ", x11Display failed to unset" << endl; } // // xResolution // if ( image.xResolution() != 72 ) { ++failures; cout << "Line: " << __LINE__ << ", xResolution default (" << image.xResolution() << ") is not zero as expected" << endl; } // // yResolution // if ( image.yResolution() != 72 ) { ++failures; cout << "Line: " << __LINE__ << ", yResolution default (" << image.yResolution() << ") is not zero as expected" << endl; } } catch( Exception &error_ ) { cout << "Caught exception: " << error_.what() << endl; return 1; } catch( exception &error_ ) { cout << "Caught exception: " << error_.what() << endl; return 1; } if ( failures ) { cout << failures << " failures" << endl; return 1; } return 0; }