/* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % PPPP EEEEE RRRR L % % P P E R R L % % PPPP EEE RRRR L % % P E R R L % % P EEEEE R R LLLLL % % % % M M AAA GGGG IIIII CCCC K K % % MM MM A A G I C K K % % M M M AAAAA G GGG I C KKK % % M M A A G G I C K K % % M M A A GGGG IIIII CCCC K K % % % % % % Object-oriented Perl interface to ImageMagick % % % % Software Design % % Kyle Shorter % % Cristy % % February 1997 % % % % % % Copyright 1999-2021 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 % % % % https://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. % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % PerlMagick is an objected-oriented Perl interface to ImageMagick. Use % the module to read, manipulate, or write an image or image sequence from % within a Perl script. This makes PerlMagick suitable for Web CGI scripts. % */ /* Include declarations. */ #if defined(__cplusplus) || defined(c_plusplus) extern "C" { #endif #define PERL_NO_GET_CONTEXT #include "EXTERN.h" #include "perl.h" #include "XSUB.h" #include #include #undef tainted #if defined(__cplusplus) || defined(c_plusplus) } #endif /* Define declarations. */ #ifndef aTHX_ #define aTHX_ #define pTHX_ #define dTHX #endif #define DegreesToRadians(x) (MagickPI*(x)/180.0) #define EndOf(array) (&array[NumberOf(array)]) #define MagickPI 3.14159265358979323846264338327950288419716939937510 #define MaxArguments 34 #ifndef na #define na PL_na #endif #define NumberOf(array) (sizeof(array)/sizeof(*array)) #define PackageName "Image::Magick::@MAGICK_ABI_SUFFIX@" #if PERL_VERSION <= 6 #define PerlIO FILE #define PerlIO_importFILE(f, fl) (f) #define PerlIO_findFILE(f) NULL #endif #ifndef sv_undef #define sv_undef PL_sv_undef #endif #define AddImageToRegistry(sv,image) \ { \ if (magick_registry != (SplayTreeInfo *) NULL) \ { \ (void) AddValueToSplayTree(magick_registry,image,image); \ (sv)=newSViv(PTR2IV(image)); \ } \ } #define DeleteImageFromRegistry(reference,image) \ { \ if (magick_registry != (SplayTreeInfo *) NULL) \ { \ if (GetImageReferenceCount(image) == 1) \ (void) DeleteNodeByValueFromSplayTree(magick_registry,image); \ image=DestroyImage(image); \ sv_setiv(reference,0); \ } \ } #define InheritPerlException(exception,perl_exception) \ { \ char \ message[MagickPathExtent]; \ \ if ((exception)->severity != UndefinedException) \ { \ (void) FormatLocaleString(message,MagickPathExtent,"Exception %d: %s%s%s%s",\ (exception)->severity, (exception)->reason ? \ GetLocaleExceptionMessage((exception)->severity,(exception)->reason) : \ "Unknown", (exception)->description ? " (" : "", \ (exception)->description ? GetLocaleExceptionMessage( \ (exception)->severity,(exception)->description) : "", \ (exception)->description ? ")" : ""); \ if ((perl_exception) != (SV *) NULL) \ { \ if (SvCUR(perl_exception)) \ sv_catpv(perl_exception,"\n"); \ sv_catpv(perl_exception,message); \ } \ } \ } #define ThrowPerlException(exception,severity,tag,reason) \ (void) ThrowMagickException(exception,GetMagickModule(),severity, \ tag,"`%s'",reason); \ /* Typedef and structure declarations. */ typedef enum { NullReference = 0, ArrayReference = (~0), RealReference = (~0)-1, FileReference = (~0)-2, ImageReference = (~0)-3, IntegerReference = (~0)-4, StringReference = (~0)-5 } MagickReference; typedef struct _Arguments { const char *method; ssize_t type; } Arguments; struct ArgumentList { ssize_t integer_reference; double real_reference; const char *string_reference; Image *image_reference; SV *array_reference; FILE *file_reference; size_t length; }; struct PackageInfo { ImageInfo *image_info; }; typedef void *Image__Magick__@MAGICK_ABI_SUFFIX@; /* data type for the Image::Magick::@MAGICK_ABI_NAME@ package */ /* Static declarations. */ static struct Methods { const char *name; Arguments arguments[MaxArguments]; } Methods[] = { { "Comment", { {"comment", StringReference} } }, { "Label", { {"label", StringReference} } }, { "AddNoise", { {"noise", MagickNoiseOptions}, {"attenuate", RealReference}, {"channel", MagickChannelOptions} } }, { "Colorize", { {"fill", StringReference}, {"blend", StringReference} } }, { "Border", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"fill", StringReference}, {"bordercolor", StringReference}, {"color", StringReference}, {"compose", MagickComposeOptions} } }, { "Blur", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"channel", MagickChannelOptions} } }, { "Chop", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"gravity", MagickGravityOptions} } }, { "Crop", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"fuzz", StringReference}, {"gravity", MagickGravityOptions} } }, { "Despeckle", { { (const char *) NULL, NullReference } } }, { "Edge", { {"radius", RealReference} } }, { "Emboss", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference} } }, { "Enhance", { { (const char *) NULL, NullReference } } }, { "Flip", { { (const char *) NULL, NullReference } } }, { "Flop", { { (const char *) NULL, NullReference } } }, { "Frame", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"inner", IntegerReference}, {"outer", IntegerReference}, {"fill", StringReference}, {"color", StringReference}, {"compose", MagickComposeOptions} } }, { "Implode", { {"amount", RealReference}, {"interpolate", MagickInterpolateOptions} } }, { "Magnify", { { (const char *) NULL, NullReference } } }, { "MedianFilter", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"channel", MagickChannelOptions} } }, { "Minify", { { (const char *) NULL, NullReference } } }, { "OilPaint", { {"radius", RealReference}, {"sigma", RealReference} } }, { "ReduceNoise", { {"geometry", StringReference}, {"width", IntegerReference},{"height", IntegerReference}, {"channel", MagickChannelOptions} } }, { "Roll", { {"geometry", StringReference}, {"x", IntegerReference}, {"y", IntegerReference} } }, { "Rotate", { {"degrees", RealReference}, {"background", StringReference} } }, { "Sample", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference} } }, { "Scale", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference} } }, { "Shade", { {"geometry", StringReference}, {"azimuth", RealReference}, {"elevation", RealReference}, {"gray", MagickBooleanOptions} } }, { "Sharpen", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"channel", MagickChannelOptions} } }, { "Shear", { {"geometry", StringReference}, {"x", RealReference}, {"y", RealReference}, { "fill", StringReference}, {"color", StringReference} } }, { "Spread", { {"radius", RealReference}, {"interpolate", MagickInterpolateOptions} } }, { "Swirl", { {"degrees", RealReference}, {"interpolate", MagickInterpolateOptions} } }, { "Resize", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"filter", MagickFilterOptions}, {"support", StringReference } } }, { "Zoom", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"filter", MagickFilterOptions}, {"support", RealReference } } }, { "Annotate", { {"text", StringReference}, {"font", StringReference}, {"pointsize", RealReference}, {"density", StringReference}, {"undercolor", StringReference}, {"stroke", StringReference}, {"fill", StringReference}, {"geometry", StringReference}, {"sans", StringReference}, {"x", RealReference}, {"y", RealReference}, {"gravity", MagickGravityOptions}, {"translate", StringReference}, {"scale", StringReference}, {"rotate", RealReference}, {"skewX", RealReference}, {"skewY", RealReference}, {"strokewidth", RealReference}, {"antialias", MagickBooleanOptions}, {"family", StringReference}, {"style", MagickStyleOptions}, {"stretch", MagickStretchOptions}, {"weight", IntegerReference}, {"align", MagickAlignOptions}, {"encoding", StringReference}, {"affine", ArrayReference}, {"fill-pattern", ImageReference}, {"stroke-pattern", ImageReference}, {"tile", ImageReference}, {"kerning", RealReference}, {"interline-spacing", RealReference}, {"interword-spacing", RealReference}, {"direction", MagickDirectionOptions}, {"decorate", MagickDecorateOptions} } }, { "ColorFloodfill", { {"geometry", StringReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"fill", StringReference}, {"bordercolor", StringReference}, {"fuzz", StringReference}, {"invert", MagickBooleanOptions} } }, { "Composite", { {"image", ImageReference}, {"compose", MagickComposeOptions}, {"geometry", StringReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"gravity", MagickGravityOptions}, {"opacity", StringReference}, {"tile", MagickBooleanOptions}, {"rotate", RealReference}, {"color", StringReference}, {"mask", ImageReference}, {"channel", MagickChannelOptions}, {"interpolate", MagickInterpolateOptions}, {"args", StringReference}, {"blend", StringReference}, {"clip-to-self", MagickBooleanOptions} } }, { "Contrast", { {"sharpen", MagickBooleanOptions} } }, { "CycleColormap", { {"display", IntegerReference} } }, { "Draw", { {"primitive", MagickPrimitiveOptions}, {"points", StringReference}, {"method", MagickMethodOptions}, {"stroke", StringReference}, {"fill", StringReference}, {"strokewidth", RealReference}, {"font", StringReference}, {"bordercolor", StringReference}, {"x", RealReference}, {"y", RealReference}, {"translate", StringReference}, {"scale", StringReference}, {"rotate", RealReference}, {"skewX", RealReference}, {"skewY", RealReference}, {"tile", ImageReference}, {"pointsize", RealReference}, {"antialias", MagickBooleanOptions}, {"density", StringReference}, {"linewidth", RealReference}, {"affine", ArrayReference}, {"stroke-dashoffset", RealReference}, {"stroke-dasharray", ArrayReference}, {"interpolate", MagickInterpolateOptions}, {"origin", StringReference}, {"text", StringReference}, {"fill-pattern", ImageReference}, {"stroke-pattern", ImageReference}, {"vector-graphics", StringReference}, {"kerning", RealReference}, {"interline-spacing", RealReference}, {"interword-spacing", RealReference}, {"direction", MagickDirectionOptions} } }, { "Equalize", { {"channel", MagickChannelOptions} } }, { "Gamma", { {"gamma", StringReference}, {"channel", MagickChannelOptions}, {"red", RealReference}, {"green", RealReference}, {"blue", RealReference} } }, { "Map", { {"image", ImageReference}, {"dither-method", MagickDitherOptions} } }, { "MatteFloodfill", { {"geometry", StringReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"opacity", StringReference}, {"bordercolor", StringReference}, {"fuzz", StringReference}, {"invert", MagickBooleanOptions} } }, { "Modulate", { {"factor", StringReference}, {"hue", RealReference}, {"saturation", RealReference}, {"whiteness", RealReference}, {"brightness", RealReference}, {"lightness", RealReference}, {"blackness", RealReference} } }, { "Negate", { {"gray", MagickBooleanOptions}, {"channel", MagickChannelOptions} } }, { "Normalize", { {"channel", MagickChannelOptions} } }, { "NumberColors", { { (const char *) NULL, NullReference } } }, { "Opaque", { {"color", StringReference}, {"fill", StringReference}, {"fuzz", StringReference}, {"channel", MagickChannelOptions}, {"invert", MagickBooleanOptions} } }, { "Quantize", { {"colors", IntegerReference}, {"treedepth", IntegerReference}, {"colorspace", MagickColorspaceOptions}, {"dither", MagickDitherOptions}, {"measure", MagickBooleanOptions}, {"global", MagickBooleanOptions}, {"transparent-color", StringReference}, {"dither-method", MagickDitherOptions} } }, { "Raise", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"raise", MagickBooleanOptions} } }, { "Segment", { {"geometry", StringReference}, {"cluster-threshold", RealReference}, {"smoothing-threshold", RealReference}, {"colorspace", MagickColorspaceOptions}, {"verbose", MagickBooleanOptions} } }, { "Signature", { { (const char *) NULL, NullReference } } }, { "Solarize", { {"geometry", StringReference}, {"threshold", StringReference} } }, { "Sync", { { (const char *) NULL, NullReference } } }, { "Texture", { {"texture", ImageReference} } }, { "Evaluate", { {"value", RealReference}, {"operator", MagickEvaluateOptions}, {"channel", MagickChannelOptions} } }, { "Transparent", { {"color", StringReference}, {"opacity", StringReference}, {"fuzz", StringReference}, {"invert", MagickBooleanOptions} } }, { "Threshold", { {"threshold", StringReference}, {"channel", MagickChannelOptions} } }, { "Charcoal", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference} } }, { "Trim", { {"fuzz", StringReference} } }, { "Wave", { {"geometry", StringReference}, {"amplitude", RealReference}, {"wavelength", RealReference}, {"interpolate", MagickInterpolateOptions} } }, { "Separate", { {"channel", MagickChannelOptions} } }, { "Condense", { { (const char *) NULL, NullReference } } }, { "Stereo", { {"image", ImageReference}, {"x", IntegerReference}, {"y", IntegerReference} } }, { "Stegano", { {"image", ImageReference}, {"offset", IntegerReference} } }, { "Deconstruct", { { (const char *) NULL, NullReference } } }, { "GaussianBlur", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"channel", MagickChannelOptions} } }, { "Convolve", { {"coefficients", ArrayReference}, {"channel", MagickChannelOptions}, {"bias", StringReference}, {"kernel", StringReference} } }, { "Profile", { {"name", StringReference}, {"profile", StringReference}, { "rendering-intent", MagickIntentOptions}, { "black-point-compensation", MagickBooleanOptions} } }, { "UnsharpMask", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"gain", RealReference}, {"threshold", RealReference}, {"channel", MagickChannelOptions} } }, { "MotionBlur", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"angle", RealReference}, {"channel", MagickChannelOptions} } }, { "OrderedDither", { {"threshold", StringReference}, {"channel", MagickChannelOptions} } }, { "Shave", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference} } }, { "Level", { {"levels", StringReference}, {"black-point", RealReference}, {"white-point", RealReference}, {"gamma", RealReference}, {"channel", MagickChannelOptions}, {"level", StringReference} } }, { "Clip", { {"id", StringReference}, {"inside", MagickBooleanOptions} } }, { "AffineTransform", { {"affine", ArrayReference}, {"translate", StringReference}, {"scale", StringReference}, {"rotate", RealReference}, {"skewX", RealReference}, {"skewY", RealReference}, {"interpolate", MagickInterpolateOptions}, {"background", StringReference} } }, { "Difference", { {"image", ImageReference}, {"fuzz", StringReference} } }, { "AdaptiveThreshold", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"bias", RealReference} } }, { "Resample", { {"density", StringReference}, {"x", RealReference}, {"y", RealReference}, {"filter", MagickFilterOptions}, {"support", RealReference } } }, { "Describe", { {"file", FileReference} } }, { "BlackThreshold", { {"threshold", StringReference}, {"channel", MagickChannelOptions} } }, { "WhiteThreshold", { {"threshold", StringReference}, {"channel", MagickChannelOptions} } }, { "RotationalBlur", { {"geometry", StringReference}, {"angle", RealReference}, {"channel", MagickChannelOptions} } }, { "Thumbnail", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference} } }, { "Strip", { { (const char *) NULL, NullReference } } }, { "Tint", { {"fill", StringReference}, {"blend", StringReference} } }, { "Channel", { {"channel", MagickChannelOptions} } }, { "Splice", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"fuzz", StringReference}, {"background", StringReference}, {"gravity", MagickGravityOptions} } }, { "Posterize", { {"levels", IntegerReference}, {"dither", MagickBooleanOptions} } }, { "Shadow", { {"geometry", StringReference}, {"alpha", RealReference}, {"sigma", RealReference}, {"x", IntegerReference}, {"y", IntegerReference} } }, { "Identify", { {"file", FileReference}, {"features", StringReference}, {"moments", MagickBooleanOptions}, {"unique", MagickBooleanOptions} } }, { "SepiaTone", { {"threshold", RealReference} } }, { "SigmoidalContrast", { {"geometry", StringReference}, {"contrast", RealReference}, {"mid-point", RealReference}, {"channel", MagickChannelOptions}, {"sharpen", MagickBooleanOptions} } }, { "Extent", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"fuzz", StringReference}, {"background", StringReference}, {"gravity", MagickGravityOptions} } }, { "Vignette", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"background", StringReference} } }, { "ContrastStretch", { {"levels", StringReference}, {"black-point", RealReference},{"white-point", RealReference}, {"channel", MagickChannelOptions} } }, { "Sans0", { { (const char *) NULL, NullReference } } }, { "Sans1", { { (const char *) NULL, NullReference } } }, { "AdaptiveSharpen", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"bias", RealReference}, {"channel", MagickChannelOptions} } }, { "Transpose", { { (const char *) NULL, NullReference } } }, { "Transverse", { { (const char *) NULL, NullReference } } }, { "AutoOrient", { { (const char *) NULL, NullReference } } }, { "AdaptiveBlur", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"channel", MagickChannelOptions} } }, { "Sketch", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"angle", RealReference} } }, { "UniqueColors", { { (const char *) NULL, NullReference } } }, { "AdaptiveResize", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"filter", MagickFilterOptions}, {"support", StringReference }, {"blur", RealReference } } }, { "ClipMask", { {"mask", ImageReference} } }, { "LinearStretch", { {"levels", StringReference}, {"black-point", RealReference},{"white-point", RealReference} } }, { "ColorMatrix", { {"matrix", ArrayReference} } }, { "Mask", { {"mask", ImageReference} } }, { "Polaroid", { {"caption", StringReference}, {"angle", RealReference}, {"font", StringReference}, {"stroke", StringReference}, {"fill", StringReference}, {"strokewidth", RealReference}, {"pointsize", RealReference}, {"gravity", MagickGravityOptions}, {"background", StringReference}, {"interpolate", MagickInterpolateOptions} } }, { "FloodfillPaint", { {"geometry", StringReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"fill", StringReference}, {"bordercolor", StringReference}, {"fuzz", StringReference}, {"channel", MagickChannelOptions}, {"invert", MagickBooleanOptions} } }, { "Distort", { {"points", ArrayReference}, {"method", MagickDistortOptions}, {"virtual-pixel", MagickVirtualPixelOptions}, {"best-fit", MagickBooleanOptions} } }, { "Clut", { {"image", ImageReference}, {"interpolate", MagickInterpolateOptions}, {"channel", MagickChannelOptions} } }, { "LiquidRescale", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"delta-x", RealReference}, {"rigidity", RealReference } } }, { "Encipher", { {"passphrase", StringReference} } }, { "Decipher", { {"passphrase", StringReference} } }, { "Deskew", { {"geometry", StringReference}, {"threshold", StringReference} } }, { "Remap", { {"image", ImageReference}, {"dither-method", MagickDitherOptions} } }, { "SparseColor", { {"points", ArrayReference}, {"method", MagickSparseColorOptions}, {"virtual-pixel", MagickVirtualPixelOptions}, {"channel", MagickChannelOptions} } }, { "Function", { {"parameters", ArrayReference}, {"function", MagickFunctionOptions}, {"virtual-pixel", MagickVirtualPixelOptions} } }, { "SelectiveBlur", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"threshold", RealReference}, {"channel", MagickChannelOptions} } }, { "HaldClut", { {"image", ImageReference}, {"channel", MagickChannelOptions} } }, { "BlueShift", { {"factor", StringReference} } }, { "ForwardFourierTransform", { {"magnitude", MagickBooleanOptions} } }, { "InverseFourierTransform", { {"magnitude", MagickBooleanOptions} } }, { "ColorDecisionList", { {"color-correction-collection", StringReference} } }, { "AutoGamma", { {"channel", MagickChannelOptions} } }, { "AutoLevel", { {"channel", MagickChannelOptions} } }, { "LevelColors", { {"invert", MagickBooleanOptions}, {"black-point", StringReference}, {"white-point", StringReference}, {"channel", MagickChannelOptions}, {"invert", MagickBooleanOptions} } }, { "Clamp", { {"channel", MagickChannelOptions} } }, { "BrightnessContrast", { {"levels", StringReference}, {"brightness", RealReference},{"contrast", RealReference}, {"channel", MagickChannelOptions} } }, { "Morphology", { {"kernel", StringReference}, {"channel", MagickChannelOptions}, {"method", MagickMorphologyOptions}, {"iterations", IntegerReference} } }, { "Mode", { {"geometry", StringReference}, {"width", IntegerReference},{"height", IntegerReference}, {"channel", MagickChannelOptions} } }, { "Statistic", { {"geometry", StringReference}, {"width", IntegerReference},{"height", IntegerReference}, {"channel", MagickChannelOptions}, {"type", MagickStatisticOptions} } }, { "Perceptible", { {"epsilon", RealReference}, {"channel", MagickChannelOptions} } }, { "Poly", { {"terms", ArrayReference}, {"channel", MagickChannelOptions} } }, { "Grayscale", { {"method", MagickNoiseOptions} } }, { "CannyEdge", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"lower-percent", RealReference}, {"upper-percent", RealReference} } }, { "HoughLine", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"threshold", IntegerReference} } }, { "MeanShift", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"distance", RealReference} } }, { "Kuwahara", { {"geometry", StringReference}, {"radius", RealReference}, {"sigma", RealReference}, {"channel", MagickChannelOptions} } }, { "ConnectedComponents", { {"connectivity", IntegerReference} } }, { "CopyPixels", { {"image", ImageReference}, {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"x", IntegerReference}, {"y", IntegerReference}, {"gravity", MagickGravityOptions}, {"offset", StringReference}, {"dx", IntegerReference}, {"dy", IntegerReference} } }, { "Color", { {"color", StringReference} } }, { "WaveletDenoise", { {"geometry", StringReference}, {"threshold", RealReference}, {"softness", RealReference}, {"channel", MagickChannelOptions} } }, { "Colorspace", { {"colorspace", MagickColorspaceOptions} } }, { "AutoThreshold", { {"method", MagickAutoThresholdOptions} } }, { "RangeThreshold", { {"geometry", StringReference}, {"low-black", RealReference}, {"low-white", RealReference}, {"high-white", RealReference}, {"high-black", RealReference}, {"channel", MagickChannelOptions} } }, { "CLAHE", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"number-bins", IntegerReference}, {"clip-limit", RealReference} } }, { "Kmeans", { {"geometry", StringReference}, {"colors", IntegerReference}, {"iterations", IntegerReference}, {"tolerance", RealReference} } }, { "ColorThreshold", { {"start-color", StringReference}, {"stop-color", StringReference}, {"channel", MagickChannelOptions} } }, { "WhiteBalance", { { (const char *) NULL, NullReference } } }, { "BilateralBlur", { {"geometry", StringReference}, {"width", IntegerReference}, {"height", IntegerReference}, {"intensity-sigma", RealReference}, {"spatial-sigma", RealReference}, {"channel", MagickChannelOptions} } }, { "SortPixels", { { (const char *) NULL, NullReference } } }, }; static SplayTreeInfo *magick_registry = (SplayTreeInfo *) NULL; /* Forward declarations. */ static Image *SetupList(pTHX_ SV *,struct PackageInfo **,SV ***,ExceptionInfo *); static ssize_t strEQcase(const char *,const char *); /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % C l o n e P a c k a g e I n f o % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ClonePackageInfo makes a duplicate of the given info, or if info is NULL, % a new one. % % The format of the ClonePackageInfo routine is: % % struct PackageInfo *ClonePackageInfo(struct PackageInfo *info, % exception) % % A description of each parameter follows: % % o info: a structure of type info. % % o exception: Return any errors or warnings in this structure. % */ static struct PackageInfo *ClonePackageInfo(struct PackageInfo *info, ExceptionInfo *exception) { struct PackageInfo *clone_info; clone_info=(struct PackageInfo *) AcquireQuantumMemory(1,sizeof(*clone_info)); if (clone_info == (struct PackageInfo *) NULL) { ThrowPerlException(exception,ResourceLimitError, "UnableToClonePackageInfo",PackageName); return((struct PackageInfo *) NULL); } if (info == (struct PackageInfo *) NULL) { clone_info->image_info=CloneImageInfo((ImageInfo *) NULL); return(clone_info); } *clone_info=(*info); clone_info->image_info=CloneImageInfo(info->image_info); return(clone_info); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % c o n s t a n t % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % constant() returns a double value for the specified name. % % The format of the constant routine is: % % double constant(char *name,ssize_t sans) % % A description of each parameter follows: % % o value: Method constant returns a double value for the specified name. % % o name: The name of the constant. % % o sans: This integer value is not used. % */ static double constant(char *name,ssize_t sans) { (void) sans; errno=0; switch (*name) { case 'B': { if (strEQ(name,"BlobError")) return(BlobError); if (strEQ(name,"BlobWarning")) return(BlobWarning); break; } case 'C': { if (strEQ(name,"CacheError")) return(CacheError); if (strEQ(name,"CacheWarning")) return(CacheWarning); if (strEQ(name,"CoderError")) return(CoderError); if (strEQ(name,"CoderWarning")) return(CoderWarning); if (strEQ(name,"ConfigureError")) return(ConfigureError); if (strEQ(name,"ConfigureWarning")) return(ConfigureWarning); if (strEQ(name,"CorruptImageError")) return(CorruptImageError); if (strEQ(name,"CorruptImageWarning")) return(CorruptImageWarning); break; } case 'D': { if (strEQ(name,"DelegateError")) return(DelegateError); if (strEQ(name,"DelegateWarning")) return(DelegateWarning); if (strEQ(name,"DrawError")) return(DrawError); if (strEQ(name,"DrawWarning")) return(DrawWarning); break; } case 'E': { if (strEQ(name,"ErrorException")) return(ErrorException); if (strEQ(name,"ExceptionError")) return(CoderError); if (strEQ(name,"ExceptionWarning")) return(CoderWarning); break; } case 'F': { if (strEQ(name,"FatalErrorException")) return(FatalErrorException); if (strEQ(name,"FileOpenError")) return(FileOpenError); if (strEQ(name,"FileOpenWarning")) return(FileOpenWarning); break; } case 'I': { if (strEQ(name,"ImageError")) return(ImageError); if (strEQ(name,"ImageWarning")) return(ImageWarning); break; } case 'M': { if (strEQ(name,"MaxRGB")) return(QuantumRange); if (strEQ(name,"MissingDelegateError")) return(MissingDelegateError); if (strEQ(name,"MissingDelegateWarning")) return(MissingDelegateWarning); if (strEQ(name,"ModuleError")) return(ModuleError); if (strEQ(name,"ModuleWarning")) return(ModuleWarning); break; } case 'O': { if (strEQ(name,"Opaque")) return(OpaqueAlpha); if (strEQ(name,"OptionError")) return(OptionError); if (strEQ(name,"OptionWarning")) return(OptionWarning); break; } case 'Q': { if (strEQ(name,"MAGICKCORE_QUANTUM_DEPTH")) return(MAGICKCORE_QUANTUM_DEPTH); if (strEQ(name,"QuantumDepth")) return(MAGICKCORE_QUANTUM_DEPTH); if (strEQ(name,"QuantumRange")) return(QuantumRange); break; } case 'R': { if (strEQ(name,"ResourceLimitError")) return(ResourceLimitError); if (strEQ(name,"ResourceLimitWarning")) return(ResourceLimitWarning); if (strEQ(name,"RegistryError")) return(RegistryError); if (strEQ(name,"RegistryWarning")) return(RegistryWarning); break; } case 'S': { if (strEQ(name,"StreamError")) return(StreamError); if (strEQ(name,"StreamWarning")) return(StreamWarning); if (strEQ(name,"Success")) return(0); break; } case 'T': { if (strEQ(name,"Transparent")) return(TransparentAlpha); if (strEQ(name,"TypeError")) return(TypeError); if (strEQ(name,"TypeWarning")) return(TypeWarning); break; } case 'W': { if (strEQ(name,"WarningException")) return(WarningException); break; } case 'X': { if (strEQ(name,"XServerError")) return(XServerError); if (strEQ(name,"XServerWarning")) return(XServerWarning); break; } } errno=EINVAL; return(0); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % D e s t r o y P a c k a g e I n f o % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % Method DestroyPackageInfo frees a previously created info structure. % % The format of the DestroyPackageInfo routine is: % % DestroyPackageInfo(struct PackageInfo *info) % % A description of each parameter follows: % % o info: a structure of type info. % */ static void DestroyPackageInfo(struct PackageInfo *info) { info->image_info=DestroyImageInfo(info->image_info); info=(struct PackageInfo *) RelinquishMagickMemory(info); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % G e t L i s t % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % Method GetList is recursively called by SetupList to traverse the % Image__Magick reference. If building an reference_vector (see SetupList), % *current is the current position in *reference_vector and *last is the final % entry in *reference_vector. % % The format of the GetList routine is: % % GetList(info) % % A description of each parameter follows: % % o info: a structure of type info. % */ static Image *GetList(pTHX_ SV *reference,SV ***reference_vector, ssize_t *current,ssize_t *last,ExceptionInfo *exception) { Image *image; if (reference == (SV *) NULL) return(NULL); switch (SvTYPE(reference)) { case SVt_PVAV: { AV *av; Image *head, *previous; ssize_t i; ssize_t n; /* Array of images. */ previous=(Image *) NULL; head=(Image *) NULL; av=(AV *) reference; n=av_len(av); for (i=0; i <= n; i++) { SV **rv; rv=av_fetch(av,i,0); if (rv && *rv && sv_isobject(*rv)) { image=GetList(aTHX_ SvRV(*rv),reference_vector,current,last, exception); if (image == (Image *) NULL) continue; if (image == previous) { image=CloneImage(image,0,0,MagickTrue,exception); if (image == (Image *) NULL) return(NULL); } image->previous=previous; *(previous ? &previous->next : &head)=image; for (previous=image; previous->next; previous=previous->next) ; } } return(head); } case SVt_PVMG: { /* Blessed scalar, one image. */ image=INT2PTR(Image *,SvIV(reference)); if (image == (Image *) NULL) return(NULL); image->previous=(Image *) NULL; image->next=(Image *) NULL; if (reference_vector) { if (*current == *last) { *last+=256; if (*reference_vector == (SV **) NULL) *reference_vector=(SV **) AcquireQuantumMemory(*last, sizeof(*reference_vector)); else *reference_vector=(SV **) ResizeQuantumMemory(*reference_vector, *last,sizeof(*reference_vector)); } if (*reference_vector == (SV **) NULL) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); return((Image *) NULL); } (*reference_vector)[*current]=reference; (*reference_vector)[++(*current)]=NULL; } return(image); } default: break; } (void) fprintf(stderr,"GetList: UnrecognizedType %.20g\n", (double) SvTYPE(reference)); return((Image *) NULL); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % G e t P a c k a g e I n f o % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % Method GetPackageInfo looks up or creates an info structure for the given % Image__Magick reference. If it does create a new one, the information in % package_info is used to initialize it. % % The format of the GetPackageInfo routine is: % % struct PackageInfo *GetPackageInfo(void *reference, % struct PackageInfo *package_info,ExceptionInfo *exception) % % A description of each parameter follows: % % o info: a structure of type info. % % o exception: Return any errors or warnings in this structure. % */ static struct PackageInfo *GetPackageInfo(pTHX_ void *reference, struct PackageInfo *package_info,ExceptionInfo *exception) { char message[MagickPathExtent]; struct PackageInfo *clone_info; SV *sv; (void) FormatLocaleString(message,MagickPathExtent,"%s::package%s%p", PackageName,XS_VERSION,reference); sv=perl_get_sv(message,(TRUE | 0x02)); if (sv == (SV *) NULL) { ThrowPerlException(exception,ResourceLimitError,"UnableToGetPackageInfo", message); return(package_info); } if (SvREFCNT(sv) == 0) (void) SvREFCNT_inc(sv); if (SvIOKp(sv) && (clone_info=INT2PTR(struct PackageInfo *,SvIV(sv)))) return(clone_info); clone_info=ClonePackageInfo(package_info,exception); sv_setiv(sv,PTR2IV(clone_info)); return(clone_info); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % S e t A t t r i b u t e % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % SetAttribute() sets the attribute to the value in sval. This can change % either or both of image or info. % % The format of the SetAttribute routine is: % % SetAttribute(struct PackageInfo *info,Image *image,char *attribute, % SV *sval,ExceptionInfo *exception) % % A description of each parameter follows: % % o list: a list of strings. % % o string: a character string. % */ static double SiPrefixToDoubleInterval(const char *string,const double interval) { char *q; double value; value=InterpretSiPrefixValue(string,&q); if (*q == '%') value*=interval/100.0; return(value); } static inline double StringToDouble(const char *string,char **sentinal) { return(InterpretLocaleValue(string,sentinal)); } static double StringToDoubleInterval(const char *string,const double interval) { char *q; double value; value=InterpretLocaleValue(string,&q); if (*q == '%') value*=interval/100.0; return(value); } static inline ssize_t StringToLong(const char *value) { return(strtol(value,(char **) NULL,10)); } static void SetAttribute(pTHX_ struct PackageInfo *info,Image *image, const char *attribute,SV *sval,ExceptionInfo *exception) { GeometryInfo geometry_info; long x, y; PixelInfo pixel; MagickStatusType flags; PixelInfo *color, target_color; ssize_t sp; switch (*attribute) { case 'A': case 'a': { if (LocaleCompare(attribute,"adjoin") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(sval,na)); break; } if (info) info->image_info->adjoin=sp != 0 ? MagickTrue : MagickFalse; break; } if (LocaleCompare(attribute,"alpha") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickAlphaChannelOptions, MagickFalse,SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(sval,na)); break; } for ( ; image; image=image->next) (void) SetImageAlphaChannel(image,(AlphaChannelOption) sp, exception); break; } if (LocaleCompare(attribute,"antialias") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(sval,na)); break; } if (info) info->image_info->antialias=sp != 0 ? MagickTrue : MagickFalse; break; } if (LocaleCompare(attribute,"area-limit") == 0) { MagickSizeType limit; limit=MagickResourceInfinity; if (LocaleCompare(SvPV(sval,na),"unlimited") != 0) limit=(MagickSizeType) SiPrefixToDoubleInterval(SvPV(sval,na), 100.0); (void) SetMagickResourceLimit(AreaResource,limit); break; } if (LocaleCompare(attribute,"attenuate") == 0) { if (info) (void) SetImageOption(info->image_info,attribute,SvPV(sval,na)); break; } if (LocaleCompare(attribute,"authenticate") == 0) { if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'B': case 'b': { if (LocaleCompare(attribute,"background") == 0) { (void) QueryColorCompliance(SvPV(sval,na),AllCompliance,&target_color, exception); if (info) info->image_info->background_color=target_color; for ( ; image; image=image->next) image->background_color=target_color; break; } if (LocaleCompare(attribute,"blue-primary") == 0) { for ( ; image; image=image->next) { flags=ParseGeometry(SvPV(sval,na),&geometry_info); image->chromaticity.blue_primary.x=geometry_info.rho; image->chromaticity.blue_primary.y=geometry_info.sigma; if ((flags & SigmaValue) == 0) image->chromaticity.blue_primary.y= image->chromaticity.blue_primary.x; } break; } if (LocaleCompare(attribute,"bordercolor") == 0) { (void) QueryColorCompliance(SvPV(sval,na),AllCompliance,&target_color, exception); if (info) info->image_info->border_color=target_color; for ( ; image; image=image->next) image->border_color=target_color; break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'C': case 'c': { if (LocaleCompare(attribute,"cache-threshold") == 0) { (void) SetMagickResourceLimit(MemoryResource,(MagickSizeType) SiPrefixToDoubleInterval(SvPV(sval,na),100.0)); (void) SetMagickResourceLimit(MapResource,(MagickSizeType) (2.0*SiPrefixToDoubleInterval(SvPV(sval,na),100.0))); break; } if (LocaleCompare(attribute,"clip-mask") == 0) { Image *clip_mask; clip_mask=(Image *) NULL; if (SvPOK(sval)) clip_mask=SetupList(aTHX_ SvRV(sval),&info,(SV ***) NULL,exception); for ( ; image; image=image->next) SetImageMask(image,ReadPixelMask,clip_mask,exception); break; } if (LocaleNCompare(attribute,"colormap",8) == 0) { for ( ; image; image=image->next) { int items; long i; if (image->storage_class == DirectClass) continue; i=0; items=sscanf(attribute,"%*[^[][%ld",&i); (void) items; if (i > (ssize_t) image->colors) i%=image->colors; if ((strchr(SvPV(sval,na),',') == 0) || (strchr(SvPV(sval,na),')') != 0)) QueryColorCompliance(SvPV(sval,na),AllCompliance, image->colormap+i,exception); else { color=image->colormap+i; pixel.red=color->red; pixel.green=color->green; pixel.blue=color->blue; flags=ParseGeometry(SvPV(sval,na),&geometry_info); pixel.red=geometry_info.rho; pixel.green=geometry_info.sigma; pixel.blue=geometry_info.xi; color->red=ClampToQuantum(pixel.red); color->green=ClampToQuantum(pixel.green); color->blue=ClampToQuantum(pixel.blue); } } break; } if (LocaleCompare(attribute,"colorspace") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickColorspaceOptions, MagickFalse,SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedColorspace", SvPV(sval,na)); break; } for ( ; image; image=image->next) (void) SetImageColorspace(image,(ColorspaceType) sp,exception); break; } if (LocaleCompare(attribute,"comment") == 0) { for ( ; image; image=image->next) (void) SetImageProperty(image,"Comment",InterpretImageProperties( info ? info->image_info : (ImageInfo *) NULL,image, SvPV(sval,na),exception),exception); break; } if (LocaleCompare(attribute,"compression") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickCompressOptions, MagickFalse,SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError, "UnrecognizedImageCompression",SvPV(sval,na)); break; } if (info) info->image_info->compression=(CompressionType) sp; for ( ; image; image=image->next) image->compression=(CompressionType) sp; break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'D': case 'd': { if (LocaleCompare(attribute,"debug") == 0) { SetLogEventMask(SvPV(sval,na)); break; } if (LocaleCompare(attribute,"delay") == 0) { flags=ParseGeometry(SvPV(sval,na),&geometry_info); for ( ; image; image=image->next) { image->delay=(size_t) floor(geometry_info.rho+0.5); if ((flags & SigmaValue) != 0) image->ticks_per_second=(ssize_t) floor(geometry_info.sigma+0.5); } break; } if (LocaleCompare(attribute,"disk-limit") == 0) { MagickSizeType limit; limit=MagickResourceInfinity; if (LocaleCompare(SvPV(sval,na),"unlimited") != 0) limit=(MagickSizeType) SiPrefixToDoubleInterval(SvPV(sval,na), 100.0); (void) SetMagickResourceLimit(DiskResource,limit); break; } if (LocaleCompare(attribute,"density") == 0) { if (IsGeometry(SvPV(sval,na)) == MagickFalse) { ThrowPerlException(exception,OptionError,"MissingGeometry", SvPV(sval,na)); break; } if (info) (void) CloneString(&info->image_info->density,SvPV(sval,na)); for ( ; image; image=image->next) { flags=ParseGeometry(SvPV(sval,na),&geometry_info); image->resolution.x=geometry_info.rho; image->resolution.y=geometry_info.sigma; if ((flags & SigmaValue) == 0) image->resolution.y=image->resolution.x; } break; } if (LocaleCompare(attribute,"depth") == 0) { if (info) info->image_info->depth=SvIV(sval); for ( ; image; image=image->next) (void) SetImageDepth(image,SvIV(sval),exception); break; } if (LocaleCompare(attribute,"dispose") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickDisposeOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError, "UnrecognizedDisposeMethod",SvPV(sval,na)); break; } for ( ; image; image=image->next) image->dispose=(DisposeType) sp; break; } if (LocaleCompare(attribute,"dither") == 0) { if (info) { sp=SvPOK(sval) ? ParseCommandOption(MagickBooleanOptions, MagickFalse,SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(sval,na)); break; } info->image_info->dither=sp != 0 ? MagickTrue : MagickFalse; } break; } if (LocaleCompare(attribute,"display") == 0) { display: if (info) (void) CloneString(&info->image_info->server_name,SvPV(sval,na)); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'E': case 'e': { if (LocaleCompare(attribute,"endian") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickEndianOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedEndianType", SvPV(sval,na)); break; } if (info) info->image_info->endian=(EndianType) sp; for ( ; image; image=image->next) image->endian=(EndianType) sp; break; } if (LocaleCompare(attribute,"extract") == 0) { /* Set image extract geometry. */ (void) CloneString(&info->image_info->extract,SvPV(sval,na)); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'F': case 'f': { if (LocaleCompare(attribute,"filename") == 0) { if (info) (void) CopyMagickString(info->image_info->filename,SvPV(sval,na), MagickPathExtent); for ( ; image; image=image->next) (void) CopyMagickString(image->filename,SvPV(sval,na), MagickPathExtent); break; } if (LocaleCompare(attribute,"file") == 0) { FILE *file; PerlIO *io_info; if (info == (struct PackageInfo *) NULL) break; io_info=IoIFP(sv_2io(sval)); if (io_info == (PerlIO *) NULL) { ThrowPerlException(exception,BlobError,"UnableToOpenFile", PackageName); break; } file=PerlIO_findFILE(io_info); if (file == (FILE *) NULL) { ThrowPerlException(exception,BlobError,"UnableToOpenFile", PackageName); break; } SetImageInfoFile(info->image_info,file); break; } if (LocaleCompare(attribute,"fill") == 0) { if (info) (void) SetImageOption(info->image_info,"fill",SvPV(sval,na)); break; } if (LocaleCompare(attribute,"font") == 0) { if (info) (void) CloneString(&info->image_info->font,SvPV(sval,na)); break; } if (LocaleCompare(attribute,"foreground") == 0) break; if (LocaleCompare(attribute,"fuzz") == 0) { if (info) info->image_info->fuzz=StringToDoubleInterval(SvPV(sval,na),(double) QuantumRange+1.0); for ( ; image; image=image->next) image->fuzz=StringToDoubleInterval(SvPV(sval,na),(double) QuantumRange+1.0); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'G': case 'g': { if (LocaleCompare(attribute,"gamma") == 0) { for ( ; image; image=image->next) image->gamma=SvNV(sval); break; } if (LocaleCompare(attribute,"gravity") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickGravityOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError, "UnrecognizedGravityType",SvPV(sval,na)); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) image->gravity=(GravityType) sp; break; } if (LocaleCompare(attribute,"green-primary") == 0) { for ( ; image; image=image->next) { flags=ParseGeometry(SvPV(sval,na),&geometry_info); image->chromaticity.green_primary.x=geometry_info.rho; image->chromaticity.green_primary.y=geometry_info.sigma; if ((flags & SigmaValue) == 0) image->chromaticity.green_primary.y= image->chromaticity.green_primary.x; } break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'I': case 'i': { if (LocaleNCompare(attribute,"index",5) == 0) { int items; long index; Quantum *q; CacheView *image_view; for ( ; image; image=image->next) { if (image->storage_class != PseudoClass) continue; x=0; y=0; items=sscanf(attribute,"%*[^[][%ld%*[,/]%ld",&x,&y); (void) items; image_view=AcquireAuthenticCacheView(image,exception); q=GetCacheViewAuthenticPixels(image_view,x,y,1,1,exception); if (q != (Quantum *) NULL) { items=sscanf(SvPV(sval,na),"%ld",&index); if ((index >= 0) && (index < (ssize_t) image->colors)) SetPixelIndex(image,index,q); (void) SyncCacheViewAuthenticPixels(image_view,exception); } image_view=DestroyCacheView(image_view); } break; } if (LocaleCompare(attribute,"iterations") == 0) { iterations: for ( ; image; image=image->next) image->iterations=SvIV(sval); break; } if (LocaleCompare(attribute,"interlace") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickInterlaceOptions, MagickFalse,SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError, "UnrecognizedInterlaceType",SvPV(sval,na)); break; } if (info) info->image_info->interlace=(InterlaceType) sp; for ( ; image; image=image->next) image->interlace=(InterlaceType) sp; break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) SetImageProperty(image,attribute,SvPV(sval,na),exception); break; } case 'L': case 'l': { if (LocaleCompare(attribute,"label") == 0) { for ( ; image; image=image->next) (void) SetImageProperty(image,"label",InterpretImageProperties( info ? info->image_info : (ImageInfo *) NULL,image, SvPV(sval,na),exception),exception); break; } if (LocaleCompare(attribute,"loop") == 0) goto iterations; if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'M': case 'm': { if (LocaleCompare(attribute,"magick") == 0) { if (info) (void) FormatLocaleString(info->image_info->filename, MagickPathExtent,"%s:",SvPV(sval,na)); for ( ; image; image=image->next) (void) CopyMagickString(image->magick,SvPV(sval,na), MagickPathExtent); break; } if (LocaleCompare(attribute,"map-limit") == 0) { MagickSizeType limit; limit=MagickResourceInfinity; if (LocaleCompare(SvPV(sval,na),"unlimited") != 0) limit=(MagickSizeType) SiPrefixToDoubleInterval(SvPV(sval,na), 100.0); (void) SetMagickResourceLimit(MapResource,limit); break; } if (LocaleCompare(attribute,"mask") == 0) { Image *mask; mask=(Image *) NULL; if (SvPOK(sval)) mask=SetupList(aTHX_ SvRV(sval),&info,(SV ***) NULL,exception); for ( ; image; image=image->next) SetImageMask(image,ReadPixelMask,mask,exception); break; } if (LocaleCompare(attribute,"mattecolor") == 0) { (void) QueryColorCompliance(SvPV(sval,na),AllCompliance,&target_color, exception); if (info) info->image_info->alpha_color=target_color; for ( ; image; image=image->next) image->alpha_color=target_color; break; } if (LocaleCompare(attribute,"matte") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(sval,na)); break; } for ( ; image; image=image->next) image->alpha_trait=sp != 0 ? BlendPixelTrait : UndefinedPixelTrait; break; } if (LocaleCompare(attribute,"memory-limit") == 0) { MagickSizeType limit; limit=MagickResourceInfinity; if (LocaleCompare(SvPV(sval,na),"unlimited") != 0) limit=(MagickSizeType) SiPrefixToDoubleInterval(SvPV(sval,na), 100.0); (void) SetMagickResourceLimit(MemoryResource,limit); break; } if (LocaleCompare(attribute,"monochrome") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(sval,na)); break; } if (info) info->image_info->monochrome=sp != 0 ? MagickTrue : MagickFalse; for ( ; image; image=image->next) (void) SetImageType(image,BilevelType,exception); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'O': case 'o': { if (LocaleCompare(attribute,"option") == 0) { if (info) DefineImageOption(info->image_info,SvPV(sval,na)); break; } if (LocaleCompare(attribute,"orientation") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickOrientationOptions, MagickFalse,SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError, "UnrecognizedOrientationType",SvPV(sval,na)); break; } if (info) info->image_info->orientation=(OrientationType) sp; for ( ; image; image=image->next) image->orientation=(OrientationType) sp; break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'P': case 'p': { if (LocaleCompare(attribute,"page") == 0) { char *geometry; geometry=GetPageGeometry(SvPV(sval,na)); if (info) (void) CloneString(&info->image_info->page,geometry); for ( ; image; image=image->next) (void) ParsePageGeometry(image,geometry,&image->page,exception); geometry=(char *) RelinquishMagickMemory(geometry); break; } if (LocaleNCompare(attribute,"pixel",5) == 0) { int items; PixelInfo pixel; Quantum *q; CacheView *image_view; for ( ; image; image=image->next) { if (SetImageStorageClass(image,DirectClass,exception) == MagickFalse) break; x=0; y=0; items=sscanf(attribute,"%*[^[][%ld%*[,/]%ld",&x,&y); (void) items; image_view=AcquireVirtualCacheView(image,exception); q=GetCacheViewAuthenticPixels(image_view,x,y,1,1,exception); if (q != (Quantum *) NULL) { if ((strchr(SvPV(sval,na),',') == 0) || (strchr(SvPV(sval,na),')') != 0)) QueryColorCompliance(SvPV(sval,na),AllCompliance, &pixel,exception); else { GetPixelInfo(image,&pixel); flags=ParseGeometry(SvPV(sval,na),&geometry_info); pixel.red=geometry_info.rho; if ((flags & SigmaValue) != 0) pixel.green=geometry_info.sigma; if ((flags & XiValue) != 0) pixel.blue=geometry_info.xi; if ((flags & PsiValue) != 0) pixel.alpha=geometry_info.psi; if ((flags & ChiValue) != 0) pixel.black=geometry_info.chi; } SetPixelRed(image,ClampToQuantum(pixel.red),q); SetPixelGreen(image,ClampToQuantum(pixel.green),q); SetPixelBlue(image,ClampToQuantum(pixel.blue),q); if (image->colorspace == CMYKColorspace) SetPixelBlack(image,ClampToQuantum(pixel.black),q); SetPixelAlpha(image,ClampToQuantum(pixel.alpha),q); (void) SyncCacheViewAuthenticPixels(image_view,exception); } image_view=DestroyCacheView(image_view); } break; } if (LocaleCompare(attribute,"pointsize") == 0) { if (info) { (void) ParseGeometry(SvPV(sval,na),&geometry_info); info->image_info->pointsize=geometry_info.rho; } break; } if (LocaleCompare(attribute,"precision") == 0) { (void) SetMagickPrecision(SvIV(sval)); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'Q': case 'q': { if (LocaleCompare(attribute,"quality") == 0) { if (info) info->image_info->quality=SvIV(sval); for ( ; image; image=image->next) image->quality=SvIV(sval); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'R': case 'r': { if (LocaleCompare(attribute,"read-mask") == 0) { Image *mask; mask=(Image *) NULL; if (SvPOK(sval)) mask=SetupList(aTHX_ SvRV(sval),&info,(SV ***) NULL,exception); for ( ; image; image=image->next) SetImageMask(image,ReadPixelMask,mask,exception); break; } if (LocaleCompare(attribute,"red-primary") == 0) { for ( ; image; image=image->next) { flags=ParseGeometry(SvPV(sval,na),&geometry_info); image->chromaticity.red_primary.x=geometry_info.rho; image->chromaticity.red_primary.y=geometry_info.sigma; if ((flags & SigmaValue) == 0) image->chromaticity.red_primary.y= image->chromaticity.red_primary.x; } break; } if (LocaleCompare(attribute,"render") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickIntentOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedIntentType", SvPV(sval,na)); break; } for ( ; image; image=image->next) image->rendering_intent=(RenderingIntent) sp; break; } if (LocaleCompare(attribute,"repage") == 0) { RectangleInfo geometry; for ( ; image; image=image->next) { flags=ParseAbsoluteGeometry(SvPV(sval,na),&geometry); if ((flags & WidthValue) != 0) { if ((flags & HeightValue) == 0) geometry.height=geometry.width; image->page.width=geometry.width; image->page.height=geometry.height; } if ((flags & AspectValue) != 0) { if ((flags & XValue) != 0) image->page.x+=geometry.x; if ((flags & YValue) != 0) image->page.y+=geometry.y; } else { if ((flags & XValue) != 0) { image->page.x=geometry.x; if (((flags & WidthValue) != 0) && (geometry.x > 0)) image->page.width=image->columns+geometry.x; } if ((flags & YValue) != 0) { image->page.y=geometry.y; if (((flags & HeightValue) != 0) && (geometry.y > 0)) image->page.height=image->rows+geometry.y; } } } break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'S': case 's': { if (LocaleCompare(attribute,"sampling-factor") == 0) { if (IsGeometry(SvPV(sval,na)) == MagickFalse) { ThrowPerlException(exception,OptionError,"MissingGeometry", SvPV(sval,na)); break; } if (info) (void) CloneString(&info->image_info->sampling_factor, SvPV(sval,na)); break; } if (LocaleCompare(attribute,"scene") == 0) { for ( ; image; image=image->next) image->scene=SvIV(sval); break; } if (LocaleCompare(attribute,"server") == 0) goto display; if (LocaleCompare(attribute,"size") == 0) { if (info) { if (IsGeometry(SvPV(sval,na)) == MagickFalse) { ThrowPerlException(exception,OptionError,"MissingGeometry", SvPV(sval,na)); break; } (void) CloneString(&info->image_info->size,SvPV(sval,na)); } break; } if (LocaleCompare(attribute,"stroke") == 0) { if (info) (void) SetImageOption(info->image_info,"stroke",SvPV(sval,na)); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'T': case 't': { if (LocaleCompare(attribute,"texture") == 0) { if (info) (void) CloneString(&info->image_info->texture,SvPV(sval,na)); break; } if (LocaleCompare(attribute,"thread-limit") == 0) { MagickSizeType limit; limit=MagickResourceInfinity; if (LocaleCompare(SvPV(sval,na),"unlimited") != 0) limit=(MagickSizeType) SiPrefixToDoubleInterval(SvPV(sval,na), 100.0); (void) SetMagickResourceLimit(ThreadResource,limit); break; } if (LocaleCompare(attribute,"tile-offset") == 0) { char *geometry; geometry=GetPageGeometry(SvPV(sval,na)); if (info) (void) CloneString(&info->image_info->page,geometry); for ( ; image; image=image->next) (void) ParsePageGeometry(image,geometry,&image->tile_offset, exception); geometry=(char *) RelinquishMagickMemory(geometry); break; } if (LocaleCompare(attribute,"time-limit") == 0) { MagickSizeType limit; limit=MagickResourceInfinity; if (LocaleCompare(SvPV(sval,na),"unlimited") != 0) limit=(MagickSizeType) SiPrefixToDoubleInterval(SvPV(sval,na), 100.0); (void) SetMagickResourceLimit(TimeResource,limit); break; } if (LocaleCompare(attribute,"transparent-color") == 0) { (void) QueryColorCompliance(SvPV(sval,na),AllCompliance,&target_color, exception); if (info) info->image_info->transparent_color=target_color; for ( ; image; image=image->next) image->transparent_color=target_color; break; } if (LocaleCompare(attribute,"type") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickTypeOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(sval,na)); break; } if (info) info->image_info->type=(ImageType) sp; for ( ; image; image=image->next) SetImageType(image,(ImageType) sp,exception); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'U': case 'u': { if (LocaleCompare(attribute,"units") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickResolutionOptions, MagickFalse,SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedUnitsType", SvPV(sval,na)); break; } if (info) info->image_info->units=(ResolutionType) sp; for ( ; image; image=image->next) { ResolutionType units; units=(ResolutionType) sp; if (image->units != units) switch (image->units) { case UndefinedResolution: case PixelsPerInchResolution: { if (units == PixelsPerCentimeterResolution) { image->resolution.x*=2.54; image->resolution.y*=2.54; } break; } case PixelsPerCentimeterResolution: { if (units == PixelsPerInchResolution) { image->resolution.x/=2.54; image->resolution.y/=2.54; } break; } } image->units=units; } break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'V': case 'v': { if (LocaleCompare(attribute,"verbose") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(sval,na)); break; } if (info) info->image_info->verbose=sp != 0 ? MagickTrue : MagickFalse; break; } if (LocaleCompare(attribute,"virtual-pixel") == 0) { sp=SvPOK(sval) ? ParseCommandOption(MagickVirtualPixelOptions, MagickFalse,SvPV(sval,na)) : SvIV(sval); if (sp < 0) { ThrowPerlException(exception,OptionError, "UnrecognizedVirtualPixelMethod",SvPV(sval,na)); break; } for ( ; image; image=image->next) SetImageVirtualPixelMethod(image,(VirtualPixelMethod) sp,exception); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } case 'W': case 'w': { if (LocaleCompare(attribute,"white-point") == 0) { for ( ; image; image=image->next) { flags=ParseGeometry(SvPV(sval,na),&geometry_info); image->chromaticity.white_point.x=geometry_info.rho; image->chromaticity.white_point.y=geometry_info.sigma; if ((flags & SigmaValue) == 0) image->chromaticity.white_point.y= image->chromaticity.white_point.x; } break; } if (LocaleCompare(attribute,"write-mask") == 0) { Image *mask; mask=(Image *) NULL; if (SvPOK(sval)) mask=SetupList(aTHX_ SvRV(sval),&info,(SV ***) NULL,exception); for ( ; image; image=image->next) SetImageMask(image,WritePixelMask,mask,exception); break; } if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } default: { if (info) SetImageOption(info->image_info,attribute,SvPV(sval,na)); for ( ; image; image=image->next) { (void) SetImageProperty(image,attribute,SvPV(sval,na),exception); (void) SetImageArtifact(image,attribute,SvPV(sval,na)); } break; } } } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % S e t u p L i s t % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % Method SetupList returns the list of all the images linked by their % image->next and image->previous link lists for use with ImageMagick. If % info is non-NULL, an info structure is returned in *info. If % reference_vector is non-NULL,an array of SV* are returned in % *reference_vector. Reference_vector is used when the images are going to be % replaced with new Image*'s. % % The format of the SetupList routine is: % % Image *SetupList(SV *reference,struct PackageInfo **info, % SV ***reference_vector,ExceptionInfo *exception) % % A description of each parameter follows: % % o list: a list of strings. % % o string: a character string. % % o exception: Return any errors or warnings in this structure. % */ static Image *SetupList(pTHX_ SV *reference,struct PackageInfo **info, SV ***reference_vector,ExceptionInfo *exception) { Image *image; ssize_t current, last; if (reference_vector) *reference_vector=NULL; if (info) *info=NULL; current=0; last=0; image=GetList(aTHX_ reference,reference_vector,¤t,&last,exception); if (info && (SvTYPE(reference) == SVt_PVAV)) *info=GetPackageInfo(aTHX_ (void *) reference,(struct PackageInfo *) NULL, exception); return(image); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % s t r E Q c a s e % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % strEQcase() compares two strings and returns 0 if they are the % same or if the second string runs out first. The comparison is case % insensitive. % % The format of the strEQcase routine is: % % ssize_t strEQcase(const char *p,const char *q) % % A description of each parameter follows: % % o p: a character string. % % o q: a character string. % % */ static ssize_t strEQcase(const char *p,const char *q) { char c; ssize_t i; for (i=0 ; (c=(*q)) != 0; i++) { if ((isUPPER((unsigned char) c) ? toLOWER(c) : c) != (isUPPER((unsigned char) *p) ? toLOWER(*p) : *p)) return(0); p++; q++; } return(((*q == 0) && (*p == 0)) ? i : 0); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % I m a g e : : M a g i c k % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % */ MODULE = Image::Magick::@MAGICK_ABI_SUFFIX@ PACKAGE = Image::Magick::@MAGICK_ABI_SUFFIX@ PROTOTYPES: ENABLE BOOT: MagickCoreGenesis("PerlMagick",MagickFalse); SetWarningHandler(NULL); SetErrorHandler(NULL); magick_registry=NewSplayTree((int (*)(const void *,const void *)) NULL,(void *(*)(void *)) NULL,(void *(*)(void *)) NULL); void UNLOAD() PPCODE: { if (magick_registry != (SplayTreeInfo *) NULL) magick_registry=DestroySplayTree(magick_registry); MagickCoreTerminus(); } double constant(name,argument) char *name ssize_t argument # ############################################################################### # # # # # # # A n i m a t e # # # # # # # ############################################################################### # # void Animate(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: AnimateImage = 1 animate = 2 animateimage = 3 PPCODE: { ExceptionInfo *exception; Image *image; ssize_t i; struct PackageInfo *info, *package_info; SV *perl_exception, *reference; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); package_info=(struct PackageInfo *) NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } package_info=ClonePackageInfo(info,exception); if (items == 2) SetAttribute(aTHX_ package_info,NULL,"server",ST(1),exception); else if (items > 2) for (i=2; i < items; i+=2) SetAttribute(aTHX_ package_info,image,SvPV(ST(i-1),na),ST(i), exception); (void) AnimateImages(package_info->image_info,image,exception); (void) CatchImageException(image); PerlException: if (package_info != (struct PackageInfo *) NULL) DestroyPackageInfo(package_info); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # A p p e n d # # # # # # # ############################################################################### # # void Append(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: AppendImage = 1 append = 2 appendimage = 3 PPCODE: { AV *av; char *attribute; ExceptionInfo *exception; HV *hv; Image *image; ssize_t i; ssize_t stack; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; attribute=NULL; av=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } info=GetPackageInfo(aTHX_ (void *) av,info,exception); /* Get options. */ stack=MagickTrue; for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'S': case 's': { if (LocaleCompare(attribute,"stack") == 0) { stack=ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(ST(i),na)); if (stack < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); return; } break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } image=AppendImages(image,stack != 0 ? MagickTrue : MagickFalse,exception); if (image == (Image *) NULL) goto PerlException; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # A v e r a g e # # # # # # # ############################################################################### # # void Average(ref) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: AverageImage = 1 average = 2 averageimage = 3 PPCODE: { AV *av; char *p; ExceptionInfo *exception; HV *hv; Image *image; struct PackageInfo *info; SV *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } image=EvaluateImages(image,MeanEvaluateOperator,exception); if (image == (Image *) NULL) goto PerlException; /* Create blessed Perl array for the returned image. */ av=newAV(); ST(0)=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); info=GetPackageInfo(aTHX_ (void *) av,info,exception); (void) FormatLocaleString(info->image_info->filename,MagickPathExtent, "average-%.*s",(int) (MagickPathExtent-9), ((p=strrchr(image->filename,'/')) ? p+1 : image->filename)); (void) CopyMagickString(image->filename,info->image_info->filename, MagickPathExtent); SetImageInfo(info->image_info,0,exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # B l o b T o I m a g e # # # # # # # ############################################################################### # # void BlobToImage(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: BlobToImage = 1 blobtoimage = 2 blobto = 3 PPCODE: { AV *av; char **keep, **list; ExceptionInfo *exception; HV *hv; Image *image; char **p; ssize_t i; ssize_t ac, n, number_images; STRLEN *length; struct PackageInfo *info; SV *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; number_images=0; ac=(items < 2) ? 1 : items-1; length=(STRLEN *) NULL; list=(char **) AcquireQuantumMemory((size_t) ac+1UL,sizeof(*list)); if (list == (char **) NULL) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } length=(STRLEN *) AcquireQuantumMemory((size_t) ac+1UL,sizeof(*length)); if (length == (STRLEN *) NULL) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); if (SvTYPE(reference) != SVt_PVAV) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); n=1; if (items <= 1) { ThrowPerlException(exception,OptionError,"NoBlobDefined",PackageName); goto PerlException; } for (n=0, i=0; i < ac; i++) { list[n]=(char *) (SvPV(ST(i+1),length[n])); if ((items >= 3) && strEQcase((char *) SvPV(ST(i+1),na),"blob")) { list[n]=(char *) (SvPV(ST(i+2),length[n])); continue; } n++; } list[n]=(char *) NULL; keep=list; for (i=number_images=0; i < n; i++) { image=BlobToImage(info->image_info,list[i],length[i],exception); if (image == (Image *) NULL) break; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); number_images++; } } /* Free resources. */ for (i=0; i < n; i++) if (list[i] != (char *) NULL) for (p=keep; list[i] != *p++; ) if (*p == (char *) NULL) { list[i]=(char *) RelinquishMagickMemory(list[i]); break; } PerlException: if (list) list=(char **) RelinquishMagickMemory(list); if (length) length=(STRLEN *) RelinquishMagickMemory(length); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) number_images); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # C h a n n e l F x # # # # # # # ############################################################################### # # void ChannelFx(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: ChannelFxImage = 1 channelfx = 2 channelfximage = 3 PPCODE: { AV *av; char *attribute, expression[MagickPathExtent]; ChannelType channel, channel_mask; ExceptionInfo *exception; HV *hv; Image *image; ssize_t i; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; attribute=NULL; av=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } info=GetPackageInfo(aTHX_ (void *) av,info,exception); /* Get options. */ channel=DefaultChannels; (void) CopyMagickString(expression,"u",MagickPathExtent); if (items == 2) (void) CopyMagickString(expression,(char *) SvPV(ST(1),na),MagickPathExtent); else for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'C': case 'c': { if (LocaleCompare(attribute,"channel") == 0) { ssize_t option; option=ParseChannelOption(SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError, "UnrecognizedType",SvPV(ST(i),na)); return; } channel=(ChannelType) option; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'E': case 'e': { if (LocaleCompare(attribute,"expression") == 0) { (void) CopyMagickString(expression,SvPV(ST(i),na), MagickPathExtent); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } channel_mask=SetImageChannelMask(image,channel); image=ChannelFxImage(image,expression,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); if (image == (Image *) NULL) goto PerlException; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); /* can't return warning messages */ XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # C l o n e # # # # # # # ############################################################################### # # void Clone(ref) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: CopyImage = 1 copy = 2 copyimage = 3 CloneImage = 4 clone = 5 cloneimage = 6 Clone = 7 PPCODE: { AV *av; ExceptionInfo *exception; HV *hv; Image *clone, *image; struct PackageInfo *info; SV *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } /* Create blessed Perl array for the returned image. */ av=newAV(); ST(0)=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); for ( ; image; image=image->next) { clone=CloneImage(image,0,0,MagickTrue,exception); if (clone == (Image *) NULL) break; AddImageToRegistry(sv,clone); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # C L O N E # # # # # # # ############################################################################### # # void CLONE(ref,...) SV *ref; CODE: { PERL_UNUSED_VAR(ref); if (magick_registry != (SplayTreeInfo *) NULL) { Image *p; ResetSplayTreeIterator(magick_registry); p=(Image *) GetNextKeyInSplayTree(magick_registry); while (p != (Image *) NULL) { ReferenceImage(p); p=(Image *) GetNextKeyInSplayTree(magick_registry); } } } # ############################################################################### # # # # # # # C o a l e s c e # # # # # # # ############################################################################### # # void Coalesce(ref) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: CoalesceImage = 1 coalesce = 2 coalesceimage = 3 PPCODE: { AV *av; ExceptionInfo *exception; HV *hv; Image *image; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } image=CoalesceImages(image,exception); if (image == (Image *) NULL) goto PerlException; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # C o m p a r e # # # # # # # ############################################################################### # # void Compare(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: CompareImages = 1 compare = 2 compareimage = 3 PPCODE: { AV *av; char *attribute; double distortion; ExceptionInfo *exception; HV *hv; Image *difference_image, *image, *reconstruct_image; MetricType metric; ssize_t i; ssize_t option; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; av=NULL; attribute=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } info=GetPackageInfo(aTHX_ (void *) av,info,exception); /* Get attribute. */ reconstruct_image=image; metric=RootMeanSquaredErrorMetric; for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'C': case 'c': { if (LocaleCompare(attribute,"channel") == 0) { ssize_t option; option=ParseChannelOption(SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError, "UnrecognizedType",SvPV(ST(i),na)); return; } (void) SetPixelChannelMask(image,(ChannelType) option); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'F': case 'f': { if (LocaleCompare(attribute,"fuzz") == 0) { image->fuzz=StringToDoubleInterval(SvPV(ST(i),na),100.0); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'I': case 'i': { if (LocaleCompare(attribute,"image") == 0) { reconstruct_image=SetupList(aTHX_ SvRV(ST(i)), (struct PackageInfo **) NULL,(SV ***) NULL,exception); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'M': case 'm': { if (LocaleCompare(attribute,"metric") == 0) { option=ParseCommandOption(MagickMetricOptions,MagickFalse, SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } metric=(MetricType) option; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } difference_image=CompareImages(image,reconstruct_image,metric,&distortion, exception); if (difference_image != (Image *) NULL) { difference_image->error.mean_error_per_pixel=distortion; AddImageToRegistry(sv,difference_image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); /* can't return warning messages */ XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # C o m p l e x I m a g e s # # # # # # # ############################################################################### # # void ComplexImages(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: ComplexImages = 1 compleximages = 2 PPCODE: { AV *av; char *attribute, *p; ComplexOperator op; ExceptionInfo *exception; HV *hv; Image *image; ssize_t i; struct PackageInfo *info; SV *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } op=UndefinedComplexOperator; if (items == 2) { ssize_t in; in=ParseCommandOption(MagickComplexOptions,MagickFalse,(char *) SvPV(ST(1),na)); if (in < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(1),na)); return; } op=(ComplexOperator) in; } else for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'O': case 'o': { if (LocaleCompare(attribute,"operator") == 0) { ssize_t in; in=!SvPOK(ST(i)) ? SvIV(ST(i)) : ParseCommandOption( MagickComplexOptions,MagickFalse,SvPV(ST(i),na)); if (in < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); return; } op=(ComplexOperator) in; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } image=ComplexImages(image,op,exception); if (image == (Image *) NULL) goto PerlException; /* Create blessed Perl array for the returned image. */ av=newAV(); ST(0)=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); info=GetPackageInfo(aTHX_ (void *) av,info,exception); (void) FormatLocaleString(info->image_info->filename,MagickPathExtent, "complex-%.*s",(int) (MagickPathExtent-9), ((p=strrchr(image->filename,'/')) ? p+1 : image->filename)); (void) CopyMagickString(image->filename,info->image_info->filename, MagickPathExtent); SetImageInfo(info->image_info,0,exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # C o m p a r e L a y e r s # # # # # # # ############################################################################### # # void CompareLayers(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: CompareImagesLayers = 1 comparelayers = 2 compareimagelayers = 3 PPCODE: { AV *av; char *attribute; ExceptionInfo *exception; HV *hv; Image *image; LayerMethod method; ssize_t i; ssize_t option; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } method=CompareAnyLayer; for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'M': case 'm': { if (LocaleCompare(attribute,"method") == 0) { option=ParseCommandOption(MagickLayerOptions,MagickFalse, SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } method=(LayerMethod) option; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } image=CompareImagesLayers(image,method,exception); if (image == (Image *) NULL) goto PerlException; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # D e s t r o y # # # # # # # ############################################################################### # # void DESTROY(ref) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT PPCODE: { SV *reference; PERL_UNUSED_VAR(ref); if (sv_isobject(ST(0)) == 0) croak("ReferenceIsNotMyType"); reference=SvRV(ST(0)); switch (SvTYPE(reference)) { case SVt_PVAV: { char message[MagickPathExtent]; const SV *key; HV *hv; GV **gvp; struct PackageInfo *info; SV *sv; /* Array (AV *) reference */ (void) FormatLocaleString(message,MagickPathExtent,"package%s%p", XS_VERSION,reference); hv=gv_stashpv(PackageName, FALSE); if (!hv) break; gvp=(GV **) hv_fetch(hv,message,(long) strlen(message),FALSE); if (!gvp) break; sv=GvSV(*gvp); if (sv && (SvREFCNT(sv) == 1) && SvIOK(sv)) { info=INT2PTR(struct PackageInfo *,SvIV(sv)); DestroyPackageInfo(info); } key=hv_delete(hv,message,(long) strlen(message),G_DISCARD); (void) key; break; } case SVt_PVMG: { Image *image; /* Blessed scalar = (Image *) SvIV(reference) */ image=INT2PTR(Image *,SvIV(reference)); if (image != (Image *) NULL) DeleteImageFromRegistry(reference,image); break; } default: break; } } # ############################################################################### # # # # # # # D i s p l a y # # # # # # # ############################################################################### # # void Display(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: DisplayImage = 1 display = 2 displayimage = 3 PPCODE: { ExceptionInfo *exception; Image *image; ssize_t i; struct PackageInfo *info, *package_info; SV *perl_exception, *reference; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); package_info=(struct PackageInfo *) NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } package_info=ClonePackageInfo(info,exception); if (items == 2) SetAttribute(aTHX_ package_info,NULL,"server",ST(1),exception); else if (items > 2) for (i=2; i < items; i+=2) SetAttribute(aTHX_ package_info,image,SvPV(ST(i-1),na),ST(i), exception); (void) DisplayImages(package_info->image_info,image,exception); (void) CatchImageException(image); PerlException: if (package_info != (struct PackageInfo *) NULL) DestroyPackageInfo(package_info); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # E v a l u a t e I m a g e s # # # # # # # ############################################################################### # # void EvaluateImages(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: EvaluateImages = 1 evaluateimages = 2 PPCODE: { AV *av; char *attribute, *p; ExceptionInfo *exception; HV *hv; Image *image; MagickEvaluateOperator op; ssize_t i; struct PackageInfo *info; SV *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } op=MeanEvaluateOperator; if (items == 2) { ssize_t in; in=ParseCommandOption(MagickEvaluateOptions,MagickFalse,(char *) SvPV(ST(1),na)); if (in < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(1),na)); return; } op=(MagickEvaluateOperator) in; } else for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'O': case 'o': { if (LocaleCompare(attribute,"operator") == 0) { ssize_t in; in=!SvPOK(ST(i)) ? SvIV(ST(i)) : ParseCommandOption( MagickEvaluateOptions,MagickFalse,SvPV(ST(i),na)); if (in < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); return; } op=(MagickEvaluateOperator) in; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } image=EvaluateImages(image,op,exception); if (image == (Image *) NULL) goto PerlException; /* Create blessed Perl array for the returned image. */ av=newAV(); ST(0)=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); info=GetPackageInfo(aTHX_ (void *) av,info,exception); (void) FormatLocaleString(info->image_info->filename,MagickPathExtent, "evaluate-%.*s",(int) (MagickPathExtent-9), ((p=strrchr(image->filename,'/')) ? p+1 : image->filename)); (void) CopyMagickString(image->filename,info->image_info->filename, MagickPathExtent); SetImageInfo(info->image_info,0,exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # F e a t u r e s # # # # # # # ############################################################################### # # void Features(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: FeaturesImage = 1 features = 2 featuresimage = 3 PPCODE: { #define ChannelFeatures(channel,direction) \ { \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].angular_second_moment[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].contrast[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].contrast[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].variance_sum_of_squares[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].inverse_difference_moment[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].sum_average[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].sum_variance[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].sum_entropy[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].entropy[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].difference_variance[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].difference_entropy[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].measure_of_correlation_1[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].measure_of_correlation_2[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_features[channel].maximum_correlation_coefficient[direction]); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ } AV *av; char *attribute, message[MagickPathExtent]; ChannelFeatures *channel_features; double distance; ExceptionInfo *exception; Image *image; ssize_t i; ssize_t count; struct PackageInfo *info; SV *perl_exception, *reference; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); av=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); av=newAV(); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } distance=1.0; for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'D': case 'd': { if (LocaleCompare(attribute,"distance") == 0) { distance=StringToLong((char *) SvPV(ST(1),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } count=0; for ( ; image; image=image->next) { ssize_t j; channel_features=GetImageFeatures(image,distance,exception); if (channel_features == (ChannelFeatures *) NULL) continue; count++; for (j=0; j < 4; j++) { for (i=0; i < (ssize_t) GetPixelChannels(image); i++) { PixelChannel channel=GetPixelChannelChannel(image,i); PixelTrait traits=GetPixelChannelTraits(image,channel); if (traits == UndefinedPixelTrait) continue; EXTEND(sp,14*(i+1)*count); ChannelFeatures(channel,j); } } channel_features=(ChannelFeatures *) RelinquishMagickMemory(channel_features); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # F l a t t e n # # # # # # # ############################################################################### # # void Flatten(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: FlattenImage = 1 flatten = 2 flattenimage = 3 PPCODE: { AV *av; char *attribute, *p; ExceptionInfo *exception; HV *hv; Image *image; PixelInfo background_color; ssize_t i; struct PackageInfo *info; SV *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } background_color=image->background_color; if (items == 2) (void) QueryColorCompliance((char *) SvPV(ST(1),na),AllCompliance, &background_color,exception); else for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'B': case 'b': { if (LocaleCompare(attribute,"background") == 0) { (void) QueryColorCompliance((char *) SvPV(ST(1),na), AllCompliance,&background_color,exception); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } image->background_color=background_color; image=MergeImageLayers(image,FlattenLayer,exception); if (image == (Image *) NULL) goto PerlException; /* Create blessed Perl array for the returned image. */ av=newAV(); ST(0)=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); info=GetPackageInfo(aTHX_ (void *) av,info,exception); (void) FormatLocaleString(info->image_info->filename,MagickPathExtent, "flatten-%.*s",(int) (MagickPathExtent-9), ((p=strrchr(image->filename,'/')) ? p+1 : image->filename)); (void) CopyMagickString(image->filename,info->image_info->filename, MagickPathExtent); SetImageInfo(info->image_info,0,exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); /* return messages in string context */ ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # F x # # # # # # # ############################################################################### # # void Fx(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: FxImage = 1 fx = 2 fximage = 3 PPCODE: { AV *av; char *attribute, expression[MagickPathExtent]; ChannelType channel, channel_mask; ExceptionInfo *exception; HV *hv; Image *image; ssize_t i; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; attribute=NULL; av=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } info=GetPackageInfo(aTHX_ (void *) av,info,exception); /* Get options. */ channel=DefaultChannels; (void) CopyMagickString(expression,"u",MagickPathExtent); if (items == 2) (void) CopyMagickString(expression,(char *) SvPV(ST(1),na), MagickPathExtent); else for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'C': case 'c': { if (LocaleCompare(attribute,"channel") == 0) { ssize_t option; option=ParseChannelOption(SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError, "UnrecognizedType",SvPV(ST(i),na)); return; } channel=(ChannelType) option; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'E': case 'e': { if (LocaleCompare(attribute,"expression") == 0) { (void) CopyMagickString(expression,SvPV(ST(i),na), MagickPathExtent); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } channel_mask=SetImageChannelMask(image,channel); image=FxImage(image,expression,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); if (image == (Image *) NULL) goto PerlException; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); /* can't return warning messages */ XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # G e t # # # # # # # ############################################################################### # # void Get(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: GetAttributes = 1 GetAttribute = 2 get = 3 getattributes = 4 getattribute = 5 PPCODE: { char *attribute, color[MagickPathExtent]; const char *value; ExceptionInfo *exception; Image *image; long j; ssize_t i; struct PackageInfo *info; SV *perl_exception, *reference, *s; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); XSRETURN_EMPTY; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL && !info) XSRETURN_EMPTY; EXTEND(sp,items); for (i=1; i < items; i++) { attribute=(char *) SvPV(ST(i),na); s=NULL; switch (*attribute) { case 'A': case 'a': { if (LocaleCompare(attribute,"adjoin") == 0) { if (info) s=newSViv((ssize_t) info->image_info->adjoin); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"antialias") == 0) { if (info) s=newSViv((ssize_t) info->image_info->antialias); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"area") == 0) { s=newSViv(GetMagickResource(AreaResource)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"attenuate") == 0) { const char *value; value=GetImageProperty(image,attribute,exception); if (value != (const char *) NULL) s=newSVpv(value,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"authenticate") == 0) { if (info) { const char *option; option=GetImageOption(info->image_info,attribute); if (option != (const char *) NULL) s=newSVpv(option,0); } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'B': case 'b': { if (LocaleCompare(attribute,"background") == 0) { if (image == (Image *) NULL) break; (void) FormatLocaleString(color,MagickPathExtent, "%.20g,%.20g,%.20g,%.20g",(double) image->background_color.red, (double) image->background_color.green, (double) image->background_color.blue, (double) image->background_color.alpha); s=newSVpv(color,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"base-columns") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->magick_columns); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"base-filename") == 0) { if (image != (Image *) NULL) s=newSVpv(image->magick_filename,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"base-height") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->magick_rows); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"base-rows") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->magick_rows); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"base-width") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->magick_columns); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"blue-primary") == 0) { if (image == (Image *) NULL) break; (void) FormatLocaleString(color,MagickPathExtent,"%.20g,%.20g", image->chromaticity.blue_primary.x, image->chromaticity.blue_primary.y); s=newSVpv(color,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"bordercolor") == 0) { if (image == (Image *) NULL) break; (void) FormatLocaleString(color,MagickPathExtent, "%.20g,%.20g,%.20g,%.20g",(double) image->border_color.red, (double) image->border_color.green, (double) image->border_color.blue, (double) image->border_color.alpha); s=newSVpv(color,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"bounding-box") == 0) { char geometry[MagickPathExtent]; RectangleInfo page; if (image == (Image *) NULL) break; page=GetImageBoundingBox(image,exception); (void) FormatLocaleString(geometry,MagickPathExtent, "%.20gx%.20g%+.20g%+.20g",(double) page.width,(double) page.height,(double) page.x,(double) page.y); s=newSVpv(geometry,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'C': case 'c': { if (LocaleCompare(attribute,"class") == 0) { if (image == (Image *) NULL) break; s=newSViv(image->storage_class); (void) sv_setpv(s,CommandOptionToMnemonic(MagickClassOptions, image->storage_class)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"clip-mask") == 0) { if (image != (Image *) NULL) { Image *mask_image; SV *sv; sv=NULL; if ((image->channels & WriteMaskChannel) == 0) (void) ClipImage(image,exception); mask_image=GetImageMask(image,ReadPixelMask,exception); if (mask_image != (Image *) NULL) { AddImageToRegistry(sv,mask_image); s=sv_bless(newRV(sv),SvSTASH(reference)); } } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"clip-path") == 0) { if (image != (Image *) NULL) { Image *mask_image; SV *sv; sv=NULL; if ((image->channels & WriteMaskChannel) == 0) (void) ClipImage(image,exception); mask_image=GetImageMask(image,ReadPixelMask,exception); if (mask_image != (Image *) NULL) { AddImageToRegistry(sv,mask_image); s=sv_bless(newRV(sv),SvSTASH(reference)); } } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"compression") == 0) { j=info ? info->image_info->compression : image ? image->compression : UndefinedCompression; if (info) if (info->image_info->compression == UndefinedCompression) j=image->compression; s=newSViv(j); (void) sv_setpv(s,CommandOptionToMnemonic(MagickCompressOptions, j)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"colorspace") == 0) { j=image ? image->colorspace : RGBColorspace; s=newSViv(j); (void) sv_setpv(s,CommandOptionToMnemonic(MagickColorspaceOptions, j)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"colors") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) GetNumberColors(image,(FILE *) NULL, exception)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleNCompare(attribute,"colormap",8) == 0) { int items; if (image == (Image *) NULL || !image->colormap) break; j=0; items=sscanf(attribute,"%*[^[][%ld",&j); (void) items; if (j > (ssize_t) image->colors) j%=image->colors; (void) FormatLocaleString(color,MagickPathExtent, "%.20g,%.20g,%.20g,%.20g",(double) image->colormap[j].red, (double) image->colormap[j].green, (double) image->colormap[j].blue, (double) image->colormap[j].alpha); s=newSVpv(color,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"columns") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->columns); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"comment") == 0) { const char *value; value=GetImageProperty(image,attribute,exception); if (value != (const char *) NULL) s=newSVpv(value,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"copyright") == 0) { s=newSVpv(GetMagickCopyright(),0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'D': case 'd': { if (LocaleCompare(attribute,"density") == 0) { char geometry[MagickPathExtent]; if (image == (Image *) NULL) break; (void) FormatLocaleString(geometry,MagickPathExtent,"%.20gx%.20g", image->resolution.x,image->resolution.y); s=newSVpv(geometry,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"delay") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->delay); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"depth") == 0) { s=newSViv(MAGICKCORE_QUANTUM_DEPTH); if (image != (Image *) NULL) s=newSViv((ssize_t) GetImageDepth(image,exception)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"directory") == 0) { if (image && image->directory) s=newSVpv(image->directory,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"dispose") == 0) { if (image == (Image *) NULL) break; s=newSViv(image->dispose); (void) sv_setpv(s, CommandOptionToMnemonic(MagickDisposeOptions,image->dispose)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"disk") == 0) { s=newSViv(GetMagickResource(DiskResource)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"dither") == 0) { if (info) s=newSViv((ssize_t) info->image_info->dither); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"display") == 0) /* same as server */ { if (info && info->image_info->server_name) s=newSVpv(info->image_info->server_name,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'E': case 'e': { if (LocaleCompare(attribute,"elapsed-time") == 0) { if (image != (Image *) NULL) s=newSVnv(GetElapsedTime(&image->timer)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"endian") == 0) { j=info ? info->image_info->endian : image ? image->endian : UndefinedEndian; if (info) if (info->image_info->endian == UndefinedEndian) j=image->endian; s=newSViv(j); (void) sv_setpv(s,CommandOptionToMnemonic(MagickEndianOptions,j)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"error") == 0) { if (image != (Image *) NULL) s=newSVnv(image->error.mean_error_per_pixel); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'F': case 'f': { if (LocaleCompare(attribute,"filesize") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) GetBlobSize(image)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"filename") == 0) { if (image != (Image *) NULL) s=newSVpv(image->filename,0); else if (info && *info->image_info->filename) s=newSVpv(info->image_info->filename,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"filter") == 0) { s=image ? newSViv(image->filter) : newSViv(0); (void) sv_setpv(s,CommandOptionToMnemonic(MagickFilterOptions, image->filter)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"font") == 0) { if (info && info->image_info->font) s=newSVpv(info->image_info->font,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"foreground") == 0) continue; if (LocaleCompare(attribute,"format") == 0) { const MagickInfo *magick_info; magick_info=(const MagickInfo *) NULL; if (info && (*info->image_info->magick != '\0')) magick_info=GetMagickInfo(info->image_info->magick,exception); if (image != (Image *) NULL) magick_info=GetMagickInfo(image->magick,exception); if ((magick_info != (const MagickInfo *) NULL) && (*magick_info->description != '\0')) s=newSVpv((char *) magick_info->description,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"fuzz") == 0) { if (info) s=newSVnv(info->image_info->fuzz); if (image != (Image *) NULL) s=newSVnv(image->fuzz); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'G': case 'g': { if (LocaleCompare(attribute,"gamma") == 0) { if (image != (Image *) NULL) s=newSVnv(image->gamma); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"geometry") == 0) { if (image && image->geometry) s=newSVpv(image->geometry,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"gravity") == 0) { s=image ? newSViv(image->gravity) : newSViv(0); (void) sv_setpv(s,CommandOptionToMnemonic(MagickGravityOptions, image->gravity)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"green-primary") == 0) { if (image == (Image *) NULL) break; (void) FormatLocaleString(color,MagickPathExtent,"%.20g,%.20g", image->chromaticity.green_primary.x, image->chromaticity.green_primary.y); s=newSVpv(color,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'H': case 'h': { if (LocaleCompare(attribute,"height") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->rows); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'I': case 'i': { if (LocaleCompare(attribute,"icc") == 0) { if (image != (Image *) NULL) { const StringInfo *profile; profile=GetImageProfile(image,"icc"); if (profile != (StringInfo *) NULL) s=newSVpv((const char *) GetStringInfoDatum(profile), GetStringInfoLength(profile)); } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"icm") == 0) { if (image != (Image *) NULL) { const StringInfo *profile; profile=GetImageProfile(image,"icm"); if (profile != (const StringInfo *) NULL) s=newSVpv((const char *) GetStringInfoDatum(profile), GetStringInfoLength(profile)); } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"id") == 0) { if (image != (Image *) NULL) { char key[MagickPathExtent]; MagickBooleanType status; static ssize_t id = 0; (void) FormatLocaleString(key,MagickPathExtent,"%.20g\n",(double) id); status=SetImageRegistry(ImageRegistryType,key,image, exception); (void) status; s=newSViv(id++); } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleNCompare(attribute,"index",5) == 0) { char name[MagickPathExtent]; int items; long x, y; const Quantum *p; CacheView *image_view; if (image == (Image *) NULL) break; if (image->storage_class != PseudoClass) break; x=0; y=0; items=sscanf(attribute,"%*[^[][%ld%*[,/]%ld",&x,&y); (void) items; image_view=AcquireVirtualCacheView(image,exception); p=GetCacheViewVirtualPixels(image_view,x,y,1,1,exception); if (p != (const Quantum *) NULL) { (void) FormatLocaleString(name,MagickPathExtent,QuantumFormat, GetPixelIndex(image,p)); s=newSVpv(name,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); } image_view=DestroyCacheView(image_view); continue; } if (LocaleCompare(attribute,"iptc") == 0) { if (image != (Image *) NULL) { const StringInfo *profile; profile=GetImageProfile(image,"iptc"); if (profile != (const StringInfo *) NULL) s=newSVpv((const char *) GetStringInfoDatum(profile), GetStringInfoLength(profile)); } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"iterations") == 0) /* same as loop */ { if (image != (Image *) NULL) s=newSViv((ssize_t) image->iterations); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"interlace") == 0) { j=info ? info->image_info->interlace : image ? image->interlace : UndefinedInterlace; if (info) if (info->image_info->interlace == UndefinedInterlace) j=image->interlace; s=newSViv(j); (void) sv_setpv(s,CommandOptionToMnemonic(MagickInterlaceOptions, j)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'L': case 'l': { if (LocaleCompare(attribute,"label") == 0) { const char *value; if (image == (Image *) NULL) break; value=GetImageProperty(image,"Label",exception); if (value != (const char *) NULL) s=newSVpv(value,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"loop") == 0) /* same as iterations */ { if (image != (Image *) NULL) s=newSViv((ssize_t) image->iterations); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'M': case 'm': { if (LocaleCompare(attribute,"magick") == 0) { if (info && *info->image_info->magick) s=newSVpv(info->image_info->magick,0); if (image != (Image *) NULL) s=newSVpv(image->magick,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"map") == 0) { s=newSViv(GetMagickResource(MapResource)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"maximum-error") == 0) { if (image != (Image *) NULL) s=newSVnv(image->error.normalized_maximum_error); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"memory") == 0) { s=newSViv(GetMagickResource(MemoryResource)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"mean-error") == 0) { if (image != (Image *) NULL) s=newSVnv(image->error.normalized_mean_error); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"mime") == 0) { if (info && *info->image_info->magick) s=newSVpv(MagickToMime(info->image_info->magick),0); if (image != (Image *) NULL) s=newSVpv(MagickToMime(image->magick),0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"mattecolor") == 0) { if (image == (Image *) NULL) break; (void) FormatLocaleString(color,MagickPathExtent, "%.20g,%.20g,%.20g,%.20g",(double) image->alpha_color.red, (double) image->alpha_color.green, (double) image->alpha_color.blue, (double) image->alpha_color.alpha); s=newSVpv(color,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"matte") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->alpha_trait != UndefinedPixelTrait ? 1 : 0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"mime") == 0) { const char *magick; magick=NULL; if (info && *info->image_info->magick) magick=info->image_info->magick; if (image != (Image *) NULL) magick=image->magick; if (magick) { char *mime; mime=MagickToMime(magick); s=newSVpv(mime,0); mime=(char *) RelinquishMagickMemory(mime); } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"monochrome") == 0) { if (image == (Image *) NULL) continue; j=info ? info->image_info->monochrome : SetImageMonochrome(image,exception); s=newSViv(j); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"montage") == 0) { if (image && image->montage) s=newSVpv(image->montage,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'O': case 'o': { if (LocaleCompare(attribute,"orientation") == 0) { j=info ? info->image_info->orientation : image ? image->orientation : UndefinedOrientation; if (info) if (info->image_info->orientation == UndefinedOrientation) j=image->orientation; s=newSViv(j); (void) sv_setpv(s,CommandOptionToMnemonic(MagickOrientationOptions, j)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'P': case 'p': { if (LocaleCompare(attribute,"page") == 0) { if (info && info->image_info->page) s=newSVpv(info->image_info->page,0); if (image != (Image *) NULL) { char geometry[MagickPathExtent]; (void) FormatLocaleString(geometry,MagickPathExtent, "%.20gx%.20g%+.20g%+.20g",(double) image->page.width, (double) image->page.height,(double) image->page.x,(double) image->page.y); s=newSVpv(geometry,0); } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"page.x") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->page.x); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"page.y") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->page.y); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleNCompare(attribute,"pixel",5) == 0) { char tuple[MagickPathExtent]; int items; long x, y; const Quantum *p; if (image == (Image *) NULL) break; x=0; y=0; items=sscanf(attribute,"%*[^[][%ld%*[,/]%ld",&x,&y); (void) items; p=GetVirtualPixels(image,x,y,1,1,exception); if (image->colorspace != CMYKColorspace) (void) FormatLocaleString(tuple,MagickPathExtent,QuantumFormat "," QuantumFormat "," QuantumFormat "," QuantumFormat, GetPixelRed(image,p),GetPixelGreen(image,p), GetPixelBlue(image,p),GetPixelAlpha(image,p)); else (void) FormatLocaleString(tuple,MagickPathExtent,QuantumFormat "," QuantumFormat "," QuantumFormat "," QuantumFormat "," QuantumFormat,GetPixelRed(image,p),GetPixelGreen(image,p), GetPixelBlue(image,p),GetPixelBlack(image,p), GetPixelAlpha(image,p)); s=newSVpv(tuple,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"pointsize") == 0) { if (info) s=newSViv((ssize_t) info->image_info->pointsize); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"precision") == 0) { s=newSViv((ssize_t) GetMagickPrecision()); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'Q': case 'q': { if (LocaleCompare(attribute,"quality") == 0) { if (info) s=newSViv((ssize_t) info->image_info->quality); if (image != (Image *) NULL) s=newSViv((ssize_t) image->quality); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"quantum") == 0) { if (info) s=newSViv((ssize_t) MAGICKCORE_QUANTUM_DEPTH); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'R': case 'r': { if (LocaleCompare(attribute,"rendering-intent") == 0) { s=newSViv(image->rendering_intent); (void) sv_setpv(s,CommandOptionToMnemonic(MagickIntentOptions, image->rendering_intent)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"red-primary") == 0) { if (image == (Image *) NULL) break; (void) FormatLocaleString(color,MagickPathExtent,"%.20g,%.20g", image->chromaticity.red_primary.x, image->chromaticity.red_primary.y); s=newSVpv(color,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"rows") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->rows); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'S': case 's': { if (LocaleCompare(attribute,"sampling-factor") == 0) { if (info && info->image_info->sampling_factor) s=newSVpv(info->image_info->sampling_factor,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"server") == 0) /* same as display */ { if (info && info->image_info->server_name) s=newSVpv(info->image_info->server_name,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"size") == 0) { if (info && info->image_info->size) s=newSVpv(info->image_info->size,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"scene") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->scene); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"scenes") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) info->image_info->number_scenes); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"signature") == 0) { const char *value; if (image == (Image *) NULL) break; (void) SignatureImage(image,exception); value=GetImageProperty(image,"Signature",exception); if (value != (const char *) NULL) s=newSVpv(value,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'T': case 't': { if (LocaleCompare(attribute,"taint") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) IsTaintImage(image)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"texture") == 0) { if (info && info->image_info->texture) s=newSVpv(info->image_info->texture,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"total-ink-density") == 0) { s=newSViv(MAGICKCORE_QUANTUM_DEPTH); if (image != (Image *) NULL) s=newSVnv(GetImageTotalInkDensity(image,exception)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"transparent-color") == 0) { if (image == (Image *) NULL) break; (void) FormatLocaleString(color,MagickPathExtent, "%.20g,%.20g,%.20g,%.20g",(double) image->transparent_color.red, (double) image->transparent_color.green, (double) image->transparent_color.blue, (double) image->transparent_color.alpha); s=newSVpv(color,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"type") == 0) { if (image == (Image *) NULL) break; j=(ssize_t) GetImageType(image); s=newSViv(j); (void) sv_setpv(s,CommandOptionToMnemonic(MagickTypeOptions,j)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'U': case 'u': { if (LocaleCompare(attribute,"units") == 0) { j=info ? info->image_info->units : image ? image->units : UndefinedResolution; if (info) if (info->image_info->units == UndefinedResolution) j=image->units; if (j == UndefinedResolution) s=newSVpv("undefined units",0); else if (j == PixelsPerInchResolution) s=newSVpv("pixels / inch",0); else s=newSVpv("pixels / centimeter",0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"user-time") == 0) { if (image != (Image *) NULL) s=newSVnv(GetUserTime(&image->timer)); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'V': case 'v': { if (LocaleCompare(attribute,"verbose") == 0) { if (info) s=newSViv((ssize_t) info->image_info->verbose); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"version") == 0) { s=newSVpv(GetMagickVersion((size_t *) NULL),0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"virtual-pixel") == 0) { if (image == (Image *) NULL) break; j=(ssize_t) GetImageVirtualPixelMethod(image); s=newSViv(j); (void) sv_setpv(s,CommandOptionToMnemonic( MagickVirtualPixelOptions,j)); SvIOK_on(s); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'W': case 'w': { if (LocaleCompare(attribute,"white-point") == 0) { if (image == (Image *) NULL) break; (void) FormatLocaleString(color,MagickPathExtent,"%.20g,%.20g", image->chromaticity.white_point.x, image->chromaticity.white_point.y); s=newSVpv(color,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"width") == 0) { if (image != (Image *) NULL) s=newSViv((ssize_t) image->columns); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'X': case 'x': { if (LocaleCompare(attribute,"xmp") == 0) { if (image != (Image *) NULL) { const StringInfo *profile; profile=GetImageProfile(image,"xmp"); if (profile != (StringInfo *) NULL) s=newSVpv((const char *) GetStringInfoDatum(profile), GetStringInfoLength(profile)); } PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } if (LocaleCompare(attribute,"x-resolution") == 0) { if (image != (Image *) NULL) s=newSVnv(image->resolution.x); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'Y': case 'y': { if (LocaleCompare(attribute,"y-resolution") == 0) { if (image != (Image *) NULL) s=newSVnv(image->resolution.y); PUSHs(s ? sv_2mortal(s) : &sv_undef); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: break; } if (image == (Image *) NULL) ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute) else { value=GetImageProperty(image,attribute,exception); if (value != (const char *) NULL) { s=newSVpv(value,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); } else if (*attribute != '%') ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute) else { char *meta; meta=InterpretImageProperties(info ? info->image_info : (ImageInfo *) NULL,image,attribute,exception); s=newSVpv(meta,0); PUSHs(s ? sv_2mortal(s) : &sv_undef); meta=(char *) RelinquishMagickMemory(meta); } } } exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* can't return warning messages */ } # ############################################################################### # # # # # # # G e t A u t h e n t i c P i x e l s # # # # # # # ############################################################################### # # void * GetAuthenticPixels(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: getauthenticpixels = 1 GetImagePixels = 2 getimagepixels = 3 CODE: { char *attribute; ExceptionInfo *exception; Image *image; RectangleInfo region; ssize_t i; struct PackageInfo *info; SV *perl_exception, *reference; void *blob = NULL; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } region.x=0; region.y=0; region.width=image->columns; region.height=1; if (items == 1) (void) ParseAbsoluteGeometry(SvPV(ST(1),na),®ion); for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'g': case 'G': { if (LocaleCompare(attribute,"geometry") == 0) { (void) ParseAbsoluteGeometry(SvPV(ST(i),na),®ion); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'H': case 'h': { if (LocaleCompare(attribute,"height") == 0) { region.height=SvIV(ST(i)); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedOption", attribute); break; } case 'X': case 'x': { if (LocaleCompare(attribute,"x") == 0) { region.x=SvIV(ST(i)); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedOption", attribute); break; } case 'Y': case 'y': { if (LocaleCompare(attribute,"y") == 0) { region.y=SvIV(ST(i)); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedOption", attribute); break; } case 'W': case 'w': { if (LocaleCompare(attribute,"width") == 0) { region.width=SvIV(ST(i)); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedOption", attribute); break; } } } blob=(void *) GetAuthenticPixels(image,region.x,region.y,region.width, region.height,exception); if (blob != (void *) NULL) goto PerlEnd; PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* throw away all errors */ PerlEnd: RETVAL = blob; } OUTPUT: RETVAL # ############################################################################### # # # # # # # G e t V i r t u a l P i x e l s # # # # # # # ############################################################################### # # void * GetVirtualPixels(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: getvirtualpixels = 1 AcquireImagePixels = 2 acquireimagepixels = 3 CODE: { char *attribute; const void *blob = NULL; ExceptionInfo *exception; Image *image; RectangleInfo region; ssize_t i; struct PackageInfo *info; SV *perl_exception, *reference; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } region.x=0; region.y=0; region.width=image->columns; region.height=1; if (items == 1) (void) ParseAbsoluteGeometry(SvPV(ST(1),na),®ion); for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'g': case 'G': { if (LocaleCompare(attribute,"geometry") == 0) { (void) ParseAbsoluteGeometry(SvPV(ST(i),na),®ion); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'H': case 'h': { if (LocaleCompare(attribute,"height") == 0) { region.height=SvIV(ST(i)); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedOption", attribute); break; } case 'X': case 'x': { if (LocaleCompare(attribute,"x") == 0) { region.x=SvIV(ST(i)); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedOption", attribute); break; } case 'Y': case 'y': { if (LocaleCompare(attribute,"y") == 0) { region.y=SvIV(ST(i)); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedOption", attribute); break; } case 'W': case 'w': { if (LocaleCompare(attribute,"width") == 0) { region.width=SvIV(ST(i)); continue; } ThrowPerlException(exception,OptionError,"UnrecognizedOption", attribute); break; } } } blob=(const void *) GetVirtualPixels(image,region.x,region.y,region.width, region.height,exception); if (blob != (void *) NULL) goto PerlEnd; PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* throw away all errors */ PerlEnd: RETVAL = (void *) blob; } OUTPUT: RETVAL # ############################################################################### # # # # # # # G e t A u t h e n t i c M e t a c o n t e n t # # # # # # # ############################################################################### # # void * GetAuthenticMetacontent(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: getauthenticmetacontent = 1 GetMetacontent = 2 getmetacontent = 3 CODE: { ExceptionInfo *exception; Image *image; struct PackageInfo *info; SV *perl_exception, *reference; void *blob = NULL; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } blob=(void *) GetAuthenticMetacontent(image); if (blob != (void *) NULL) goto PerlEnd; PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* throw away all errors */ PerlEnd: RETVAL = blob; } OUTPUT: RETVAL # ############################################################################### # # # # # # # G e t V i r t u a l M e t a c o n t e n t # # # # # # # ############################################################################### # # void * GetVirtualMetacontent(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: getvirtualmetacontent = 1 CODE: { ExceptionInfo *exception; Image *image; struct PackageInfo *info; SV *perl_exception, *reference; void *blob = NULL; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } blob=(void *) GetVirtualMetacontent(image); if (blob != (void *) NULL) goto PerlEnd; PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* throw away all errors */ PerlEnd: RETVAL = blob; } OUTPUT: RETVAL # ############################################################################### # # # # # # # H i s t o g r a m # # # # # # # ############################################################################### # # void Histogram(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: HistogramImage = 1 histogram = 2 histogramimage = 3 PPCODE: { AV *av; char message[MagickPathExtent]; PixelInfo *histogram; ExceptionInfo *exception; Image *image; ssize_t i; ssize_t count; struct PackageInfo *info; SV *perl_exception, *reference; size_t number_colors; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); av=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); av=newAV(); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } count=0; for ( ; image; image=image->next) { histogram=GetImageHistogram(image,&number_colors,exception); if (histogram == (PixelInfo *) NULL) continue; count+=(ssize_t) number_colors; EXTEND(sp,6*count); for (i=0; i < (ssize_t) number_colors; i++) { (void) FormatLocaleString(message,MagickPathExtent,"%.20g", histogram[i].red); PUSHs(sv_2mortal(newSVpv(message,0))); (void) FormatLocaleString(message,MagickPathExtent,"%.20g", histogram[i].green); PUSHs(sv_2mortal(newSVpv(message,0))); (void) FormatLocaleString(message,MagickPathExtent,"%.20g", histogram[i].blue); PUSHs(sv_2mortal(newSVpv(message,0))); if (image->colorspace == CMYKColorspace) { (void) FormatLocaleString(message,MagickPathExtent,"%.20g", histogram[i].black); PUSHs(sv_2mortal(newSVpv(message,0))); } (void) FormatLocaleString(message,MagickPathExtent,"%.20g", histogram[i].alpha); PUSHs(sv_2mortal(newSVpv(message,0))); (void) FormatLocaleString(message,MagickPathExtent,"%.20g",(double) histogram[i].count); PUSHs(sv_2mortal(newSVpv(message,0))); } histogram=(PixelInfo *) RelinquishMagickMemory(histogram); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # G e t P i x e l # # # # # # # ############################################################################### # # void GetPixel(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: getpixel = 1 getPixel = 2 PPCODE: { AV *av; char *attribute; ExceptionInfo *exception; Image *image; MagickBooleanType normalize; RectangleInfo region; const Quantum *p; ssize_t i; ssize_t option; struct PackageInfo *info; SV *perl_exception, *reference; /* reference is the SV* of ref=SvIV(reference) */ PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); reference=SvRV(ST(0)); av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } normalize=MagickTrue; region.x=0; region.y=0; region.width=image->columns; region.height=1; if (items == 1) (void) ParseAbsoluteGeometry(SvPV(ST(1),na),®ion); for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'C': case 'c': { if (LocaleCompare(attribute,"channel") == 0) { ssize_t option; option=ParseChannelOption(SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); return; } (void) SetPixelChannelMask(image,(ChannelType) option); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'g': case 'G': { if (LocaleCompare(attribute,"geometry") == 0) { (void) ParseAbsoluteGeometry(SvPV(ST(i),na),®ion); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'N': case 'n': { if (LocaleCompare(attribute,"normalize") == 0) { option=ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } normalize=option != 0 ? MagickTrue : MagickFalse; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'x': case 'X': { if (LocaleCompare(attribute,"x") == 0) { region.x=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'y': case 'Y': { if (LocaleCompare(attribute,"y") == 0) { region.y=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } p=GetVirtualPixels(image,region.x,region.y,1,1,exception); if (p == (const Quantum *) NULL) PUSHs(&sv_undef); else { double scale; scale=1.0; if (normalize != MagickFalse) scale=1.0/QuantumRange; if ((GetPixelRedTraits(image) & UpdatePixelTrait) != 0) PUSHs(sv_2mortal(newSVnv(scale*GetPixelRed(image,p)))); if ((GetPixelGreenTraits(image) & UpdatePixelTrait) != 0) PUSHs(sv_2mortal(newSVnv(scale*GetPixelGreen(image,p)))); if ((GetPixelBlueTraits(image) & UpdatePixelTrait) != 0) PUSHs(sv_2mortal(newSVnv(scale*GetPixelBlue(image,p)))); if (((GetPixelBlackTraits(image) & UpdatePixelTrait) != 0) && (image->colorspace == CMYKColorspace)) PUSHs(sv_2mortal(newSVnv(scale*GetPixelBlack(image,p)))); if ((GetPixelAlphaTraits(image) & UpdatePixelTrait) != 0) PUSHs(sv_2mortal(newSVnv(scale*GetPixelAlpha(image,p)))); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # G e t P i x e l s # # # # # # # ############################################################################### # # void GetPixels(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: getpixels = 1 getPixels = 2 PPCODE: { AV *av; char *attribute; const char *map; ExceptionInfo *exception; Image *image; MagickBooleanType normalize, status; RectangleInfo region; ssize_t i; ssize_t option; struct PackageInfo *info; SV *perl_exception, *reference; /* reference is the SV* of ref=SvIV(reference) */ PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); reference=SvRV(ST(0)); av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } map="RGB"; if (image->alpha_trait != UndefinedPixelTrait) map="RGBA"; if (image->colorspace == CMYKColorspace) { map="CMYK"; if (image->alpha_trait != UndefinedPixelTrait) map="CMYKA"; } normalize=MagickFalse; region.x=0; region.y=0; region.width=image->columns; region.height=1; if (items == 1) (void) ParseAbsoluteGeometry(SvPV(ST(1),na),®ion); for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'g': case 'G': { if (LocaleCompare(attribute,"geometry") == 0) { (void) ParseAbsoluteGeometry(SvPV(ST(i),na),®ion); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'H': case 'h': { if (LocaleCompare(attribute,"height") == 0) { region.height=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'M': case 'm': { if (LocaleCompare(attribute,"map") == 0) { map=SvPV(ST(i),na); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'N': case 'n': { if (LocaleCompare(attribute,"normalize") == 0) { option=ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } normalize=option != 0 ? MagickTrue : MagickFalse; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'W': case 'w': { if (LocaleCompare(attribute,"width") == 0) { region.width=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'x': case 'X': { if (LocaleCompare(attribute,"x") == 0) { region.x=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'y': case 'Y': { if (LocaleCompare(attribute,"y") == 0) { region.y=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } if (normalize != MagickFalse) { float *pixels; MemoryInfo *pixels_info; pixels_info=AcquireVirtualMemory(strlen(map)*region.width, region.height*sizeof(*pixels)); if (pixels_info == (MemoryInfo *) NULL) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } pixels=(float *) GetVirtualMemoryBlob(pixels_info); status=ExportImagePixels(image,region.x,region.y,region.width, region.height,map,FloatPixel,pixels,exception); if (status == MagickFalse) PUSHs(&sv_undef); else { EXTEND(sp,strlen(map)*region.width*region.height); for (i=0; i < (ssize_t) (strlen(map)*region.width*region.height); i++) PUSHs(sv_2mortal(newSVnv(pixels[i]))); } pixels_info=RelinquishVirtualMemory(pixels_info); } else { MemoryInfo *pixels_info; Quantum *pixels; pixels_info=AcquireVirtualMemory(strlen(map)*region.width, region.height*sizeof(*pixels)); if (pixels_info == (MemoryInfo *) NULL) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } pixels=(Quantum *) GetVirtualMemoryBlob(pixels_info); status=ExportImagePixels(image,region.x,region.y,region.width, region.height,map,QuantumPixel,pixels,exception); if (status == MagickFalse) PUSHs(&sv_undef); else { EXTEND(sp,strlen(map)*region.width*region.height); for (i=0; i < (ssize_t) (strlen(map)*region.width*region.height); i++) PUSHs(sv_2mortal(newSViv(pixels[i]))); } pixels_info=RelinquishVirtualMemory(pixels_info); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # I m a g e T o B l o b # # # # # # # ############################################################################### # # void ImageToBlob(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: ImageToBlob = 1 imagetoblob = 2 toblob = 3 blob = 4 PPCODE: { char filename[MagickPathExtent]; ExceptionInfo *exception; Image *image, *next; ssize_t i; struct PackageInfo *info, *package_info; size_t length; ssize_t scene; SV *perl_exception, *reference; void *blob; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); package_info=(struct PackageInfo *) NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } package_info=ClonePackageInfo(info,exception); for (i=2; i < items; i+=2) SetAttribute(aTHX_ package_info,image,SvPV(ST(i-1),na),ST(i),exception); (void) CopyMagickString(filename,package_info->image_info->filename, MagickPathExtent); scene=0; for (next=image; next; next=next->next) { (void) CopyMagickString(next->filename,filename,MagickPathExtent); next->scene=scene++; } SetImageInfo(package_info->image_info,(unsigned int) GetImageListLength(image),exception); EXTEND(sp,(ssize_t) GetImageListLength(image)); for ( ; image; image=image->next) { length=0; blob=ImagesToBlob(package_info->image_info,image,&length,exception); if (blob != (char *) NULL) { PUSHs(sv_2mortal(newSVpv((const char *) blob,length))); blob=(unsigned char *) RelinquishMagickMemory(blob); } if (package_info->image_info->adjoin) break; } PerlException: if (package_info != (struct PackageInfo *) NULL) DestroyPackageInfo(package_info); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* throw away all errors */ } # ############################################################################### # # # # # # # L a y e r s # # # # # # # ############################################################################### # # void Layers(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: Layers = 1 layers = 2 OptimizeImageLayers = 3 optimizelayers = 4 optimizeimagelayers = 5 PPCODE: { AV *av; char *attribute; CompositeOperator compose; ExceptionInfo *exception; HV *hv; Image *image, *layers; LayerMethod method; ssize_t i; ssize_t option, sp; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } compose=image->compose; method=OptimizeLayer; for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'C': case 'c': { if (LocaleCompare(attribute,"compose") == 0) { sp=!SvPOK(ST(i)) ? SvIV(ST(i)) : ParseCommandOption( MagickComposeOptions,MagickFalse,SvPV(ST(i),na)); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } compose=(CompositeOperator) sp; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'M': case 'm': { if (LocaleCompare(attribute,"method") == 0) { option=ParseCommandOption(MagickLayerOptions,MagickFalse, SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } method=(LayerMethod) option; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } layers=(Image *) NULL; switch (method) { case CompareAnyLayer: case CompareClearLayer: case CompareOverlayLayer: default: { layers=CompareImagesLayers(image,method,exception); break; } case MergeLayer: case FlattenLayer: case MosaicLayer: { layers=MergeImageLayers(image,method,exception); break; } case DisposeLayer: { layers=DisposeImages(image,exception); break; } case OptimizeImageLayer: { layers=OptimizeImageLayers(image,exception); break; } case OptimizePlusLayer: { layers=OptimizePlusImageLayers(image,exception); break; } case OptimizeTransLayer: { OptimizeImageTransparency(image,exception); break; } case RemoveDupsLayer: { RemoveDuplicateLayers(&image,exception); break; } case RemoveZeroLayer: { RemoveZeroDelayLayers(&image,exception); break; } case OptimizeLayer: { QuantizeInfo *quantize_info; /* General Purpose, GIF Animation Optimizer. */ layers=CoalesceImages(image,exception); if (layers == (Image *) NULL) break; image=layers; layers=OptimizeImageLayers(image,exception); if (layers == (Image *) NULL) break; image=DestroyImageList(image); image=layers; layers=(Image *) NULL; OptimizeImageTransparency(image,exception); quantize_info=AcquireQuantizeInfo(info->image_info); (void) RemapImages(quantize_info,image,(Image *) NULL,exception); quantize_info=DestroyQuantizeInfo(quantize_info); break; } case CompositeLayer: { Image *source; RectangleInfo geometry; /* Split image sequence at the first 'NULL:' image. */ source=image; while (source != (Image *) NULL) { source=GetNextImageInList(source); if ((source != (Image *) NULL) && (LocaleCompare(source->magick,"NULL") == 0)) break; } if (source != (Image *) NULL) { if ((GetPreviousImageInList(source) == (Image *) NULL) || (GetNextImageInList(source) == (Image *) NULL)) source=(Image *) NULL; else { /* Separate the two lists, junk the null: image. */ source=SplitImageList(source->previous); DeleteImageFromList(&source); } } if (source == (Image *) NULL) { (void) ThrowMagickException(exception,GetMagickModule(), OptionError,"MissingNullSeparator","layers Composite"); break; } /* Adjust offset with gravity and virtual canvas. */ SetGeometry(image,&geometry); (void) ParseAbsoluteGeometry(image->geometry,&geometry); geometry.width=source->page.width != 0 ? source->page.width : source->columns; geometry.height=source->page.height != 0 ? source->page.height : source->rows; GravityAdjustGeometry(image->page.width != 0 ? image->page.width : image->columns,image->page.height != 0 ? image->page.height : image->rows,image->gravity,&geometry); CompositeLayers(image,compose,source,geometry.x,geometry.y,exception); source=DestroyImageList(source); break; } } if (layers != (Image *) NULL) image=layers; else image=CloneImage(image,0,0,MagickTrue,exception); if (image == (Image *) NULL) goto PerlException; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # M a g i c k T o M i m e # # # # # # # ############################################################################### # # SV * MagickToMime(ref,name) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT char *name ALIAS: magicktomime = 1 CODE: { char *mime; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); mime=MagickToMime(name); RETVAL=newSVpv(mime,0); mime=(char *) RelinquishMagickMemory(mime); } OUTPUT: RETVAL # ############################################################################### # # # # # # # M o g r i f y # # # # # # # ############################################################################### # # void Mogrify(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: Comment = 1 CommentImage = 2 Label = 3 LabelImage = 4 AddNoise = 5 AddNoiseImage = 6 Colorize = 7 ColorizeImage = 8 Border = 9 BorderImage = 10 Blur = 11 BlurImage = 12 Chop = 13 ChopImage = 14 Crop = 15 CropImage = 16 Despeckle = 17 DespeckleImage = 18 Edge = 19 EdgeImage = 20 Emboss = 21 EmbossImage = 22 Enhance = 23 EnhanceImage = 24 Flip = 25 FlipImage = 26 Flop = 27 FlopImage = 28 Frame = 29 FrameImage = 30 Implode = 31 ImplodeImage = 32 Magnify = 33 MagnifyImage = 34 MedianFilter = 35 MedianConvolveImage = 36 Minify = 37 MinifyImage = 38 OilPaint = 39 OilPaintImage = 40 ReduceNoise = 41 ReduceNoiseImage = 42 Roll = 43 RollImage = 44 Rotate = 45 RotateImage = 46 Sample = 47 SampleImage = 48 Scale = 49 ScaleImage = 50 Shade = 51 ShadeImage = 52 Sharpen = 53 SharpenImage = 54 Shear = 55 ShearImage = 56 Spread = 57 SpreadImage = 58 Swirl = 59 SwirlImage = 60 Resize = 61 ResizeImage = 62 Zoom = 63 ZoomImage = 64 Annotate = 65 AnnotateImage = 66 ColorFloodfill = 67 ColorFloodfillImage= 68 Composite = 69 CompositeImage = 70 Contrast = 71 ContrastImage = 72 CycleColormap = 73 CycleColormapImage = 74 Draw = 75 DrawImage = 76 Equalize = 77 EqualizeImage = 78 Gamma = 79 GammaImage = 80 Map = 81 MapImage = 82 MatteFloodfill = 83 MatteFloodfillImage= 84 Modulate = 85 ModulateImage = 86 Negate = 87 NegateImage = 88 Normalize = 89 NormalizeImage = 90 NumberColors = 91 NumberColorsImage = 92 Opaque = 93 OpaqueImage = 94 Quantize = 95 QuantizeImage = 96 Raise = 97 RaiseImage = 98 Segment = 99 SegmentImage = 100 Signature = 101 SignatureImage = 102 Solarize = 103 SolarizeImage = 104 Sync = 105 SyncImage = 106 Texture = 107 TextureImage = 108 Evaluate = 109 EvaluateImage = 110 Transparent = 111 TransparentImage = 112 Threshold = 113 ThresholdImage = 114 Charcoal = 115 CharcoalImage = 116 Trim = 117 TrimImage = 118 Wave = 119 WaveImage = 120 Separate = 121 SeparateImage = 122 Stereo = 125 StereoImage = 126 Stegano = 127 SteganoImage = 128 Deconstruct = 129 DeconstructImage = 130 GaussianBlur = 131 GaussianBlurImage = 132 Convolve = 133 ConvolveImage = 134 Profile = 135 ProfileImage = 136 UnsharpMask = 137 UnsharpMaskImage = 138 MotionBlur = 139 MotionBlurImage = 140 OrderedDither = 141 OrderedDitherImage = 142 Shave = 143 ShaveImage = 144 Level = 145 LevelImage = 146 Clip = 147 ClipImage = 148 AffineTransform = 149 AffineTransformImage = 150 Difference = 151 DifferenceImage = 152 AdaptiveThreshold = 153 AdaptiveThresholdImage = 154 Resample = 155 ResampleImage = 156 Describe = 157 DescribeImage = 158 BlackThreshold = 159 BlackThresholdImage= 160 WhiteThreshold = 161 WhiteThresholdImage= 162 RotationalBlur = 163 RotationalBlurImage= 164 Thumbnail = 165 ThumbnailImage = 166 Strip = 167 StripImage = 168 Tint = 169 TintImage = 170 Channel = 171 ChannelImage = 172 Splice = 173 SpliceImage = 174 Posterize = 175 PosterizeImage = 176 Shadow = 177 ShadowImage = 178 Identify = 179 IdentifyImage = 180 SepiaTone = 181 SepiaToneImage = 182 SigmoidalContrast = 183 SigmoidalContrastImage = 184 Extent = 185 ExtentImage = 186 Vignette = 187 VignetteImage = 188 ContrastStretch = 189 ContrastStretchImage = 190 Sans0 = 191 Sans0Image = 192 Sans1 = 193 Sans1Image = 194 AdaptiveSharpen = 195 AdaptiveSharpenImage = 196 Transpose = 197 TransposeImage = 198 Transverse = 199 TransverseImage = 200 AutoOrient = 201 AutoOrientImage = 202 AdaptiveBlur = 203 AdaptiveBlurImage = 204 Sketch = 205 SketchImage = 206 UniqueColors = 207 UniqueColorsImage = 208 AdaptiveResize = 209 AdaptiveResizeImage= 210 ClipMask = 211 ClipMaskImage = 212 LinearStretch = 213 LinearStretchImage = 214 ColorMatrix = 215 ColorMatrixImage = 216 Mask = 217 MaskImage = 218 Polaroid = 219 PolaroidImage = 220 FloodfillPaint = 221 FloodfillPaintImage= 222 Distort = 223 DistortImage = 224 Clut = 225 ClutImage = 226 LiquidRescale = 227 LiquidRescaleImage = 228 Encipher = 229 EncipherImage = 230 Decipher = 231 DecipherImage = 232 Deskew = 233 DeskewImage = 234 Remap = 235 RemapImage = 236 SparseColor = 237 SparseColorImage = 238 Function = 239 FunctionImage = 240 SelectiveBlur = 241 SelectiveBlurImage = 242 HaldClut = 243 HaldClutImage = 244 BlueShift = 245 BlueShiftImage = 246 ForwardFourierTransform = 247 ForwardFourierTransformImage = 248 InverseFourierTransform = 249 InverseFourierTransformImage = 250 ColorDecisionList = 251 ColorDecisionListImage = 252 AutoGamma = 253 AutoGammaImage = 254 AutoLevel = 255 AutoLevelImage = 256 LevelColors = 257 LevelImageColors = 258 Clamp = 259 ClampImage = 260 BrightnessContrast = 261 BrightnessContrastImage = 262 Morphology = 263 MorphologyImage = 264 Mode = 265 ModeImage = 266 Statistic = 267 StatisticImage = 268 Perceptible = 269 PerceptibleImage = 270 Poly = 271 PolyImage = 272 Grayscale = 273 GrayscaleImage = 274 CannyEdge = 275 CannyEdgeImage = 276 HoughLine = 277 HoughLineImage = 278 MeanShift = 279 MeanShiftImage = 280 Kuwahara = 281 KuwaharaImage = 282 ConnectedComponents = 283 ConnectedComponentsImage = 284 CopyPixels = 285 CopyImagePixels = 286 Color = 287 ColorImage = 288 WaveletDenoise = 289 WaveletDenoiseImage= 290 Colorspace = 291 ColorspaceImage = 292 AutoThreshold = 293 AutoThresholdImage = 294 RangeThreshold = 295 RangeThresholdImage= 296 CLAHE = 297 CLAHEImage = 298 Kmeans = 299 KMeansImage = 300 ColorThreshold = 301 ColorThresholdImage= 302 WhiteBalance = 303 WhiteBalanceImage = 304 BilateralBlur = 305 BilateralBlurImage = 306 SortPixels = 307 SortPixelsImage = 308 MogrifyRegion = 666 PPCODE: { AffineMatrix affine, current; char attribute_flag[MaxArguments], message[MagickPathExtent]; ChannelType channel, channel_mask; CompositeOperator compose; const char *attribute, *value; double angle; ExceptionInfo *exception; GeometryInfo geometry_info; Image *image, *next; MagickStatusType flags; PixelInfo fill_color; RectangleInfo geometry, region_info; ssize_t i; ssize_t base, j, number_images; struct Methods *rp; struct PackageInfo *info; SV *perl_exception, **pv, *reference, **reference_vector; struct ArgumentList argument_list[MaxArguments]; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); reference_vector=NULL; number_images=0; base=2; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); region_info.width=0; region_info.height=0; region_info.x=0; region_info.y=0; image=SetupList(aTHX_ reference,&info,&reference_vector,exception); if (ix && (ix != 666)) { /* Called as Method(...) */ ix=(ix+1)/2; rp=(&Methods[ix-1]); attribute=rp->name; } else { /* Called as Mogrify("Method",...) */ attribute=(char *) SvPV(ST(1),na); if (ix) { flags=ParseGravityGeometry(image,attribute,®ion_info,exception); attribute=(char *) SvPV(ST(2),na); base++; } for (rp=Methods; ; rp++) { if (rp >= EndOf(Methods)) { ThrowPerlException(exception,OptionError, "UnrecognizedPerlMagickMethod",attribute); goto PerlException; } if (strEQcase(attribute,rp->name)) break; } ix=rp-Methods+1; base++; } if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined",attribute); goto PerlException; } Zero(&argument_list,NumberOf(argument_list),struct ArgumentList); Zero(&attribute_flag,NumberOf(attribute_flag),char); for (i=base; (i < items) || ((i == items) && (base == items)); i+=2) { Arguments *pp, *qq; ssize_t ssize_test; struct ArgumentList *al; SV *sv; sv=NULL; ssize_test=0; pp=(Arguments *) NULL; qq=rp->arguments; if (i == items) { pp=rp->arguments, sv=ST(i-1); } else for (sv=ST(i), attribute=(char *) SvPV(ST(i-1),na); ; qq++) { if ((qq >= EndOf(rp->arguments)) || (qq->method == NULL)) break; if (strEQcase(attribute,qq->method) > ssize_test) { pp=qq; ssize_test=strEQcase(attribute,qq->method); } } if (pp == (Arguments *) NULL) { ThrowPerlException(exception,OptionError,"UnrecognizedOption", attribute); goto continue_outer_loop; } al=(&argument_list[pp-rp->arguments]); switch (pp->type) { case ArrayReference: { if (SvTYPE(sv) != SVt_RV) { (void) FormatLocaleString(message,MagickPathExtent, "invalid %.60s value",pp->method); ThrowPerlException(exception,OptionError,message,SvPV(sv,na)); goto continue_outer_loop; } al->array_reference=SvRV(sv); break; } case RealReference: { al->real_reference=SvNV(sv); break; } case FileReference: { al->file_reference=(FILE *) PerlIO_findFILE(IoIFP(sv_2io(sv))); break; } case ImageReference: { if (!sv_isobject(sv) || !(al->image_reference=SetupList(aTHX_ SvRV(sv), (struct PackageInfo **) NULL,(SV ***) NULL,exception))) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } break; } case IntegerReference: { al->integer_reference=SvIV(sv); break; } case StringReference: { al->string_reference=(char *) SvPV(sv,al->length); if (sv_isobject(sv)) al->image_reference=SetupList(aTHX_ SvRV(sv), (struct PackageInfo **) NULL,(SV ***) NULL,exception); break; } default: { /* Is a string; look up name. */ if ((al->length > 1) && (*(char *) SvPV(sv,al->length) == '@')) { al->string_reference=(char *) SvPV(sv,al->length); al->integer_reference=(-1); break; } al->integer_reference=ParseCommandOption((CommandOption) pp->type, MagickFalse,SvPV(sv,na)); if (pp->type == MagickChannelOptions) al->integer_reference=ParseChannelOption(SvPV(sv,na)); if ((al->integer_reference < 0) && ((al->integer_reference=SvIV(sv)) <= 0)) { (void) FormatLocaleString(message,MagickPathExtent, "invalid %.60s value",pp->method); ThrowPerlException(exception,OptionError,message,SvPV(sv,na)); goto continue_outer_loop; } break; } } attribute_flag[pp-rp->arguments]++; continue_outer_loop: ; } (void) ResetMagickMemory((char *) &fill_color,0,sizeof(fill_color)); pv=reference_vector; SetGeometryInfo(&geometry_info); channel=DefaultChannels; for (next=image; next; next=next->next) { image=next; SetGeometry(image,&geometry); if ((region_info.width*region_info.height) != 0) (void) SetImageRegionMask(image,WritePixelMask,®ion_info,exception); switch (ix) { default: { (void) FormatLocaleString(message,MagickPathExtent,"%.20g",(double) ix); ThrowPerlException(exception,OptionError, "UnrecognizedPerlMagickMethod",message); goto PerlException; } case 1: /* Comment */ { if (attribute_flag[0] == 0) argument_list[0].string_reference=(char *) NULL; (void) SetImageProperty(image,"comment",InterpretImageProperties( info ? info->image_info : (ImageInfo *) NULL,image, argument_list[0].string_reference,exception),exception); break; } case 2: /* Label */ { if (attribute_flag[0] == 0) argument_list[0].string_reference=(char *) NULL; (void) SetImageProperty(image,"label",InterpretImageProperties( info ? info->image_info : (ImageInfo *) NULL,image, argument_list[0].string_reference,exception),exception); break; } case 3: /* AddNoise */ { double attenuate; if (attribute_flag[0] == 0) argument_list[0].integer_reference=UniformNoise; attenuate=1.0; if (attribute_flag[1] != 0) attenuate=argument_list[1].real_reference; if (attribute_flag[2] != 0) channel=(ChannelType) argument_list[2].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=AddNoiseImage(image,(NoiseType) argument_list[0].integer_reference,attenuate,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 4: /* Colorize */ { PixelInfo target; (void) GetOneVirtualPixelInfo(image,UndefinedVirtualPixelMethod,0,0, &target,exception); if (attribute_flag[0] != 0) (void) QueryColorCompliance(argument_list[0].string_reference, AllCompliance,&target,exception); if (attribute_flag[1] == 0) argument_list[1].string_reference="100%"; image=ColorizeImage(image,argument_list[1].string_reference,&target, exception); break; } case 5: /* Border */ { CompositeOperator compose; geometry.width=0; geometry.height=0; if (attribute_flag[0] != 0) flags=ParsePageGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] != 0) QueryColorCompliance(argument_list[3].string_reference, AllCompliance,&image->border_color,exception); if (attribute_flag[4] != 0) QueryColorCompliance(argument_list[4].string_reference, AllCompliance,&image->border_color,exception); if (attribute_flag[5] != 0) QueryColorCompliance(argument_list[5].string_reference, AllCompliance,&image->border_color,exception); compose=image->compose; if (attribute_flag[6] != 0) compose=(CompositeOperator) argument_list[6].integer_reference; image=BorderImage(image,&geometry,compose,exception); break; } case 6: /* Blur */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=BlurImage(image,geometry_info.rho,geometry_info.sigma, exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 7: /* Chop */ { if (attribute_flag[5] != 0) image->gravity=(GravityType) argument_list[5].integer_reference; if (attribute_flag[0] != 0) flags=ParseGravityGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry.x=argument_list[3].integer_reference; if (attribute_flag[4] != 0) geometry.y=argument_list[4].integer_reference; image=ChopImage(image,&geometry,exception); break; } case 8: /* Crop */ { if (attribute_flag[6] != 0) image->gravity=(GravityType) argument_list[6].integer_reference; if (attribute_flag[0] != 0) flags=ParseGravityGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry.x=argument_list[3].integer_reference; if (attribute_flag[4] != 0) geometry.y=argument_list[4].integer_reference; if (attribute_flag[5] != 0) image->fuzz=StringToDoubleInterval( argument_list[5].string_reference,(double) QuantumRange+1.0); image=CropImage(image,&geometry,exception); break; } case 9: /* Despeckle */ { image=DespeckleImage(image,exception); break; } case 10: /* Edge */ { if (attribute_flag[0] != 0) geometry_info.rho=argument_list[0].real_reference; image=EdgeImage(image,geometry_info.rho,exception); break; } case 11: /* Emboss */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; image=EmbossImage(image,geometry_info.rho,geometry_info.sigma, exception); break; } case 12: /* Enhance */ { image=EnhanceImage(image,exception); break; } case 13: /* Flip */ { image=FlipImage(image,exception); break; } case 14: /* Flop */ { image=FlopImage(image,exception); break; } case 15: /* Frame */ { CompositeOperator compose; FrameInfo frame_info; if (attribute_flag[0] != 0) { flags=ParsePageGeometry(image,argument_list[0].string_reference, &geometry,exception); frame_info.width=geometry.width; frame_info.height=geometry.height; frame_info.outer_bevel=geometry.x; frame_info.inner_bevel=geometry.y; } if (attribute_flag[1] != 0) frame_info.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) frame_info.height=argument_list[2].integer_reference; if (attribute_flag[3] != 0) frame_info.inner_bevel=argument_list[3].integer_reference; if (attribute_flag[4] != 0) frame_info.outer_bevel=argument_list[4].integer_reference; if (attribute_flag[5] != 0) QueryColorCompliance(argument_list[5].string_reference, AllCompliance,&fill_color,exception); if (attribute_flag[6] != 0) QueryColorCompliance(argument_list[6].string_reference, AllCompliance,&fill_color,exception); frame_info.x=(ssize_t) frame_info.width; frame_info.y=(ssize_t) frame_info.height; frame_info.width=image->columns+2*frame_info.x; frame_info.height=image->rows+2*frame_info.y; if ((attribute_flag[5] != 0) || (attribute_flag[6] != 0)) image->alpha_color=fill_color; compose=image->compose; if (attribute_flag[7] != 0) compose=(CompositeOperator) argument_list[7].integer_reference; image=FrameImage(image,&frame_info,compose,exception); break; } case 16: /* Implode */ { PixelInterpolateMethod method; if (attribute_flag[0] == 0) argument_list[0].real_reference=0.5; method=UndefinedInterpolatePixel; if (attribute_flag[1] != 0) method=(PixelInterpolateMethod) argument_list[1].integer_reference; image=ImplodeImage(image,argument_list[0].real_reference, method,exception); break; } case 17: /* Magnify */ { image=MagnifyImage(image,exception); break; } case 18: /* MedianFilter */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=geometry_info.rho; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=StatisticImage(image,MedianStatistic,(size_t) geometry_info.rho, (size_t) geometry_info.sigma,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 19: /* Minify */ { image=MinifyImage(image,exception); break; } case 20: /* OilPaint */ { if (attribute_flag[0] == 0) argument_list[0].real_reference=0.0; if (attribute_flag[1] == 0) argument_list[1].real_reference=1.0; image=OilPaintImage(image,argument_list[0].real_reference, argument_list[1].real_reference,exception); break; } case 21: /* ReduceNoise */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=StatisticImage(image,NonpeakStatistic,(size_t) geometry_info.rho,(size_t) geometry_info.sigma,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 22: /* Roll */ { if (attribute_flag[0] != 0) { flags=ParsePageGeometry(image,argument_list[0].string_reference, &geometry,exception); if ((flags & PercentValue) != 0) { geometry.x*=(double) image->columns/100.0; geometry.y*=(double) image->rows/100.0; } } if (attribute_flag[1] != 0) geometry.x=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.y=argument_list[2].integer_reference; image=RollImage(image,geometry.x,geometry.y,exception); break; } case 23: /* Rotate */ { if (attribute_flag[0] == 0) argument_list[0].real_reference=90.0; if (attribute_flag[1] != 0) { QueryColorCompliance(argument_list[1].string_reference, AllCompliance,&image->background_color,exception); if ((image->background_color.alpha_trait != UndefinedPixelTrait) && (image->alpha_trait == UndefinedPixelTrait)) (void) SetImageAlpha(image,OpaqueAlpha,exception); } image=RotateImage(image,argument_list[0].real_reference,exception); break; } case 24: /* Sample */ { if (attribute_flag[0] != 0) flags=ParseRegionGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; image=SampleImage(image,geometry.width,geometry.height,exception); break; } case 25: /* Scale */ { if (attribute_flag[0] != 0) flags=ParseRegionGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; image=ScaleImage(image,geometry.width,geometry.height,exception); break; } case 26: /* Shade */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=0.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; image=ShadeImage(image, argument_list[3].integer_reference != 0 ? MagickTrue : MagickFalse, geometry_info.rho,geometry_info.sigma,exception); break; } case 27: /* Sharpen */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=SharpenImage(image,geometry_info.rho,geometry_info.sigma, exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 28: /* Shear */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=geometry_info.rho; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) QueryColorCompliance(argument_list[3].string_reference, AllCompliance,&image->background_color,exception); if (attribute_flag[4] != 0) QueryColorCompliance(argument_list[4].string_reference, AllCompliance,&image->background_color,exception); image=ShearImage(image,geometry_info.rho,geometry_info.sigma, exception); break; } case 29: /* Spread */ { PixelInterpolateMethod method; if (attribute_flag[0] == 0) argument_list[0].real_reference=1.0; method=UndefinedInterpolatePixel; if (attribute_flag[1] != 0) method=(PixelInterpolateMethod) argument_list[1].integer_reference; image=SpreadImage(image,method,argument_list[0].real_reference, exception); break; } case 30: /* Swirl */ { PixelInterpolateMethod method; if (attribute_flag[0] == 0) argument_list[0].real_reference=50.0; method=UndefinedInterpolatePixel; if (attribute_flag[1] != 0) method=(PixelInterpolateMethod) argument_list[1].integer_reference; image=SwirlImage(image,argument_list[0].real_reference, method,exception); break; } case 31: /* Resize */ case 32: /* Zoom */ { if (attribute_flag[0] != 0) flags=ParseRegionGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] == 0) argument_list[3].integer_reference=(ssize_t) UndefinedFilter; if (attribute_flag[4] != 0) SetImageArtifact(image,"filter:support", argument_list[4].string_reference); image=ResizeImage(image,geometry.width,geometry.height, (FilterType) argument_list[3].integer_reference, exception); break; } case 33: /* Annotate */ { DrawInfo *draw_info; draw_info=CloneDrawInfo(info ? info->image_info : (ImageInfo *) NULL, (DrawInfo *) NULL); if (attribute_flag[0] != 0) { char *text; text=InterpretImageProperties(info ? info->image_info : (ImageInfo *) NULL,image,argument_list[0].string_reference, exception); (void) CloneString(&draw_info->text,text); text=DestroyString(text); } if (attribute_flag[1] != 0) (void) CloneString(&draw_info->font, argument_list[1].string_reference); if (attribute_flag[2] != 0) draw_info->pointsize=argument_list[2].real_reference; if (attribute_flag[3] != 0) (void) CloneString(&draw_info->density, argument_list[3].string_reference); if (attribute_flag[4] != 0) (void) QueryColorCompliance(argument_list[4].string_reference, AllCompliance,&draw_info->undercolor,exception); if (attribute_flag[5] != 0) { (void) QueryColorCompliance(argument_list[5].string_reference, AllCompliance,&draw_info->stroke,exception); if (argument_list[5].image_reference != (Image *) NULL) draw_info->stroke_pattern=CloneImage( argument_list[5].image_reference,0,0,MagickTrue,exception); } if (attribute_flag[6] != 0) { (void) QueryColorCompliance(argument_list[6].string_reference, AllCompliance,&draw_info->fill,exception); if (argument_list[6].image_reference != (Image *) NULL) draw_info->fill_pattern=CloneImage( argument_list[6].image_reference,0,0,MagickTrue,exception); } if (attribute_flag[7] != 0) { (void) CloneString(&draw_info->geometry, argument_list[7].string_reference); flags=ParsePageGeometry(image,argument_list[7].string_reference, &geometry,exception); if (((flags & SigmaValue) == 0) && ((flags & XiValue) != 0)) geometry_info.sigma=geometry_info.xi; } if (attribute_flag[8] != 0) (void) QueryColorCompliance(argument_list[8].string_reference, AllCompliance,&draw_info->fill,exception); if (attribute_flag[11] != 0) draw_info->gravity=(GravityType) argument_list[11].integer_reference; if (attribute_flag[25] != 0) { AV *av; av=(AV *) argument_list[25].array_reference; if ((av_len(av) != 3) && (av_len(av) != 5)) { ThrowPerlException(exception,OptionError, "affine matrix must have 4 or 6 elements",PackageName); goto PerlException; } draw_info->affine.sx=(double) SvNV(*(av_fetch(av,0,0))); draw_info->affine.rx=(double) SvNV(*(av_fetch(av,1,0))); draw_info->affine.ry=(double) SvNV(*(av_fetch(av,2,0))); draw_info->affine.sy=(double) SvNV(*(av_fetch(av,3,0))); if (fabs(draw_info->affine.sx*draw_info->affine.sy- draw_info->affine.rx*draw_info->affine.ry) < MagickEpsilon) { ThrowPerlException(exception,OptionError, "affine matrix is singular",PackageName); goto PerlException; } if (av_len(av) == 5) { draw_info->affine.tx=(double) SvNV(*(av_fetch(av,4,0))); draw_info->affine.ty=(double) SvNV(*(av_fetch(av,5,0))); } } for (j=12; j < 17; j++) { if (attribute_flag[j] == 0) continue; value=argument_list[j].string_reference; angle=argument_list[j].real_reference; current=draw_info->affine; GetAffineMatrix(&affine); switch (j) { case 12: { /* Translate. */ flags=ParseGeometry(value,&geometry_info); affine.tx=geometry_info.xi; affine.ty=geometry_info.psi; if ((flags & PsiValue) == 0) affine.ty=affine.tx; break; } case 13: { /* Scale. */ flags=ParseGeometry(value,&geometry_info); affine.sx=geometry_info.rho; affine.sy=geometry_info.sigma; if ((flags & SigmaValue) == 0) affine.sy=affine.sx; break; } case 14: { /* Rotate. */ if (angle == 0.0) break; affine.sx=cos(DegreesToRadians(fmod(angle,360.0))); affine.rx=sin(DegreesToRadians(fmod(angle,360.0))); affine.ry=(-sin(DegreesToRadians(fmod(angle,360.0)))); affine.sy=cos(DegreesToRadians(fmod(angle,360.0))); break; } case 15: { /* SkewX. */ affine.ry=tan(DegreesToRadians(fmod(angle,360.0))); break; } case 16: { /* SkewY. */ affine.rx=tan(DegreesToRadians(fmod(angle,360.0))); break; } } draw_info->affine.sx=current.sx*affine.sx+current.ry*affine.rx; draw_info->affine.rx=current.rx*affine.sx+current.sy*affine.rx; draw_info->affine.ry=current.sx*affine.ry+current.ry*affine.sy; draw_info->affine.sy=current.rx*affine.ry+current.sy*affine.sy; draw_info->affine.tx=current.sx*affine.tx+current.ry*affine.ty+ current.tx; draw_info->affine.ty=current.rx*affine.tx+current.sy*affine.ty+ current.ty; } if (attribute_flag[9] == 0) argument_list[9].real_reference=0.0; if (attribute_flag[10] == 0) argument_list[10].real_reference=0.0; if ((attribute_flag[9] != 0) || (attribute_flag[10] != 0)) { char geometry[MagickPathExtent]; (void) FormatLocaleString(geometry,MagickPathExtent,"%+f%+f", (double) argument_list[9].real_reference+draw_info->affine.tx, (double) argument_list[10].real_reference+draw_info->affine.ty); (void) CloneString(&draw_info->geometry,geometry); } if (attribute_flag[17] != 0) draw_info->stroke_width=argument_list[17].real_reference; if (attribute_flag[18] != 0) { draw_info->text_antialias= argument_list[18].integer_reference != 0 ? MagickTrue : MagickFalse; draw_info->stroke_antialias=draw_info->text_antialias; } if (attribute_flag[19] != 0) (void) CloneString(&draw_info->family, argument_list[19].string_reference); if (attribute_flag[20] != 0) draw_info->style=(StyleType) argument_list[20].integer_reference; if (attribute_flag[21] != 0) draw_info->stretch=(StretchType) argument_list[21].integer_reference; if (attribute_flag[22] != 0) draw_info->weight=argument_list[22].integer_reference; if (attribute_flag[23] != 0) draw_info->align=(AlignType) argument_list[23].integer_reference; if (attribute_flag[24] != 0) (void) CloneString(&draw_info->encoding, argument_list[24].string_reference); if (attribute_flag[25] != 0) draw_info->fill_pattern=CloneImage( argument_list[25].image_reference,0,0,MagickTrue,exception); if (attribute_flag[26] != 0) draw_info->fill_pattern=CloneImage( argument_list[26].image_reference,0,0,MagickTrue,exception); if (attribute_flag[27] != 0) draw_info->stroke_pattern=CloneImage( argument_list[27].image_reference,0,0,MagickTrue,exception); if (attribute_flag[29] != 0) draw_info->kerning=argument_list[29].real_reference; if (attribute_flag[30] != 0) draw_info->interline_spacing=argument_list[30].real_reference; if (attribute_flag[31] != 0) draw_info->interword_spacing=argument_list[31].real_reference; if (attribute_flag[32] != 0) draw_info->direction=(DirectionType) argument_list[32].integer_reference; if (attribute_flag[33] != 0) draw_info->decorate=(DecorationType) argument_list[33].integer_reference; (void) AnnotateImage(image,draw_info,exception); draw_info=DestroyDrawInfo(draw_info); break; } case 34: /* ColorFloodfill */ { DrawInfo *draw_info; MagickBooleanType invert; PixelInfo target; draw_info=CloneDrawInfo(info ? info->image_info : (ImageInfo *) NULL,(DrawInfo *) NULL); if (attribute_flag[0] != 0) flags=ParsePageGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.x=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.y=argument_list[2].integer_reference; if (attribute_flag[3] != 0) (void) QueryColorCompliance(argument_list[3].string_reference, AllCompliance,&draw_info->fill,exception); (void) GetOneVirtualPixelInfo(image,UndefinedVirtualPixelMethod, geometry.x,geometry.y,&target,exception); invert=MagickFalse; if (attribute_flag[4] != 0) { QueryColorCompliance(argument_list[4].string_reference, AllCompliance,&target,exception); invert=MagickTrue; } if (attribute_flag[5] != 0) image->fuzz=StringToDoubleInterval( argument_list[5].string_reference,(double) QuantumRange+1.0); if (attribute_flag[6] != 0) invert=(MagickBooleanType) argument_list[6].integer_reference; (void) FloodfillPaintImage(image,draw_info,&target,geometry.x, geometry.y,invert,exception); draw_info=DestroyDrawInfo(draw_info); break; } case 35: /* Composite */ { char composite_geometry[MagickPathExtent]; Image *composite_image, *rotate_image; MagickBooleanType clip_to_self; compose=OverCompositeOp; if (attribute_flag[0] != 0) composite_image=argument_list[0].image_reference; else { ThrowPerlException(exception,OptionError, "CompositeImageRequired",PackageName); goto PerlException; } /* Parameter Handling used for BOTH normal and tiled composition. */ if (attribute_flag[1] != 0) /* compose */ compose=(CompositeOperator) argument_list[1].integer_reference; if (attribute_flag[6] != 0) /* opacity */ { if (compose != DissolveCompositeOp) (void) SetImageAlpha(composite_image,(Quantum) StringToDoubleInterval(argument_list[6].string_reference, (double) QuantumRange+1.0),exception); else { CacheView *composite_view; double opacity; MagickBooleanType sync; ssize_t x; Quantum *q; ssize_t y; /* Handle dissolve composite operator (patch by Kevin A. McGrail). */ (void) CloneString(&image->geometry, argument_list[6].string_reference); opacity=(Quantum) StringToDoubleInterval( argument_list[6].string_reference,(double) QuantumRange+ 1.0); if (composite_image->alpha_trait != UndefinedPixelTrait) (void) SetImageAlpha(composite_image,OpaqueAlpha,exception); composite_view=AcquireAuthenticCacheView(composite_image, exception); for (y=0; y < (ssize_t) composite_image->rows ; y++) { q=GetCacheViewAuthenticPixels(composite_view,0,y,(ssize_t) composite_image->columns,1,exception); for (x=0; x < (ssize_t) composite_image->columns; x++) { if (GetPixelAlpha(image,q) == OpaqueAlpha) SetPixelAlpha(composite_image,ClampToQuantum(opacity), q); q+=GetPixelChannels(composite_image); } sync=SyncCacheViewAuthenticPixels(composite_view,exception); if (sync == MagickFalse) break; } composite_view=DestroyCacheView(composite_view); } } if (attribute_flag[9] != 0) /* "color=>" */ QueryColorCompliance(argument_list[9].string_reference, AllCompliance,&composite_image->background_color,exception); if (attribute_flag[12] != 0) /* "interpolate=>" */ image->interpolate=(PixelInterpolateMethod) argument_list[12].integer_reference; if (attribute_flag[13] != 0) /* "args=>" */ (void) SetImageArtifact(composite_image,"compose:args", argument_list[13].string_reference); if (attribute_flag[14] != 0) /* "blend=>" depreciated */ (void) SetImageArtifact(composite_image,"compose:args", argument_list[14].string_reference); clip_to_self=MagickTrue; switch (compose) { case ClearCompositeOp: case SrcCompositeOp: case InCompositeOp: case SrcInCompositeOp: case OutCompositeOp: case SrcOutCompositeOp: case DstInCompositeOp: case DstAtopCompositeOp: case CopyAlphaCompositeOp: case ChangeMaskCompositeOp: case DissolveCompositeOp: case BlendCompositeOp: { clip_to_self=MagickFalse; break; } default: break; } if (attribute_flag[15] != 0) clip_to_self=(MagickBooleanType) argument_list[15].integer_reference; /* Tiling Composition (with orthogonal rotate). */ rotate_image=(Image *) NULL; if (attribute_flag[8] != 0) /* "rotate=>" */ { /* Rotate image. */ rotate_image=RotateImage(composite_image, argument_list[8].real_reference,exception); if (rotate_image == (Image *) NULL) break; } if ((attribute_flag[7] != 0) && (argument_list[7].integer_reference != 0)) /* tile */ { ssize_t x, y; /* Tile the composite image. */ for (y=0; y < (ssize_t) image->rows; y+=(ssize_t) composite_image->rows) for (x=0; x < (ssize_t) image->columns; x+=(ssize_t) composite_image->columns) { if (attribute_flag[8] != 0) /* rotate */ (void) CompositeImage(image,rotate_image,compose, MagickTrue,x,y,exception); else (void) CompositeImage(image,composite_image,compose, MagickTrue,x,y,exception); } if (attribute_flag[8] != 0) /* rotate */ rotate_image=DestroyImage(rotate_image); break; } /* Parameter Handling used used ONLY for normal composition. */ if (attribute_flag[5] != 0) /* gravity */ image->gravity=(GravityType) argument_list[5].integer_reference; if (attribute_flag[2] != 0) /* geometry offset */ { SetGeometry(image,&geometry); (void) ParseAbsoluteGeometry(argument_list[2].string_reference, &geometry); GravityAdjustGeometry(image->columns,image->rows,image->gravity, &geometry); } if (attribute_flag[3] != 0) /* x offset */ geometry.x=argument_list[3].integer_reference; if (attribute_flag[4] != 0) /* y offset */ geometry.y=argument_list[4].integer_reference; if (attribute_flag[10] != 0) /* mask */ { if ((image->compose == DisplaceCompositeOp) || (image->compose == DistortCompositeOp)) { /* Merge Y displacement into X displacement image. */ composite_image=CloneImage(composite_image,0,0,MagickTrue, exception); (void) CompositeImage(composite_image, argument_list[10].image_reference,CopyGreenCompositeOp, clip_to_self,0,0,exception); } else { Image *mask_image; /* Set a blending mask for the composition. */ mask_image=CloneImage(argument_list[10].image_reference,0,0, MagickTrue,exception); (void) SetImageMask(composite_image,ReadPixelMask,mask_image, exception); mask_image=DestroyImage(mask_image); } } if (attribute_flag[11] != 0) /* channel */ channel=(ChannelType) argument_list[11].integer_reference; /* Composite two images (normal composition). */ (void) FormatLocaleString(composite_geometry,MagickPathExtent, "%.20gx%.20g%+.20g%+.20g",(double) composite_image->columns, (double) composite_image->rows,(double) geometry.x,(double) geometry.y); flags=ParseGravityGeometry(image,composite_geometry,&geometry, exception); channel_mask=SetImageChannelMask(image,channel); if (attribute_flag[8] == 0) /* no rotate */ CompositeImage(image,composite_image,compose,clip_to_self, geometry.x,geometry.y,exception); else { /* Position adjust rotated image then composite. */ geometry.x-=(ssize_t) (rotate_image->columns- composite_image->columns)/2; geometry.y-=(ssize_t) (rotate_image->rows- composite_image->rows)/2; CompositeImage(image,rotate_image,compose,clip_to_self,geometry.x, geometry.y,exception); rotate_image=DestroyImage(rotate_image); } if (attribute_flag[10] != 0) /* mask */ { if ((image->compose == DisplaceCompositeOp) || (image->compose == DistortCompositeOp)) composite_image=DestroyImage(composite_image); else (void) SetImageMask(image,ReadPixelMask,(Image *) NULL, exception); } (void) SetImageChannelMask(image,channel_mask); break; } case 36: /* Contrast */ { if (attribute_flag[0] == 0) argument_list[0].integer_reference=0; (void) ContrastImage(image,argument_list[0].integer_reference != 0 ? MagickTrue : MagickFalse,exception); break; } case 37: /* CycleColormap */ { if (attribute_flag[0] == 0) argument_list[0].integer_reference=6; (void) CycleColormapImage(image,argument_list[0].integer_reference, exception); break; } case 38: /* Draw */ { DrawInfo *draw_info; draw_info=CloneDrawInfo(info ? info->image_info : (ImageInfo *) NULL, (DrawInfo *) NULL); (void) CloneString(&draw_info->primitive,"point"); if (attribute_flag[0] != 0) { if (argument_list[0].integer_reference < 0) (void) CloneString(&draw_info->primitive, argument_list[0].string_reference); else (void) CloneString(&draw_info->primitive, CommandOptionToMnemonic(MagickPrimitiveOptions, argument_list[0].integer_reference)); } if (attribute_flag[1] != 0) { if (LocaleCompare(draw_info->primitive,"path") == 0) { (void) ConcatenateString(&draw_info->primitive," '"); ConcatenateString(&draw_info->primitive, argument_list[1].string_reference); (void) ConcatenateString(&draw_info->primitive,"'"); } else { (void) ConcatenateString(&draw_info->primitive," "); ConcatenateString(&draw_info->primitive, argument_list[1].string_reference); } } if (attribute_flag[2] != 0) { (void) ConcatenateString(&draw_info->primitive," "); (void) ConcatenateString(&draw_info->primitive, CommandOptionToMnemonic(MagickMethodOptions, argument_list[2].integer_reference)); } if (attribute_flag[3] != 0) { (void) QueryColorCompliance(argument_list[3].string_reference, AllCompliance,&draw_info->stroke,exception); if (argument_list[3].image_reference != (Image *) NULL) draw_info->stroke_pattern=CloneImage( argument_list[3].image_reference,0,0,MagickTrue,exception); } if (attribute_flag[4] != 0) { (void) QueryColorCompliance(argument_list[4].string_reference, AllCompliance,&draw_info->fill,exception); if (argument_list[4].image_reference != (Image *) NULL) draw_info->fill_pattern=CloneImage( argument_list[4].image_reference,0,0,MagickTrue,exception); } if (attribute_flag[5] != 0) draw_info->stroke_width=argument_list[5].real_reference; if (attribute_flag[6] != 0) (void) CloneString(&draw_info->font, argument_list[6].string_reference); if (attribute_flag[7] != 0) (void) QueryColorCompliance(argument_list[7].string_reference, AllCompliance,&draw_info->border_color,exception); if (attribute_flag[8] != 0) draw_info->affine.tx=argument_list[8].real_reference; if (attribute_flag[9] != 0) draw_info->affine.ty=argument_list[9].real_reference; if (attribute_flag[20] != 0) { AV *av; av=(AV *) argument_list[20].array_reference; if ((av_len(av) != 3) && (av_len(av) != 5)) { ThrowPerlException(exception,OptionError, "affine matrix must have 4 or 6 elements",PackageName); goto PerlException; } draw_info->affine.sx=(double) SvNV(*(av_fetch(av,0,0))); draw_info->affine.rx=(double) SvNV(*(av_fetch(av,1,0))); draw_info->affine.ry=(double) SvNV(*(av_fetch(av,2,0))); draw_info->affine.sy=(double) SvNV(*(av_fetch(av,3,0))); if (fabs(draw_info->affine.sx*draw_info->affine.sy- draw_info->affine.rx*draw_info->affine.ry) < MagickEpsilon) { ThrowPerlException(exception,OptionError, "affine matrix is singular",PackageName); goto PerlException; } if (av_len(av) == 5) { draw_info->affine.tx=(double) SvNV(*(av_fetch(av,4,0))); draw_info->affine.ty=(double) SvNV(*(av_fetch(av,5,0))); } } for (j=10; j < 15; j++) { if (attribute_flag[j] == 0) continue; value=argument_list[j].string_reference; angle=argument_list[j].real_reference; current=draw_info->affine; GetAffineMatrix(&affine); switch (j) { case 10: { /* Translate. */ flags=ParseGeometry(value,&geometry_info); affine.tx=geometry_info.xi; affine.ty=geometry_info.psi; if ((flags & PsiValue) == 0) affine.ty=affine.tx; break; } case 11: { /* Scale. */ flags=ParseGeometry(value,&geometry_info); affine.sx=geometry_info.rho; affine.sy=geometry_info.sigma; if ((flags & SigmaValue) == 0) affine.sy=affine.sx; break; } case 12: { /* Rotate. */ if (angle == 0.0) break; affine.sx=cos(DegreesToRadians(fmod(angle,360.0))); affine.rx=sin(DegreesToRadians(fmod(angle,360.0))); affine.ry=(-sin(DegreesToRadians(fmod(angle,360.0)))); affine.sy=cos(DegreesToRadians(fmod(angle,360.0))); break; } case 13: { /* SkewX. */ affine.ry=tan(DegreesToRadians(fmod(angle,360.0))); break; } case 14: { /* SkewY. */ affine.rx=tan(DegreesToRadians(fmod(angle,360.0))); break; } } draw_info->affine.sx=current.sx*affine.sx+current.ry*affine.rx; draw_info->affine.rx=current.rx*affine.sx+current.sy*affine.rx; draw_info->affine.ry=current.sx*affine.ry+current.ry*affine.sy; draw_info->affine.sy=current.rx*affine.ry+current.sy*affine.sy; draw_info->affine.tx= current.sx*affine.tx+current.ry*affine.ty+current.tx; draw_info->affine.ty= current.rx*affine.tx+current.sy*affine.ty+current.ty; } if (attribute_flag[15] != 0) draw_info->fill_pattern=CloneImage( argument_list[15].image_reference,0,0,MagickTrue,exception); if (attribute_flag[16] != 0) draw_info->pointsize=argument_list[16].real_reference; if (attribute_flag[17] != 0) { draw_info->stroke_antialias= argument_list[17].integer_reference != 0 ? MagickTrue : MagickFalse; draw_info->text_antialias=draw_info->stroke_antialias; } if (attribute_flag[18] != 0) (void) CloneString(&draw_info->density, argument_list[18].string_reference); if (attribute_flag[19] != 0) draw_info->stroke_width=argument_list[19].real_reference; if (attribute_flag[21] != 0) draw_info->dash_offset=argument_list[21].real_reference; if (attribute_flag[22] != 0) { AV *av; av=(AV *) argument_list[22].array_reference; draw_info->dash_pattern=(double *) AcquireQuantumMemory( av_len(av)+2UL,sizeof(*draw_info->dash_pattern)); if (draw_info->dash_pattern != (double *) NULL) { for (i=0; i <= av_len(av); i++) draw_info->dash_pattern[i]=(double) SvNV(*(av_fetch(av,i,0))); draw_info->dash_pattern[i]=0.0; } } if (attribute_flag[23] != 0) image->interpolate=(PixelInterpolateMethod) argument_list[23].integer_reference; if ((attribute_flag[24] != 0) && (draw_info->fill_pattern != (Image *) NULL)) flags=ParsePageGeometry(draw_info->fill_pattern, argument_list[24].string_reference, &draw_info->fill_pattern->tile_offset,exception); if (attribute_flag[25] != 0) { (void) ConcatenateString(&draw_info->primitive," '"); (void) ConcatenateString(&draw_info->primitive, argument_list[25].string_reference); (void) ConcatenateString(&draw_info->primitive,"'"); } if (attribute_flag[26] != 0) draw_info->fill_pattern=CloneImage( argument_list[26].image_reference,0,0,MagickTrue,exception); if (attribute_flag[27] != 0) draw_info->stroke_pattern=CloneImage( argument_list[27].image_reference,0,0,MagickTrue,exception); if (attribute_flag[28] != 0) (void) CloneString(&draw_info->primitive, argument_list[28].string_reference); if (attribute_flag[29] != 0) draw_info->kerning=argument_list[29].real_reference; if (attribute_flag[30] != 0) draw_info->interline_spacing=argument_list[30].real_reference; if (attribute_flag[31] != 0) draw_info->interword_spacing=argument_list[31].real_reference; if (attribute_flag[32] != 0) draw_info->direction=(DirectionType) argument_list[32].integer_reference; DrawImage(image,draw_info,exception); draw_info=DestroyDrawInfo(draw_info); break; } case 39: /* Equalize */ { if (attribute_flag[0] != 0) channel=(ChannelType) argument_list[0].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) EqualizeImage(image,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 40: /* Gamma */ { if (attribute_flag[1] != 0) channel=(ChannelType) argument_list[1].integer_reference; if (attribute_flag[2] == 0) argument_list[2].real_reference=1.0; if (attribute_flag[3] == 0) argument_list[3].real_reference=1.0; if (attribute_flag[4] == 0) argument_list[4].real_reference=1.0; if (attribute_flag[0] == 0) { (void) FormatLocaleString(message,MagickPathExtent, "%.20g,%.20g,%.20g",(double) argument_list[2].real_reference, (double) argument_list[3].real_reference, (double) argument_list[4].real_reference); argument_list[0].string_reference=message; } (void) GammaImage(image,StringToDouble( argument_list[0].string_reference,(char **) NULL),exception); break; } case 41: /* Map */ { QuantizeInfo *quantize_info; if (attribute_flag[0] == 0) { ThrowPerlException(exception,OptionError,"MapImageRequired", PackageName); goto PerlException; } quantize_info=AcquireQuantizeInfo(info->image_info); if (attribute_flag[1] != 0) quantize_info->dither_method=(DitherMethod) argument_list[1].integer_reference; (void) RemapImages(quantize_info,image, argument_list[0].image_reference,exception); quantize_info=DestroyQuantizeInfo(quantize_info); break; } case 42: /* MatteFloodfill */ { DrawInfo *draw_info; MagickBooleanType invert; PixelInfo target; draw_info=CloneDrawInfo(info ? info->image_info : (ImageInfo *) NULL, (DrawInfo *) NULL); if (attribute_flag[0] != 0) flags=ParsePageGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.x=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.y=argument_list[2].integer_reference; if (image->alpha_trait == UndefinedPixelTrait) (void) SetImageAlpha(image,OpaqueAlpha,exception); (void) GetOneVirtualPixelInfo(image,UndefinedVirtualPixelMethod, geometry.x,geometry.y,&target,exception); if (attribute_flag[4] != 0) QueryColorCompliance(argument_list[4].string_reference, AllCompliance,&target,exception); if (attribute_flag[3] != 0) target.alpha=StringToDoubleInterval( argument_list[3].string_reference,(double) (double) QuantumRange+ 1.0); if (attribute_flag[5] != 0) image->fuzz=StringToDoubleInterval( argument_list[5].string_reference,(double) QuantumRange+1.0); invert=MagickFalse; if (attribute_flag[6] != 0) invert=(MagickBooleanType) argument_list[6].integer_reference; channel_mask=SetImageChannelMask(image,AlphaChannel); (void) FloodfillPaintImage(image,draw_info,&target,geometry.x, geometry.y,invert,exception); (void) SetImageChannelMask(image,channel_mask); draw_info=DestroyDrawInfo(draw_info); break; } case 43: /* Modulate */ { char modulate[MagickPathExtent]; geometry_info.rho=100.0; geometry_info.sigma=100.0; geometry_info.xi=100.0; if (attribute_flag[0] != 0) (void)ParseGeometry(argument_list[0].string_reference, &geometry_info); if (attribute_flag[1] != 0) geometry_info.xi=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) { geometry_info.sigma=argument_list[3].real_reference; SetImageArtifact(image,"modulate:colorspace","HWB"); } if (attribute_flag[4] != 0) { geometry_info.rho=argument_list[4].real_reference; SetImageArtifact(image,"modulate:colorspace","HSB"); } if (attribute_flag[5] != 0) { geometry_info.sigma=argument_list[5].real_reference; SetImageArtifact(image,"modulate:colorspace","HSL"); } if (attribute_flag[6] != 0) { geometry_info.rho=argument_list[6].real_reference; SetImageArtifact(image,"modulate:colorspace","HWB"); } (void) FormatLocaleString(modulate,MagickPathExtent, "%.20g,%.20g,%.20g",geometry_info.rho,geometry_info.sigma, geometry_info.xi); (void) ModulateImage(image,modulate,exception); break; } case 44: /* Negate */ { if (attribute_flag[0] == 0) argument_list[0].integer_reference=0; if (attribute_flag[1] != 0) channel=(ChannelType) argument_list[1].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) NegateImage(image,argument_list[0].integer_reference != 0 ? MagickTrue : MagickFalse,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 45: /* Normalize */ { if (attribute_flag[0] != 0) channel=(ChannelType) argument_list[0].integer_reference; channel_mask=SetImageChannelMask(image,channel); NormalizeImage(image,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 46: /* NumberColors */ break; case 47: /* Opaque */ { MagickBooleanType invert; PixelInfo fill_color, target; (void) QueryColorCompliance("none",AllCompliance,&target, exception); (void) QueryColorCompliance("none",AllCompliance,&fill_color, exception); if (attribute_flag[0] != 0) (void) QueryColorCompliance(argument_list[0].string_reference, AllCompliance,&target,exception); if (attribute_flag[1] != 0) (void) QueryColorCompliance(argument_list[1].string_reference, AllCompliance,&fill_color,exception); if (attribute_flag[2] != 0) image->fuzz=StringToDoubleInterval( argument_list[2].string_reference,(double) QuantumRange+1.0); if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; invert=MagickFalse; if (attribute_flag[4] != 0) invert=(MagickBooleanType) argument_list[4].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) OpaquePaintImage(image,&target,&fill_color,invert,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 48: /* Quantize */ { QuantizeInfo *quantize_info; quantize_info=AcquireQuantizeInfo(info->image_info); if (attribute_flag[0] != 0) quantize_info->number_colors=(size_t) argument_list[0].integer_reference; if (attribute_flag[1] != 0) quantize_info->tree_depth=(size_t) argument_list[1].integer_reference; if (attribute_flag[2] != 0) quantize_info->colorspace=(ColorspaceType) argument_list[2].integer_reference; if (attribute_flag[3] != 0) quantize_info->dither_method=(DitherMethod) argument_list[3].integer_reference; if (attribute_flag[4] != 0) quantize_info->measure_error= argument_list[4].integer_reference != 0 ? MagickTrue : MagickFalse; if (attribute_flag[6] != 0) (void) QueryColorCompliance(argument_list[6].string_reference, AllCompliance,&image->transparent_color,exception); if (attribute_flag[7] != 0) quantize_info->dither_method=(DitherMethod) argument_list[7].integer_reference; if (attribute_flag[5] && argument_list[5].integer_reference) (void) QuantizeImages(quantize_info,image,exception); else if ((image->storage_class == DirectClass) || (image->colors > quantize_info->number_colors) || (quantize_info->colorspace == GRAYColorspace)) (void) QuantizeImage(quantize_info,image,exception); else CompressImageColormap(image,exception); quantize_info=DestroyQuantizeInfo(quantize_info); break; } case 49: /* Raise */ { if (attribute_flag[0] != 0) flags=ParsePageGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] == 0) argument_list[3].integer_reference=1; (void) RaiseImage(image,&geometry, argument_list[3].integer_reference != 0 ? MagickTrue : MagickFalse, exception); break; } case 50: /* Segment */ { ColorspaceType colorspace; double cluster_threshold, smoothing_threshold; MagickBooleanType verbose; cluster_threshold=1.0; smoothing_threshold=1.5; colorspace=sRGBColorspace; verbose=MagickFalse; if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); cluster_threshold=geometry_info.rho; if (flags & SigmaValue) smoothing_threshold=geometry_info.sigma; } if (attribute_flag[1] != 0) cluster_threshold=argument_list[1].real_reference; if (attribute_flag[2] != 0) smoothing_threshold=argument_list[2].real_reference; if (attribute_flag[3] != 0) colorspace=(ColorspaceType) argument_list[3].integer_reference; if (attribute_flag[4] != 0) verbose=argument_list[4].integer_reference != 0 ? MagickTrue : MagickFalse; (void) SegmentImage(image,colorspace,verbose,cluster_threshold, smoothing_threshold,exception); break; } case 51: /* Signature */ { (void) SignatureImage(image,exception); break; } case 52: /* Solarize */ { geometry_info.rho=QuantumRange/2.0; if (attribute_flag[0] != 0) flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if (attribute_flag[1] != 0) geometry_info.rho=StringToDoubleInterval( argument_list[1].string_reference,(double) QuantumRange+1.0); (void) SolarizeImage(image,geometry_info.rho,exception); break; } case 53: /* Sync */ { (void) SyncImage(image,exception); break; } case 54: /* Texture */ { if (attribute_flag[0] == 0) break; TextureImage(image,argument_list[0].image_reference,exception); break; } case 55: /* Evalute */ { MagickEvaluateOperator op; op=SetEvaluateOperator; if (attribute_flag[0] == MagickFalse) argument_list[0].real_reference=0.0; if (attribute_flag[1] != MagickFalse) op=(MagickEvaluateOperator) argument_list[1].integer_reference; if (attribute_flag[2] != MagickFalse) channel=(ChannelType) argument_list[2].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) EvaluateImage(image,op,argument_list[0].real_reference, exception); (void) SetImageChannelMask(image,channel_mask); break; } case 56: /* Transparent */ { double opacity; MagickBooleanType invert; PixelInfo target; (void) QueryColorCompliance("none",AllCompliance,&target, exception); if (attribute_flag[0] != 0) (void) QueryColorCompliance(argument_list[0].string_reference, AllCompliance,&target,exception); opacity=TransparentAlpha; if (attribute_flag[1] != 0) opacity=StringToDoubleInterval(argument_list[1].string_reference, (double) QuantumRange+1.0); if (attribute_flag[2] != 0) image->fuzz=StringToDoubleInterval( argument_list[2].string_reference,(double) QuantumRange+1.0); if (attribute_flag[3] == 0) argument_list[3].integer_reference=0; invert=MagickFalse; if (attribute_flag[3] != 0) invert=(MagickBooleanType) argument_list[3].integer_reference; (void) TransparentPaintImage(image,&target,ClampToQuantum(opacity), invert,exception); break; } case 57: /* Threshold */ { double threshold; if (attribute_flag[0] == 0) argument_list[0].string_reference="50%"; if (attribute_flag[1] != 0) channel=(ChannelType) argument_list[1].integer_reference; threshold=StringToDoubleInterval(argument_list[0].string_reference, (double) QuantumRange+1.0); channel_mask=SetImageChannelMask(image,channel); (void) BilevelImage(image,threshold,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 58: /* Charcoal */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; image=CharcoalImage(image,geometry_info.rho,geometry_info.sigma, exception); break; } case 59: /* Trim */ { if (attribute_flag[0] != 0) image->fuzz=StringToDoubleInterval( argument_list[0].string_reference,(double) QuantumRange+1.0); image=TrimImage(image,exception); break; } case 60: /* Wave */ { PixelInterpolateMethod method; if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; method=UndefinedInterpolatePixel; if (attribute_flag[3] != 0) method=(PixelInterpolateMethod) argument_list[3].integer_reference; image=WaveImage(image,geometry_info.rho,geometry_info.sigma, method,exception); break; } case 61: /* Separate */ { if (attribute_flag[0] != 0) channel=(ChannelType) argument_list[0].integer_reference; image=SeparateImage(image,channel,exception); break; } case 63: /* Stereo */ { if (attribute_flag[0] == 0) { ThrowPerlException(exception,OptionError,"StereoImageRequired", PackageName); goto PerlException; } if (attribute_flag[1] != 0) geometry.x=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.y=argument_list[2].integer_reference; image=StereoAnaglyphImage(image,argument_list[0].image_reference, geometry.x,geometry.y,exception); break; } case 64: /* Stegano */ { if (attribute_flag[0] == 0) { ThrowPerlException(exception,OptionError,"SteganoImageRequired", PackageName); goto PerlException; } if (attribute_flag[1] == 0) argument_list[1].integer_reference=0; image->offset=argument_list[1].integer_reference; image=SteganoImage(image,argument_list[0].image_reference,exception); break; } case 65: /* Deconstruct */ { image=CompareImagesLayers(image,CompareAnyLayer,exception); break; } case 66: /* GaussianBlur */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=GaussianBlurImage(image,geometry_info.rho,geometry_info.sigma, exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 67: /* Convolve */ { KernelInfo *kernel; kernel=(KernelInfo *) NULL; if ((attribute_flag[0] == 0) && (attribute_flag[3] == 0)) break; if (attribute_flag[0] != 0) { AV *av; size_t order; kernel=AcquireKernelInfo((const char *) NULL,exception); if (kernel == (KernelInfo *) NULL) break; av=(AV *) argument_list[0].array_reference; order=(size_t) sqrt(av_len(av)+1); kernel->width=order; kernel->height=order; kernel->values=(MagickRealType *) AcquireAlignedMemory(order, order*sizeof(*kernel->values)); if (kernel->values == (MagickRealType *) NULL) { kernel=DestroyKernelInfo(kernel); ThrowPerlException(exception,ResourceLimitFatalError, "MemoryAllocationFailed",PackageName); goto PerlException; } for (j=0; (j < (ssize_t) (order*order)) && (j < (av_len(av)+1)); j++) kernel->values[j]=(MagickRealType) SvNV(*(av_fetch(av,j,0))); for ( ; j < (ssize_t) (order*order); j++) kernel->values[j]=0.0; } if (attribute_flag[1] != 0) channel=(ChannelType) argument_list[1].integer_reference; if (attribute_flag[2] != 0) SetImageArtifact(image,"convolve:bias", argument_list[2].string_reference); if (attribute_flag[3] != 0) { kernel=AcquireKernelInfo(argument_list[3].string_reference, exception); if (kernel == (KernelInfo *) NULL) break; } channel_mask=SetImageChannelMask(image,channel); image=ConvolveImage(image,kernel,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); kernel=DestroyKernelInfo(kernel); break; } case 68: /* Profile */ { const char *name; Image *profile_image; ImageInfo *profile_info; StringInfo *profile; name="*"; if (attribute_flag[0] != 0) name=argument_list[0].string_reference; if (attribute_flag[2] != 0) image->rendering_intent=(RenderingIntent) argument_list[2].integer_reference; if (attribute_flag[3] != 0) image->black_point_compensation= argument_list[3].integer_reference != 0 ? MagickTrue : MagickFalse; if (attribute_flag[1] != 0) { if (argument_list[1].length == 0) { /* Remove a profile from the image. */ (void) ProfileImage(image,name,(const unsigned char *) NULL,0, exception); break; } /* Associate user supplied profile with the image. */ profile=AcquireStringInfo(argument_list[1].length); SetStringInfoDatum(profile,(const unsigned char *) argument_list[1].string_reference); (void) ProfileImage(image,name,GetStringInfoDatum(profile), (size_t) GetStringInfoLength(profile),exception); profile=DestroyStringInfo(profile); break; } /* Associate a profile with the image. */ profile_info=CloneImageInfo(info ? info->image_info : (ImageInfo *) NULL); profile_image=ReadImages(profile_info,name,exception); if (profile_image == (Image *) NULL) break; ResetImageProfileIterator(profile_image); name=GetNextImageProfile(profile_image); while (name != (const char *) NULL) { const StringInfo *profile; profile=GetImageProfile(profile_image,name); if (profile != (const StringInfo *) NULL) (void) ProfileImage(image,name,GetStringInfoDatum(profile), (size_t) GetStringInfoLength(profile),exception); name=GetNextImageProfile(profile_image); } profile_image=DestroyImage(profile_image); profile_info=DestroyImageInfo(profile_info); break; } case 69: /* UnsharpMask */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; if ((flags & XiValue) == 0) geometry_info.xi=1.0; if ((flags & PsiValue) == 0) geometry_info.psi=0.5; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].real_reference; if (attribute_flag[4] != 0) geometry_info.psi=argument_list[4].real_reference; if (attribute_flag[5] != 0) channel=(ChannelType) argument_list[5].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=UnsharpMaskImage(image,geometry_info.rho,geometry_info.sigma, geometry_info.xi,geometry_info.psi,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 70: /* MotionBlur */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; if ((flags & XiValue) == 0) geometry_info.xi=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].real_reference; if (attribute_flag[4] != 0) channel=(ChannelType) argument_list[4].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=MotionBlurImage(image,geometry_info.rho,geometry_info.sigma, geometry_info.xi,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 71: /* OrderedDither */ { if (attribute_flag[0] == 0) argument_list[0].string_reference="o8x8"; if (attribute_flag[1] != 0) channel=(ChannelType) argument_list[1].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) OrderedDitherImage(image,argument_list[0].string_reference, exception); (void) SetImageChannelMask(image,channel_mask); break; } case 72: /* Shave */ { if (attribute_flag[0] != 0) flags=ParsePageGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; image=ShaveImage(image,&geometry,exception); break; } case 73: /* Level */ { double black_point, gamma, white_point; black_point=0.0; white_point=(double) image->columns*image->rows; gamma=1.0; if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); black_point=geometry_info.rho; if ((flags & SigmaValue) != 0) white_point=geometry_info.sigma; if ((flags & XiValue) != 0) gamma=geometry_info.xi; if ((flags & PercentValue) != 0) { black_point*=(double) (QuantumRange/100.0); white_point*=(double) (QuantumRange/100.0); } if ((flags & SigmaValue) == 0) white_point=(double) QuantumRange-black_point; } if (attribute_flag[1] != 0) black_point=argument_list[1].real_reference; if (attribute_flag[2] != 0) white_point=argument_list[2].real_reference; if (attribute_flag[3] != 0) gamma=argument_list[3].real_reference; if (attribute_flag[4] != 0) channel=(ChannelType) argument_list[4].integer_reference; if (attribute_flag[5] != 0) { argument_list[0].real_reference=argument_list[5].real_reference; attribute_flag[0]=attribute_flag[5]; } channel_mask=SetImageChannelMask(image,channel); (void) LevelImage(image,black_point,white_point,gamma,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 74: /* Clip */ { if (attribute_flag[0] == 0) argument_list[0].string_reference="#1"; if (attribute_flag[1] == 0) argument_list[1].integer_reference=MagickTrue; (void) ClipImagePath(image,argument_list[0].string_reference, argument_list[1].integer_reference != 0 ? MagickTrue : MagickFalse, exception); break; } case 75: /* AffineTransform */ { DrawInfo *draw_info; draw_info=CloneDrawInfo(info ? info->image_info : (ImageInfo *) NULL, (DrawInfo *) NULL); if (attribute_flag[0] != 0) { AV *av; av=(AV *) argument_list[0].array_reference; if ((av_len(av) != 3) && (av_len(av) != 5)) { ThrowPerlException(exception,OptionError, "affine matrix must have 4 or 6 elements",PackageName); goto PerlException; } draw_info->affine.sx=(double) SvNV(*(av_fetch(av,0,0))); draw_info->affine.rx=(double) SvNV(*(av_fetch(av,1,0))); draw_info->affine.ry=(double) SvNV(*(av_fetch(av,2,0))); draw_info->affine.sy=(double) SvNV(*(av_fetch(av,3,0))); if (fabs(draw_info->affine.sx*draw_info->affine.sy- draw_info->affine.rx*draw_info->affine.ry) < MagickEpsilon) { ThrowPerlException(exception,OptionError, "affine matrix is singular",PackageName); goto PerlException; } if (av_len(av) == 5) { draw_info->affine.tx=(double) SvNV(*(av_fetch(av,4,0))); draw_info->affine.ty=(double) SvNV(*(av_fetch(av,5,0))); } } for (j=1; j < 6; j++) { if (attribute_flag[j] == 0) continue; value=argument_list[j].string_reference; angle=argument_list[j].real_reference; current=draw_info->affine; GetAffineMatrix(&affine); switch (j) { case 1: { /* Translate. */ flags=ParseGeometry(value,&geometry_info); affine.tx=geometry_info.xi; affine.ty=geometry_info.psi; if ((flags & PsiValue) == 0) affine.ty=affine.tx; break; } case 2: { /* Scale. */ flags=ParseGeometry(value,&geometry_info); affine.sx=geometry_info.rho; affine.sy=geometry_info.sigma; if ((flags & SigmaValue) == 0) affine.sy=affine.sx; break; } case 3: { /* Rotate. */ if (angle == 0.0) break; affine.sx=cos(DegreesToRadians(fmod(angle,360.0))); affine.rx=sin(DegreesToRadians(fmod(angle,360.0))); affine.ry=(-sin(DegreesToRadians(fmod(angle,360.0)))); affine.sy=cos(DegreesToRadians(fmod(angle,360.0))); break; } case 4: { /* SkewX. */ affine.ry=tan(DegreesToRadians(fmod(angle,360.0))); break; } case 5: { /* SkewY. */ affine.rx=tan(DegreesToRadians(fmod(angle,360.0))); break; } } draw_info->affine.sx=current.sx*affine.sx+current.ry*affine.rx; draw_info->affine.rx=current.rx*affine.sx+current.sy*affine.rx; draw_info->affine.ry=current.sx*affine.ry+current.ry*affine.sy; draw_info->affine.sy=current.rx*affine.ry+current.sy*affine.sy; draw_info->affine.tx=current.sx*affine.tx+current.ry*affine.ty+ current.tx; draw_info->affine.ty=current.rx*affine.tx+current.sy*affine.ty+ current.ty; } if (attribute_flag[6] != 0) image->interpolate=(PixelInterpolateMethod) argument_list[6].integer_reference; if (attribute_flag[7] != 0) QueryColorCompliance(argument_list[7].string_reference, AllCompliance,&image->background_color,exception); image=AffineTransformImage(image,&draw_info->affine,exception); draw_info=DestroyDrawInfo(draw_info); break; } case 76: /* Difference */ { if (attribute_flag[0] == 0) { ThrowPerlException(exception,OptionError, "ReferenceImageRequired",PackageName); goto PerlException; } if (attribute_flag[1] != 0) image->fuzz=StringToDoubleInterval( argument_list[1].string_reference,(double) QuantumRange+1.0); (void) SetImageColorMetric(image,argument_list[0].image_reference, exception); break; } case 77: /* AdaptiveThreshold */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & PercentValue) != 0) geometry_info.xi=QuantumRange*geometry_info.xi/100.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].integer_reference;; image=AdaptiveThresholdImage(image,(size_t) geometry_info.rho, (size_t) geometry_info.sigma,(double) geometry_info.xi,exception); break; } case 78: /* Resample */ { size_t height, width; if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=geometry_info.rho; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] == 0) argument_list[3].integer_reference=(ssize_t) UndefinedFilter; if (attribute_flag[4] == 0) SetImageArtifact(image,"filter:support", argument_list[4].string_reference); width=(size_t) (geometry_info.rho*image->columns/ (image->resolution.x == 0.0 ? 72.0 : image->resolution.x)+0.5); height=(size_t) (geometry_info.sigma*image->rows/ (image->resolution.y == 0.0 ? 72.0 : image->resolution.y)+0.5); image=ResizeImage(image,width,height,(FilterType) argument_list[3].integer_reference,exception); if (image != (Image *) NULL) { image->resolution.x=geometry_info.rho; image->resolution.y=geometry_info.sigma; } break; } case 79: /* Describe */ { if (attribute_flag[0] == 0) argument_list[0].file_reference=(FILE *) NULL; (void) IdentifyImage(image,argument_list[0].file_reference, MagickTrue,exception); break; } case 80: /* BlackThreshold */ { if (attribute_flag[0] == 0) argument_list[0].string_reference="50%"; if (attribute_flag[2] != 0) channel=(ChannelType) argument_list[2].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) BlackThresholdImage(image,argument_list[0].string_reference, exception); (void) SetImageChannelMask(image,channel_mask); break; } case 81: /* WhiteThreshold */ { if (attribute_flag[0] == 0) argument_list[0].string_reference="50%"; if (attribute_flag[2] != 0) channel=(ChannelType) argument_list[2].integer_reference; channel_mask=SetImageChannelMask(image,channel); WhiteThresholdImage(image,argument_list[0].string_reference, exception); (void) SetImageChannelMask(image,channel_mask); break; } case 82: /* RotationalBlur */ { if (attribute_flag[0] != 0) flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) channel=(ChannelType) argument_list[2].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=RotationalBlurImage(image,geometry_info.rho,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 83: /* Thumbnail */ { if (attribute_flag[0] != 0) flags=ParseRegionGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; image=ThumbnailImage(image,geometry.width,geometry.height,exception); break; } case 84: /* Strip */ { (void) StripImage(image,exception); break; } case 85: /* Tint */ { PixelInfo tint; GetPixelInfo(image,&tint); if (attribute_flag[0] != 0) (void) QueryColorCompliance(argument_list[0].string_reference, AllCompliance,&tint,exception); if (attribute_flag[1] == 0) argument_list[1].string_reference="100"; image=TintImage(image,argument_list[1].string_reference,&tint, exception); break; } case 86: /* Channel */ { if (attribute_flag[0] != 0) channel=(ChannelType) argument_list[0].integer_reference; image=SeparateImage(image,channel,exception); break; } case 87: /* Splice */ { if (attribute_flag[7] != 0) image->gravity=(GravityType) argument_list[7].integer_reference; if (attribute_flag[0] != 0) flags=ParseGravityGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry.x=argument_list[3].integer_reference; if (attribute_flag[4] != 0) geometry.y=argument_list[4].integer_reference; if (attribute_flag[5] != 0) image->fuzz=StringToDoubleInterval( argument_list[5].string_reference,(double) QuantumRange+1.0); if (attribute_flag[6] != 0) (void) QueryColorCompliance(argument_list[6].string_reference, AllCompliance,&image->background_color,exception); image=SpliceImage(image,&geometry,exception); break; } case 88: /* Posterize */ { if (attribute_flag[0] == 0) argument_list[0].integer_reference=3; if (attribute_flag[1] == 0) argument_list[1].integer_reference=0; (void) PosterizeImage(image,argument_list[0].integer_reference, argument_list[1].integer_reference ? RiemersmaDitherMethod : NoDitherMethod,exception); break; } case 89: /* Shadow */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; if ((flags & XiValue) == 0) geometry_info.xi=4.0; if ((flags & PsiValue) == 0) geometry_info.psi=4.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].integer_reference; if (attribute_flag[4] != 0) geometry_info.psi=argument_list[4].integer_reference; image=ShadowImage(image,geometry_info.rho,geometry_info.sigma, (ssize_t) ceil(geometry_info.xi-0.5),(ssize_t) ceil(geometry_info.psi-0.5),exception); break; } case 90: /* Identify */ { if (attribute_flag[0] == 0) argument_list[0].file_reference=(FILE *) NULL; if (attribute_flag[1] != 0) (void) SetImageArtifact(image,"identify:features", argument_list[1].string_reference); if ((attribute_flag[2] != 0) && (argument_list[2].integer_reference != 0)) (void) SetImageArtifact(image,"identify:moments","true"); if ((attribute_flag[3] != 0) && (argument_list[3].integer_reference != 0)) (void) SetImageArtifact(image,"identify:unique","true"); (void) IdentifyImage(image,argument_list[0].file_reference, MagickTrue,exception); break; } case 91: /* SepiaTone */ { if (attribute_flag[0] == 0) argument_list[0].real_reference=80.0*QuantumRange/100.0; image=SepiaToneImage(image,argument_list[0].real_reference,exception); break; } case 92: /* SigmoidalContrast */ { MagickBooleanType sharpen; if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=QuantumRange/2.0; if ((flags & PercentValue) != 0) geometry_info.sigma=QuantumRange*geometry_info.sigma/100.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; sharpen=MagickTrue; if (attribute_flag[4] != 0) sharpen=argument_list[4].integer_reference != 0 ? MagickTrue : MagickFalse; channel_mask=SetImageChannelMask(image,channel); (void) SigmoidalContrastImage(image,sharpen,geometry_info.rho, geometry_info.sigma,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 93: /* Extent */ { if (attribute_flag[7] != 0) image->gravity=(GravityType) argument_list[7].integer_reference; if (attribute_flag[0] != 0) { int flags; flags=ParseGravityGeometry(image, argument_list[0].string_reference,&geometry,exception); (void) flags; if (geometry.width == 0) geometry.width=image->columns; if (geometry.height == 0) geometry.height=image->rows; } if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry.x=argument_list[3].integer_reference; if (attribute_flag[4] != 0) geometry.y=argument_list[4].integer_reference; if (attribute_flag[5] != 0) image->fuzz=StringToDoubleInterval( argument_list[5].string_reference,(double) QuantumRange+1.0); if (attribute_flag[6] != 0) (void) QueryColorCompliance(argument_list[6].string_reference, AllCompliance,&image->background_color,exception); image=ExtentImage(image,&geometry,exception); break; } case 94: /* Vignette */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; if ((flags & XiValue) == 0) geometry_info.xi=0.1*image->columns; if ((flags & PsiValue) == 0) geometry_info.psi=0.1*image->rows; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].integer_reference; if (attribute_flag[4] != 0) geometry_info.psi=argument_list[4].integer_reference; if (attribute_flag[5] != 0) (void) QueryColorCompliance(argument_list[5].string_reference, AllCompliance,&image->background_color,exception); image=VignetteImage(image,geometry_info.rho,geometry_info.sigma, (ssize_t) ceil(geometry_info.xi-0.5),(ssize_t) ceil(geometry_info.psi-0.5),exception); break; } case 95: /* ContrastStretch */ { double black_point, white_point; black_point=0.0; white_point=(double) image->columns*image->rows; if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); black_point=geometry_info.rho; white_point=(flags & SigmaValue) != 0 ? geometry_info.sigma : black_point; if ((flags & PercentValue) != 0) { black_point*=(double) image->columns*image->rows/100.0; white_point*=(double) image->columns*image->rows/100.0; } white_point=(double) image->columns*image->rows-white_point; } if (attribute_flag[1] != 0) black_point=argument_list[1].real_reference; if (attribute_flag[2] != 0) white_point=argument_list[2].real_reference; if (attribute_flag[4] != 0) channel=(ChannelType) argument_list[4].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) ContrastStretchImage(image,black_point,white_point,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 96: /* Sans0 */ { break; } case 97: /* Sans1 */ { break; } case 98: /* AdaptiveSharpen */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; if ((flags & XiValue) == 0) geometry_info.xi=0.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].real_reference; if (attribute_flag[4] != 0) channel=(ChannelType) argument_list[4].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=AdaptiveSharpenImage(image,geometry_info.rho, geometry_info.sigma,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 99: /* Transpose */ { image=TransposeImage(image,exception); break; } case 100: /* Tranverse */ { image=TransverseImage(image,exception); break; } case 101: /* AutoOrient */ { image=AutoOrientImage(image,image->orientation,exception); break; } case 102: /* AdaptiveBlur */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; if ((flags & XiValue) == 0) geometry_info.xi=0.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=AdaptiveBlurImage(image,geometry_info.rho,geometry_info.sigma, exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 103: /* Sketch */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; if ((flags & XiValue) == 0) geometry_info.xi=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].real_reference; image=SketchImage(image,geometry_info.rho,geometry_info.sigma, geometry_info.xi,exception); break; } case 104: /* UniqueColors */ { image=UniqueImageColors(image,exception); break; } case 105: /* AdaptiveResize */ { if (attribute_flag[0] != 0) flags=ParseRegionGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] != 0) image->filter=(FilterType) argument_list[4].integer_reference; if (attribute_flag[4] != 0) SetImageArtifact(image,"filter:support", argument_list[4].string_reference); image=AdaptiveResizeImage(image,geometry.width,geometry.height, exception); break; } case 106: /* ClipMask */ { Image *mask_image; if (attribute_flag[0] == 0) { ThrowPerlException(exception,OptionError,"MaskImageRequired", PackageName); goto PerlException; } mask_image=CloneImage(argument_list[0].image_reference,0,0,MagickTrue, exception); (void) SetImageMask(image,ReadPixelMask,mask_image,exception); mask_image=DestroyImage(mask_image); break; } case 107: /* LinearStretch */ { double black_point, white_point; black_point=0.0; white_point=(double) image->columns*image->rows; if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) != 0) white_point=geometry_info.sigma; if ((flags & PercentValue) != 0) { black_point*=(double) image->columns*image->rows/100.0; white_point*=(double) image->columns*image->rows/100.0; } if ((flags & SigmaValue) == 0) white_point=(double) image->columns*image->rows-black_point; } if (attribute_flag[1] != 0) black_point=argument_list[1].real_reference; if (attribute_flag[2] != 0) white_point=argument_list[2].real_reference; (void) LinearStretchImage(image,black_point,white_point,exception); break; } case 108: /* ColorMatrix */ { AV *av; double *color_matrix; KernelInfo *kernel_info; size_t order; if (attribute_flag[0] == 0) break; av=(AV *) argument_list[0].array_reference; order=(size_t) sqrt(av_len(av)+1); color_matrix=(double *) AcquireQuantumMemory(order,order* sizeof(*color_matrix)); if (color_matrix == (double *) NULL) { ThrowPerlException(exception,ResourceLimitFatalError, "MemoryAllocationFailed",PackageName); goto PerlException; } for (j=0; (j < (ssize_t) (order*order)) && (j < (av_len(av)+1)); j++) color_matrix[j]=(double) SvNV(*(av_fetch(av,j,0))); for ( ; j < (ssize_t) (order*order); j++) color_matrix[j]=0.0; kernel_info=AcquireKernelInfo((const char *) NULL,exception); if (kernel_info == (KernelInfo *) NULL) break; kernel_info->width=order; kernel_info->height=order; kernel_info->values=(MagickRealType *) AcquireAlignedMemory(order, order*sizeof(*kernel_info->values)); if (kernel_info->values != (MagickRealType *) NULL) { for (i=0; i < (ssize_t) (order*order); i++) kernel_info->values[i]=(MagickRealType) color_matrix[i]; image=ColorMatrixImage(image,kernel_info,exception); } kernel_info=DestroyKernelInfo(kernel_info); color_matrix=(double *) RelinquishMagickMemory(color_matrix); break; } case 109: /* Mask */ { Image *mask_image; if (attribute_flag[0] == 0) { ThrowPerlException(exception,OptionError,"MaskImageRequired", PackageName); goto PerlException; } mask_image=CloneImage(argument_list[0].image_reference,0,0, MagickTrue,exception); (void) SetImageMask(image,ReadPixelMask,mask_image,exception); mask_image=DestroyImage(mask_image); break; } case 110: /* Polaroid */ { char *caption; double angle; DrawInfo *draw_info; PixelInterpolateMethod method; draw_info=CloneDrawInfo(info ? info->image_info : (ImageInfo *) NULL, (DrawInfo *) NULL); caption=(char *) NULL; if (attribute_flag[0] != 0) caption=InterpretImageProperties(info ? info->image_info : (ImageInfo *) NULL,image,argument_list[0].string_reference, exception); angle=0.0; if (attribute_flag[1] != 0) angle=argument_list[1].real_reference; if (attribute_flag[2] != 0) (void) CloneString(&draw_info->font, argument_list[2].string_reference); if (attribute_flag[3] != 0) (void) QueryColorCompliance(argument_list[3].string_reference, AllCompliance,&draw_info->stroke,exception); if (attribute_flag[4] != 0) (void) QueryColorCompliance(argument_list[4].string_reference, AllCompliance,&draw_info->fill,exception); if (attribute_flag[5] != 0) draw_info->stroke_width=argument_list[5].real_reference; if (attribute_flag[6] != 0) draw_info->pointsize=argument_list[6].real_reference; if (attribute_flag[7] != 0) draw_info->gravity=(GravityType) argument_list[7].integer_reference; if (attribute_flag[8] != 0) (void) QueryColorCompliance(argument_list[8].string_reference, AllCompliance,&image->background_color,exception); method=UndefinedInterpolatePixel; if (attribute_flag[9] != 0) method=(PixelInterpolateMethod) argument_list[9].integer_reference; image=PolaroidImage(image,draw_info,caption,angle,method,exception); draw_info=DestroyDrawInfo(draw_info); if (caption != (char *) NULL) caption=DestroyString(caption); break; } case 111: /* FloodfillPaint */ { DrawInfo *draw_info; MagickBooleanType invert; PixelInfo target; draw_info=CloneDrawInfo(info ? info->image_info : (ImageInfo *) NULL, (DrawInfo *) NULL); if (attribute_flag[0] != 0) flags=ParsePageGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.x=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.y=argument_list[2].integer_reference; if (attribute_flag[3] != 0) (void) QueryColorCompliance(argument_list[3].string_reference, AllCompliance,&draw_info->fill,exception); (void) GetOneVirtualPixelInfo(image,UndefinedVirtualPixelMethod, geometry.x,geometry.y,&target,exception); if (attribute_flag[4] != 0) QueryColorCompliance(argument_list[4].string_reference, AllCompliance,&target,exception); if (attribute_flag[5] != 0) image->fuzz=StringToDoubleInterval( argument_list[5].string_reference,(double) QuantumRange+1.0); if (attribute_flag[6] != 0) channel=(ChannelType) argument_list[6].integer_reference; invert=MagickFalse; if (attribute_flag[7] != 0) invert=(MagickBooleanType) argument_list[7].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) FloodfillPaintImage(image,draw_info,&target,geometry.x, geometry.y,invert,exception); (void) SetImageChannelMask(image,channel_mask); draw_info=DestroyDrawInfo(draw_info); break; } case 112: /* Distort */ { AV *av; DistortMethod method; double *coordinates; size_t number_coordinates; VirtualPixelMethod virtual_pixel; if (attribute_flag[0] == 0) break; method=UndefinedDistortion; if (attribute_flag[1] != 0) method=(DistortMethod) argument_list[1].integer_reference; av=(AV *) argument_list[0].array_reference; number_coordinates=(size_t) av_len(av)+1; coordinates=(double *) AcquireQuantumMemory(number_coordinates, sizeof(*coordinates)); if (coordinates == (double *) NULL) { ThrowPerlException(exception,ResourceLimitFatalError, "MemoryAllocationFailed",PackageName); goto PerlException; } for (j=0; j < (ssize_t) number_coordinates; j++) coordinates[j]=(double) SvNV(*(av_fetch(av,j,0))); virtual_pixel=UndefinedVirtualPixelMethod; if (attribute_flag[2] != 0) virtual_pixel=SetImageVirtualPixelMethod(image,(VirtualPixelMethod) argument_list[2].integer_reference,exception); image=DistortImage(image,method,number_coordinates,coordinates, argument_list[3].integer_reference != 0 ? MagickTrue : MagickFalse, exception); if ((attribute_flag[2] != 0) && (image != (Image *) NULL)) virtual_pixel=SetImageVirtualPixelMethod(image,virtual_pixel, exception); coordinates=(double *) RelinquishMagickMemory(coordinates); break; } case 113: /* Clut */ { PixelInterpolateMethod method; if (attribute_flag[0] == 0) { ThrowPerlException(exception,OptionError,"ClutImageRequired", PackageName); goto PerlException; } method=UndefinedInterpolatePixel; if (attribute_flag[1] != 0) method=(PixelInterpolateMethod) argument_list[1].integer_reference; if (attribute_flag[2] != 0) channel=(ChannelType) argument_list[2].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) ClutImage(image,argument_list[0].image_reference,method, exception); (void) SetImageChannelMask(image,channel_mask); break; } case 114: /* LiquidRescale */ { if (attribute_flag[0] != 0) flags=ParseRegionGeometry(image,argument_list[0].string_reference, &geometry,exception); if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] == 0) argument_list[3].real_reference=1.0; if (attribute_flag[4] == 0) argument_list[4].real_reference=0.0; image=LiquidRescaleImage(image,geometry.width,geometry.height, argument_list[3].real_reference,argument_list[4].real_reference, exception); break; } case 115: /* EncipherImage */ { (void) EncipherImage(image,argument_list[0].string_reference, exception); break; } case 116: /* DecipherImage */ { (void) DecipherImage(image,argument_list[0].string_reference, exception); break; } case 117: /* Deskew */ { geometry_info.rho=QuantumRange/2.0; if (attribute_flag[0] != 0) flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if (attribute_flag[1] != 0) geometry_info.rho=StringToDoubleInterval( argument_list[1].string_reference,(double) QuantumRange+1.0); image=DeskewImage(image,geometry_info.rho,exception); break; } case 118: /* Remap */ { QuantizeInfo *quantize_info; if (attribute_flag[0] == 0) { ThrowPerlException(exception,OptionError,"RemapImageRequired", PackageName); goto PerlException; } quantize_info=AcquireQuantizeInfo(info->image_info); if (attribute_flag[1] != 0) quantize_info->dither_method=(DitherMethod) argument_list[1].integer_reference; (void) RemapImages(quantize_info,image, argument_list[0].image_reference,exception); quantize_info=DestroyQuantizeInfo(quantize_info); break; } case 119: /* SparseColor */ { AV *av; double *coordinates; size_t number_coordinates; SparseColorMethod method; VirtualPixelMethod virtual_pixel; if (attribute_flag[0] == 0) break; method=UndefinedColorInterpolate; if (attribute_flag[1] != 0) method=(SparseColorMethod) argument_list[1].integer_reference; av=(AV *) argument_list[0].array_reference; number_coordinates=(size_t) av_len(av)+1; coordinates=(double *) AcquireQuantumMemory(number_coordinates, sizeof(*coordinates)); if (coordinates == (double *) NULL) { ThrowPerlException(exception,ResourceLimitFatalError, "MemoryAllocationFailed",PackageName); goto PerlException; } for (j=0; j < (ssize_t) number_coordinates; j++) coordinates[j]=(double) SvNV(*(av_fetch(av,j,0))); virtual_pixel=UndefinedVirtualPixelMethod; if (attribute_flag[2] != 0) virtual_pixel=SetImageVirtualPixelMethod(image,(VirtualPixelMethod) argument_list[2].integer_reference,exception); if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=SparseColorImage(image,method,number_coordinates,coordinates, exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); if ((attribute_flag[2] != 0) && (image != (Image *) NULL)) virtual_pixel=SetImageVirtualPixelMethod(image,virtual_pixel, exception); coordinates=(double *) RelinquishMagickMemory(coordinates); break; } case 120: /* Function */ { AV *av; double *parameters; MagickFunction function; size_t number_parameters; VirtualPixelMethod virtual_pixel; if (attribute_flag[0] == 0) break; function=UndefinedFunction; if (attribute_flag[1] != 0) function=(MagickFunction) argument_list[1].integer_reference; av=(AV *) argument_list[0].array_reference; number_parameters=(size_t) av_len(av)+1; parameters=(double *) AcquireQuantumMemory(number_parameters, sizeof(*parameters)); if (parameters == (double *) NULL) { ThrowPerlException(exception,ResourceLimitFatalError, "MemoryAllocationFailed",PackageName); goto PerlException; } for (j=0; j < (ssize_t) number_parameters; j++) parameters[j]=(double) SvNV(*(av_fetch(av,j,0))); virtual_pixel=UndefinedVirtualPixelMethod; if (attribute_flag[2] != 0) virtual_pixel=SetImageVirtualPixelMethod(image,(VirtualPixelMethod) argument_list[2].integer_reference,exception); (void) FunctionImage(image,function,number_parameters,parameters, exception); if ((attribute_flag[2] != 0) && (image != (Image *) NULL)) virtual_pixel=SetImageVirtualPixelMethod(image,virtual_pixel, exception); parameters=(double *) RelinquishMagickMemory(parameters); break; } case 121: /* SelectiveBlur */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; if ((flags & PercentValue) != 0) geometry_info.xi=QuantumRange*geometry_info.xi/100.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].integer_reference;; if (attribute_flag[5] != 0) channel=(ChannelType) argument_list[5].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=SelectiveBlurImage(image,geometry_info.rho,geometry_info.sigma, geometry_info.xi,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 122: /* HaldClut */ { if (attribute_flag[0] == 0) { ThrowPerlException(exception,OptionError,"ClutImageRequired", PackageName); goto PerlException; } if (attribute_flag[1] != 0) channel=(ChannelType) argument_list[1].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) HaldClutImage(image,argument_list[0].image_reference, exception); (void) SetImageChannelMask(image,channel_mask); break; } case 123: /* BlueShift */ { if (attribute_flag[0] != 0) (void) ParseGeometry(argument_list[0].string_reference, &geometry_info); image=BlueShiftImage(image,geometry_info.rho,exception); break; } case 124: /* ForwardFourierTransformImage */ { image=ForwardFourierTransformImage(image, argument_list[0].integer_reference != 0 ? MagickTrue : MagickFalse, exception); break; } case 125: /* InverseFourierTransformImage */ { image=InverseFourierTransformImage(image,image->next, argument_list[0].integer_reference != 0 ? MagickTrue : MagickFalse, exception); break; } case 126: /* ColorDecisionList */ { if (attribute_flag[0] == 0) argument_list[0].string_reference=(char *) NULL; (void) ColorDecisionListImage(image, argument_list[0].string_reference,exception); break; } case 127: /* AutoGamma */ { if (attribute_flag[0] != 0) channel=(ChannelType) argument_list[0].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) AutoGammaImage(image,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 128: /* AutoLevel */ { if (attribute_flag[0] != 0) channel=(ChannelType) argument_list[0].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) AutoLevelImage(image,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 129: /* LevelColors */ { PixelInfo black_point, white_point; (void) QueryColorCompliance("#000000",AllCompliance,&black_point, exception); (void) QueryColorCompliance("#ffffff",AllCompliance,&white_point, exception); if (attribute_flag[1] != 0) (void) QueryColorCompliance( argument_list[1].string_reference,AllCompliance,&black_point, exception); if (attribute_flag[2] != 0) (void) QueryColorCompliance( argument_list[2].string_reference,AllCompliance,&white_point, exception); if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) LevelImageColors(image,&black_point,&white_point, argument_list[0].integer_reference != 0 ? MagickTrue : MagickFalse, exception); (void) SetImageChannelMask(image,channel_mask); break; } case 130: /* Clamp */ { if (attribute_flag[0] != 0) channel=(ChannelType) argument_list[0].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) ClampImage(image,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 131: /* BrightnessContrast */ { double brightness, contrast; brightness=0.0; contrast=0.0; if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); brightness=geometry_info.rho; if ((flags & SigmaValue) == 0) contrast=geometry_info.sigma; } if (attribute_flag[1] != 0) brightness=argument_list[1].real_reference; if (attribute_flag[2] != 0) contrast=argument_list[2].real_reference; if (attribute_flag[4] != 0) channel=(ChannelType) argument_list[4].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) BrightnessContrastImage(image,brightness,contrast,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 132: /* Morphology */ { KernelInfo *kernel; MorphologyMethod method; ssize_t iterations; if (attribute_flag[0] == 0) break; kernel=AcquireKernelInfo(argument_list[0].string_reference,exception); if (kernel == (KernelInfo *) NULL) break; if (attribute_flag[1] != 0) channel=(ChannelType) argument_list[1].integer_reference; method=UndefinedMorphology; if (attribute_flag[2] != 0) method=argument_list[2].integer_reference; iterations=1; if (attribute_flag[3] != 0) iterations=argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=MorphologyImage(image,method,iterations,kernel,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); kernel=DestroyKernelInfo(kernel); break; } case 133: /* Mode */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=StatisticImage(image,ModeStatistic,(size_t) geometry_info.rho, (size_t) geometry_info.sigma,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 134: /* Statistic */ { StatisticType statistic; statistic=UndefinedStatistic; if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; if (attribute_flag[4] != 0) statistic=(StatisticType) argument_list[4].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=StatisticImage(image,statistic,(size_t) geometry_info.rho, (size_t) geometry_info.sigma,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 135: /* Perceptible */ { double epsilon; epsilon=MagickEpsilon; if (attribute_flag[0] != 0) epsilon=argument_list[0].real_reference; if (attribute_flag[1] != 0) channel=(ChannelType) argument_list[1].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) PerceptibleImage(image,epsilon,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 136: /* Poly */ { AV *av; double *terms; size_t number_terms; if (attribute_flag[0] == 0) break; if (attribute_flag[1] != 0) channel=(ChannelType) argument_list[1].integer_reference; av=(AV *) argument_list[0].array_reference; number_terms=(size_t) av_len(av); terms=(double *) AcquireQuantumMemory(number_terms,sizeof(*terms)); if (terms == (double *) NULL) { ThrowPerlException(exception,ResourceLimitFatalError, "MemoryAllocationFailed",PackageName); goto PerlException; } for (j=0; j < av_len(av); j++) terms[j]=(double) SvNV(*(av_fetch(av,j,0))); image=PolynomialImage(image,number_terms >> 1,terms,exception); terms=(double *) RelinquishMagickMemory(terms); break; } case 137: /* Grayscale */ { PixelIntensityMethod method; method=UndefinedPixelIntensityMethod; if (attribute_flag[0] != 0) method=(PixelIntensityMethod) argument_list[0].integer_reference; (void) GrayscaleImage(image,method,exception); break; } case 138: /* Canny */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=1.0; if ((flags & XiValue) == 0) geometry_info.xi=0.10; if ((flags & PsiValue) == 0) geometry_info.psi=0.30; if ((flags & PercentValue) != 0) { geometry_info.xi/=100.0; geometry_info.psi/=100.0; } } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].real_reference; if (attribute_flag[4] != 0) geometry_info.psi=argument_list[4].real_reference; if (attribute_flag[5] != 0) channel=(ChannelType) argument_list[5].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=CannyEdgeImage(image,geometry_info.rho,geometry_info.sigma, geometry_info.xi,geometry_info.psi,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 139: /* HoughLine */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=geometry_info.rho; if ((flags & XiValue) == 0) geometry_info.xi=40; } if (attribute_flag[1] != 0) geometry_info.rho=(double) argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry_info.sigma=(double) argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry_info.xi=(double) argument_list[3].integer_reference; image=HoughLineImage(image,(size_t) geometry_info.rho,(size_t) geometry_info.sigma,(size_t) geometry_info.xi,exception); break; } case 140: /* MeanShift */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=geometry_info.rho; if ((flags & XiValue) == 0) geometry_info.xi=0.10*QuantumRange; if ((flags & PercentValue) != 0) geometry_info.xi=QuantumRange*geometry_info.xi/100.0; } if (attribute_flag[1] != 0) geometry_info.rho=(double) argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry_info.sigma=(double) argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry_info.xi=(double) argument_list[3].integer_reference; image=MeanShiftImage(image,(size_t) geometry_info.rho,(size_t) geometry_info.sigma,geometry_info.xi,exception); break; } case 141: /* Kuwahara */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=geometry_info.rho-0.5; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=KuwaharaImage(image,geometry_info.rho,geometry_info.sigma, exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 142: /* ConnectedComponents */ { size_t connectivity; connectivity=4; if (attribute_flag[0] != 0) connectivity=argument_list[0].integer_reference; image=ConnectedComponentsImage(image,connectivity, (CCObjectInfo **) NULL,exception); break; } case 143: /* Copy */ { Image *source_image; OffsetInfo offset; RectangleInfo offset_geometry; source_image=image; if (attribute_flag[0] != 0) source_image=argument_list[0].image_reference; SetGeometry(source_image,&geometry); if (attribute_flag[1] != 0) flags=ParseGravityGeometry(source_image, argument_list[1].string_reference,&geometry,exception); if (attribute_flag[2] != 0) geometry.width=argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry.height=argument_list[3].integer_reference; if (attribute_flag[4] != 0) geometry.x=argument_list[4].integer_reference; if (attribute_flag[5] != 0) geometry.y=argument_list[5].integer_reference; if (attribute_flag[6] != 0) image->gravity=(GravityType) argument_list[6].integer_reference; SetGeometry(image,&offset_geometry); if (attribute_flag[7] != 0) flags=ParseGravityGeometry(image,argument_list[7].string_reference, &offset_geometry,exception); offset.x=offset_geometry.x; offset.y=offset_geometry.y; if (attribute_flag[8] != 0) offset.x=argument_list[8].integer_reference; if (attribute_flag[9] != 0) offset.y=argument_list[9].integer_reference; (void) CopyImagePixels(image,source_image,&geometry,&offset, exception); break; } case 144: /* Color */ { PixelInfo color; (void) QueryColorCompliance("none",AllCompliance,&color,exception); if (attribute_flag[0] != 0) (void) QueryColorCompliance(argument_list[0].string_reference, AllCompliance,&color,exception); (void) SetImageColor(image,&color,exception); break; } case 145: /* WaveletDenoise */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & PercentValue) != 0) { geometry_info.rho=QuantumRange*geometry_info.rho/100.0; geometry_info.sigma=QuantumRange*geometry_info.sigma/100.0; } if ((flags & SigmaValue) == 0) geometry_info.sigma=0.0; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) channel=(ChannelType) argument_list[3].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=WaveletDenoiseImage(image,geometry_info.rho,geometry_info.sigma, exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 146: /* Colorspace */ { ColorspaceType colorspace; colorspace=sRGBColorspace; if (attribute_flag[0] != 0) colorspace=(ColorspaceType) argument_list[0].integer_reference; (void) TransformImageColorspace(image,colorspace,exception); break; } case 147: /* AutoThreshold */ { AutoThresholdMethod method; method=UndefinedThresholdMethod; if (attribute_flag[0] != 0) method=(AutoThresholdMethod) argument_list[0].integer_reference; (void) AutoThresholdImage(image,method,exception); break; } case 148: /* RangeThreshold */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=geometry_info.rho; if ((flags & XiValue) == 0) geometry_info.xi=geometry_info.sigma; if ((flags & PsiValue) == 0) geometry_info.psi=geometry_info.xi; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].real_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].real_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].real_reference; if (attribute_flag[4] != 0) geometry_info.psi=argument_list[4].real_reference; if (attribute_flag[5] != 0) channel=(ChannelType) argument_list[5].integer_reference; channel_mask=SetImageChannelMask(image,channel); (void) RangeThresholdImage(image,geometry_info.rho, geometry_info.sigma,geometry_info.xi,geometry_info.psi,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 149: /* CLAHE */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); flags=ParseRegionGeometry(image,argument_list[0].string_reference, &geometry,exception); } if (attribute_flag[1] != 0) geometry.width=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry.height=argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry.x=argument_list[3].integer_reference; if (attribute_flag[4] != 0) geometry_info.psi=argument_list[4].real_reference; (void) CLAHEImage(image,geometry.width,geometry.height,geometry.x, geometry_info.psi,exception); break; } case 150: /* Kmeans */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=100.0; if ((flags & XiValue) == 0) geometry_info.xi=0.01; } if (attribute_flag[1] != 0) geometry_info.rho=argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry_info.sigma=argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry_info.xi=(ChannelType) argument_list[3].real_reference; (void) KmeansImage(image,geometry_info.rho,geometry_info.sigma, geometry_info.xi,exception); break; } case 151: /* ColorThreshold */ { PixelInfo start_color, stop_color; (void) QueryColorCompliance("black",AllCompliance,&start_color, exception); (void) QueryColorCompliance("white",AllCompliance,&stop_color, exception); if (attribute_flag[0] != 0) (void) QueryColorCompliance(argument_list[0].string_reference, AllCompliance,&start_color,exception); if (attribute_flag[1] != 0) (void) QueryColorCompliance(argument_list[1].string_reference, AllCompliance,&stop_color,exception); channel_mask=SetImageChannelMask(image,channel); (void) ColorThresholdImage(image,&start_color,&stop_color,exception); (void) SetImageChannelMask(image,channel_mask); break; } case 152: /* WhiteBalance */ { (void) WhiteBalanceImage(image,exception); break; } case 153: /* BilateralBlur */ { if (attribute_flag[0] != 0) { flags=ParseGeometry(argument_list[0].string_reference, &geometry_info); if ((flags & SigmaValue) == 0) geometry_info.sigma=geometry_info.rho; if ((flags & XiValue) == 0) geometry_info.xi=1.0*sqrt(geometry_info.rho*geometry_info.rho+ geometry_info.sigma*geometry_info.sigma); if ((flags & PsiValue) == 0) geometry_info.xi=0.25*sqrt(geometry_info.rho*geometry_info.rho+ geometry_info.sigma*geometry_info.sigma); } if (attribute_flag[1] != 0) geometry_info.rho=(double) argument_list[1].integer_reference; if (attribute_flag[2] != 0) geometry_info.sigma=(double) argument_list[2].integer_reference; if (attribute_flag[3] != 0) geometry_info.xi=argument_list[3].real_reference; if (attribute_flag[4] != 0) geometry_info.psi=argument_list[4].real_reference; if (attribute_flag[5] != 0) channel=(ChannelType) argument_list[5].integer_reference; channel_mask=SetImageChannelMask(image,channel); image=BilateralBlurImage(image,(size_t) geometry_info.rho,(size_t) geometry_info.sigma,geometry_info.xi,geometry_info.psi,exception); if (image != (Image *) NULL) (void) SetImageChannelMask(image,channel_mask); break; } case 154: /* SortPixels */ { (void) SortImagePixels(image,exception); break; } } if (next != (Image *) NULL) (void) CatchImageException(next); if ((region_info.width*region_info.height) != 0) (void) SetImageRegionMask(image,WritePixelMask,(const RectangleInfo *) NULL,exception); if (image != (Image *) NULL) { number_images++; if (next && (next != image)) { image->next=next->next; if (image->next != (Image *) NULL) image->next->previous=image; DeleteImageFromRegistry(*pv,next); } sv_setiv(*pv,PTR2IV(image)); next=image; } if (*pv) pv++; } PerlException: if (reference_vector) reference_vector=(SV **) RelinquishMagickMemory(reference_vector); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) number_images); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # M o n t a g e # # # # # # # ############################################################################### # # void Montage(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: MontageImage = 1 montage = 2 montageimage = 3 PPCODE: { AV *av; char *attribute; ExceptionInfo *exception; HV *hv; Image *image, *next; MontageInfo *montage_info; PixelInfo transparent_color; ssize_t i; ssize_t sp; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; attribute=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } /* Get options. */ info=GetPackageInfo(aTHX_ (void *) av,info,exception); montage_info=CloneMontageInfo(info->image_info,(MontageInfo *) NULL); (void) QueryColorCompliance("none",AllCompliance,&transparent_color, exception); for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'B': case 'b': { if (LocaleCompare(attribute,"background") == 0) { (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &montage_info->background_color,exception); for (next=image; next; next=next->next) next->background_color=montage_info->background_color; break; } if (LocaleCompare(attribute,"border") == 0) { montage_info->border_width=SvIV(ST(i)); break; } if (LocaleCompare(attribute,"bordercolor") == 0) { (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &montage_info->border_color,exception); for (next=image; next; next=next->next) next->border_color=montage_info->border_color; break; } if (LocaleCompare(attribute,"borderwidth") == 0) { montage_info->border_width=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'C': case 'c': { if (LocaleCompare(attribute,"compose") == 0) { sp=!SvPOK(ST(i)) ? SvIV(ST(i)) : ParseCommandOption( MagickComposeOptions,MagickFalse,SvPV(ST(i),na)); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } for (next=image; next; next=next->next) next->compose=(CompositeOperator) sp; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'F': case 'f': { if (LocaleCompare(attribute,"fill") == 0) { (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &montage_info->fill,exception); break; } if (LocaleCompare(attribute,"font") == 0) { (void) CloneString(&montage_info->font,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"frame") == 0) { char *p; p=SvPV(ST(i),na); if (IsGeometry(p) == MagickFalse) { ThrowPerlException(exception,OptionError,"MissingGeometry", p); break; } (void) CloneString(&montage_info->frame,p); if (*p == '\0') montage_info->frame=(char *) NULL; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'G': case 'g': { if (LocaleCompare(attribute,"geometry") == 0) { char *p; p=SvPV(ST(i),na); if (IsGeometry(p) == MagickFalse) { ThrowPerlException(exception,OptionError,"MissingGeometry", p); break; } (void) CloneString(&montage_info->geometry,p); if (*p == '\0') montage_info->geometry=(char *) NULL; break; } if (LocaleCompare(attribute,"gravity") == 0) { ssize_t in; in=!SvPOK(ST(i)) ? SvIV(ST(i)) : ParseCommandOption( MagickGravityOptions,MagickFalse,SvPV(ST(i),na)); if (in < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); return; } montage_info->gravity=(GravityType) in; for (next=image; next; next=next->next) next->gravity=(GravityType) in; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'L': case 'l': { if (LocaleCompare(attribute,"label") == 0) { for (next=image; next; next=next->next) (void) SetImageProperty(next,"label",InterpretImageProperties( info ? info->image_info : (ImageInfo *) NULL,next, SvPV(ST(i),na),exception),exception); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'M': case 'm': { if (LocaleCompare(attribute,"mattecolor") == 0) { (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &montage_info->alpha_color,exception); for (next=image; next; next=next->next) next->alpha_color=montage_info->alpha_color; break; } if (LocaleCompare(attribute,"mode") == 0) { ssize_t in; in=!SvPOK(ST(i)) ? SvIV(ST(i)) : ParseCommandOption( MagickModeOptions,MagickFalse,SvPV(ST(i),na)); switch (in) { default: { ThrowPerlException(exception,OptionError, "UnrecognizedModeType",SvPV(ST(i),na)); break; } case FrameMode: { (void) CloneString(&montage_info->frame,"15x15+3+3"); montage_info->shadow=MagickTrue; break; } case UnframeMode: { montage_info->frame=(char *) NULL; montage_info->shadow=MagickFalse; montage_info->border_width=0; break; } case ConcatenateMode: { montage_info->frame=(char *) NULL; montage_info->shadow=MagickFalse; (void) CloneString(&montage_info->geometry,"+0+0"); montage_info->border_width=0; } } break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'P': case 'p': { if (LocaleCompare(attribute,"pointsize") == 0) { montage_info->pointsize=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'S': case 's': { if (LocaleCompare(attribute,"shadow") == 0) { sp=!SvPOK(ST(i)) ? SvIV(ST(i)) : ParseCommandOption( MagickBooleanOptions,MagickFalse,SvPV(ST(i),na)); if (sp < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } montage_info->shadow=sp != 0 ? MagickTrue : MagickFalse; break; } if (LocaleCompare(attribute,"stroke") == 0) { (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &montage_info->stroke,exception); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'T': case 't': { if (LocaleCompare(attribute,"texture") == 0) { (void) CloneString(&montage_info->texture,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"tile") == 0) { char *p=SvPV(ST(i),na); if (IsGeometry(p) == MagickFalse) { ThrowPerlException(exception,OptionError,"MissingGeometry", p); break; } (void) CloneString(&montage_info->tile,p); if (*p == '\0') montage_info->tile=(char *) NULL; break; } if (LocaleCompare(attribute,"title") == 0) { (void) CloneString(&montage_info->title,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"transparent") == 0) { PixelInfo transparent_color; QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &transparent_color,exception); for (next=image; next; next=next->next) (void) TransparentPaintImage(next,&transparent_color, TransparentAlpha,MagickFalse,exception); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } image=MontageImageList(info->image_info,montage_info,image,exception); montage_info=DestroyMontageInfo(montage_info); if (image == (Image *) NULL) goto PerlException; if (transparent_color.alpha != TransparentAlpha) for (next=image; next; next=next->next) (void) TransparentPaintImage(next,&transparent_color, TransparentAlpha,MagickFalse,exception); for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # M o r p h # # # # # # # ############################################################################### # # void Morph(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: MorphImage = 1 morph = 2 morphimage = 3 PPCODE: { AV *av; char *attribute; ExceptionInfo *exception; HV *hv; Image *image; ssize_t i; ssize_t number_frames; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; av=NULL; attribute=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } info=GetPackageInfo(aTHX_ (void *) av,info,exception); /* Get attribute. */ number_frames=30; for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'F': case 'f': { if (LocaleCompare(attribute,"frames") == 0) { number_frames=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } image=MorphImages(image,number_frames,exception); if (image == (Image *) NULL) goto PerlException; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); /* can't return warning messages */ XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # M o s a i c # # # # # # # ############################################################################### # # void Mosaic(ref) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: MosaicImage = 1 mosaic = 2 mosaicimage = 3 PPCODE: { AV *av; ExceptionInfo *exception; HV *hv; Image *image; struct PackageInfo *info; SV *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } image=MergeImageLayers(image,MosaicLayer,exception); /* Create blessed Perl array for the returned image. */ av=newAV(); ST(0)=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); (void) CopyMagickString(info->image_info->filename,image->filename, MagickPathExtent); SetImageInfo(info->image_info,0,exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); /* return messages in string context */ ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # P e r c e p t u a l H a s h # # # # # # # ############################################################################### # # void PerceptualHash(ref) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: PerceptualHashImage = 1 perceptualhash = 2 perceptualhashimage = 3 PPCODE: { AV *av; ChannelPerceptualHash *channel_phash; char message[MagickPathExtent]; ExceptionInfo *exception; Image *image; ssize_t count; struct PackageInfo *info; SV *perl_exception, *reference; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); av=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); av=newAV(); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } count=0; for ( ; image; image=image->next) { size_t i; channel_phash=GetImagePerceptualHash(image,exception); if (channel_phash == (ChannelPerceptualHash *) NULL) continue; count++; for (i=0; i < (ssize_t) GetPixelChannels(image); i++) { ssize_t j; PixelChannel channel=GetPixelChannelChannel(image,i); PixelTrait traits=GetPixelChannelTraits(image,channel); if (traits == UndefinedPixelTrait) continue; EXTEND(sp,GetPixelChannels(image)*MaximumNumberOfPerceptualHashes* channel_phash[0].number_colorspaces*(i+1)*count); for (j=0; j < MaximumNumberOfPerceptualHashes; j++) { ssize_t k; for (k=0; k < (ssize_t) channel_phash[0].number_colorspaces; k++) { (void) FormatLocaleString(message,MagickPathExtent,"%.20g", channel_phash[channel].phash[k][j]); PUSHs(sv_2mortal(newSVpv(message,0))); } } } channel_phash=(ChannelPerceptualHash *) RelinquishMagickMemory(channel_phash); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # P i n g # # # # # # # ############################################################################### # # void Ping(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: PingImage = 1 ping = 2 pingimage = 3 PPCODE: { AV *av; char **keep, **list; ExceptionInfo *exception; Image *image, *next; int n; MagickBooleanType status; char **p; ssize_t i; ssize_t ac; STRLEN *length; struct PackageInfo *info, *package_info; SV *perl_exception, *reference; size_t count; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); package_info=(struct PackageInfo *) NULL; ac=(items < 2) ? 1 : items-1; list=(char **) AcquireQuantumMemory((size_t) ac+1UL,sizeof(*list)); keep=list; length=(STRLEN *) NULL; if (list == (char **) NULL) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } keep=list; length=(STRLEN *) AcquireQuantumMemory((size_t) ac+1UL,sizeof(*length)); if (length == (STRLEN *) NULL) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); if (SvTYPE(reference) != SVt_PVAV) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); package_info=ClonePackageInfo(info,exception); n=1; if (items <= 1) *list=(char *) (*package_info->image_info->filename ? package_info->image_info->filename : "XC:black"); else for (n=0, i=0; i < ac; i++) { list[n]=(char *) SvPV(ST(i+1),length[n]); if ((items >= 3) && strEQcase(list[n],"blob")) { void *blob; i++; blob=(void *) (SvPV(ST(i+1),length[n])); SetImageInfoBlob(package_info->image_info,blob,(size_t) length[n]); } if ((items >= 3) && strEQcase(list[n],"filename")) continue; if ((items >= 3) && strEQcase(list[n],"file")) { FILE *file; PerlIO *io_info; i++; io_info=IoIFP(sv_2io(ST(i+1))); if (io_info == (PerlIO *) NULL) { ThrowPerlException(exception,BlobError,"UnableToOpenFile", PackageName); continue; } file=PerlIO_findFILE(io_info); if (file == (FILE *) NULL) { ThrowPerlException(exception,BlobError,"UnableToOpenFile", PackageName); continue; } SetImageInfoFile(package_info->image_info,file); } if ((items >= 3) && strEQcase(list[n],"magick")) continue; n++; } list[n]=(char *) NULL; keep=list; status=ExpandFilenames(&n,&list); if (status == MagickFalse) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } count=0; for (i=0; i < n; i++) { (void) CopyMagickString(package_info->image_info->filename,list[i], MagickPathExtent); image=PingImage(package_info->image_info,exception); if (image == (Image *) NULL) break; if ((package_info->image_info->file != (FILE *) NULL) || (package_info->image_info->blob != (void *) NULL)) DisassociateImageStream(image); count+=GetImageListLength(image); EXTEND(sp,4*count); for (next=image; next; next=next->next) { PUSHs(sv_2mortal(newSViv(next->columns))); PUSHs(sv_2mortal(newSViv(next->rows))); PUSHs(sv_2mortal(newSViv((size_t) GetBlobSize(next)))); PUSHs(sv_2mortal(newSVpv(next->magick,0))); } image=DestroyImageList(image); } /* Free resources. */ for (i=0; i < n; i++) if (list[i] != (char *) NULL) for (p=keep; list[i] != *p++; ) if (*p == NULL) { list[i]=(char *) RelinquishMagickMemory(list[i]); break; } PerlException: if (package_info != (struct PackageInfo *) NULL) DestroyPackageInfo(package_info); if (list && (list != keep)) list=(char **) RelinquishMagickMemory(list); if (keep) keep=(char **) RelinquishMagickMemory(keep); if (length) length=(STRLEN *) RelinquishMagickMemory(length); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* throw away all errors */ } # ############################################################################### # # # # # # # P r e v i e w # # # # # # # ############################################################################### # # void Preview(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: PreviewImage = 1 preview = 2 previewimage = 3 PPCODE: { AV *av; ExceptionInfo *exception; HV *hv; Image *image, *preview_image; PreviewType preview_type; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; av=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } info=GetPackageInfo(aTHX_ (void *) av,info,exception); preview_type=GammaPreview; if (items > 1) preview_type=(PreviewType) ParseCommandOption(MagickPreviewOptions, MagickFalse,SvPV(ST(1),na)); for ( ; image; image=image->next) { preview_image=PreviewImage(image,preview_type,exception); if (preview_image == (Image *) NULL) goto PerlException; AddImageToRegistry(sv,preview_image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); /* can't return warning messages */ XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # Q u e r y C o l o r # # # # # # # ############################################################################### # # void QueryColor(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: querycolor = 1 PPCODE: { char *name; ExceptionInfo *exception; PixelInfo color; ssize_t i; SV *perl_exception; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (items == 1) { const ColorInfo **colorlist; size_t colors; colorlist=GetColorInfoList("*",&colors,exception); EXTEND(sp,colors); for (i=0; i < (ssize_t) colors; i++) { PUSHs(sv_2mortal(newSVpv(colorlist[i]->name,0))); } colorlist=(const ColorInfo **) RelinquishMagickMemory((ColorInfo **) colorlist); goto PerlException; } EXTEND(sp,5*items); for (i=1; i < items; i++) { name=(char *) SvPV(ST(i),na); if (QueryColorCompliance(name,AllCompliance,&color,exception) == MagickFalse) { PUSHs(&sv_undef); continue; } PUSHs(sv_2mortal(newSViv((size_t) floor(color.red+0.5)))); PUSHs(sv_2mortal(newSViv((size_t) floor(color.green+0.5)))); PUSHs(sv_2mortal(newSViv((size_t) floor(color.blue+0.5)))); if (color.colorspace == CMYKColorspace) PUSHs(sv_2mortal(newSViv((size_t) floor(color.black+0.5)))); if (color.alpha_trait != UndefinedPixelTrait) PUSHs(sv_2mortal(newSViv((size_t) floor(color.alpha+0.5)))); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # Q u e r y C o l o r N a m e # # # # # # # ############################################################################### # # void QueryColorname(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: querycolorname = 1 PPCODE: { AV *av; char message[MagickPathExtent]; ExceptionInfo *exception; Image *image; PixelInfo target_color; ssize_t i; struct PackageInfo *info; SV *perl_exception, *reference; /* reference is the SV* of ref=SvIV(reference) */ PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); reference=SvRV(ST(0)); av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } EXTEND(sp,items); for (i=1; i < items; i++) { (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance,&target_color, exception); (void) QueryColorname(image,&target_color,SVGCompliance,message, exception); PUSHs(sv_2mortal(newSVpv(message,0))); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # Q u e r y F o n t # # # # # # # ############################################################################### # # void QueryFont(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: queryfont = 1 PPCODE: { char *name, message[MagickPathExtent]; ExceptionInfo *exception; ssize_t i; SV *perl_exception; volatile const TypeInfo *type_info; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (items == 1) { const TypeInfo **typelist; size_t types; typelist=GetTypeInfoList("*",&types,exception); EXTEND(sp,types); for (i=0; i < (ssize_t) types; i++) { PUSHs(sv_2mortal(newSVpv(typelist[i]->name,0))); } typelist=(const TypeInfo **) RelinquishMagickMemory((TypeInfo **) typelist); goto PerlException; } EXTEND(sp,10*items); for (i=1; i < items; i++) { name=(char *) SvPV(ST(i),na); type_info=GetTypeInfo(name,exception); if (type_info == (TypeInfo *) NULL) { PUSHs(&sv_undef); continue; } if (type_info->name == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(type_info->name,0))); if (type_info->description == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(type_info->description,0))); if (type_info->family == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(type_info->family,0))); if (type_info->style == UndefinedStyle) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(CommandOptionToMnemonic(MagickStyleOptions, type_info->style),0))); if (type_info->stretch == UndefinedStretch) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(CommandOptionToMnemonic(MagickStretchOptions, type_info->stretch),0))); (void) FormatLocaleString(message,MagickPathExtent,"%.20g",(double) type_info->weight); PUSHs(sv_2mortal(newSVpv(message,0))); if (type_info->encoding == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(type_info->encoding,0))); if (type_info->foundry == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(type_info->foundry,0))); if (type_info->format == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(type_info->format,0))); if (type_info->metrics == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(type_info->metrics,0))); if (type_info->glyphs == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(type_info->glyphs,0))); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # Q u e r y F o n t M e t r i c s # # # # # # # ############################################################################### # # void QueryFontMetrics(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: queryfontmetrics = 1 PPCODE: { AffineMatrix affine, current; AV *av; char *attribute; double x, y; DrawInfo *draw_info; ExceptionInfo *exception; GeometryInfo geometry_info; Image *image; MagickBooleanType status; MagickStatusType flags; ssize_t i; ssize_t type; struct PackageInfo *info, *package_info; SV *perl_exception, *reference; /* reference is the SV* of ref=SvIV(reference) */ TypeMetric metrics; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); package_info=(struct PackageInfo *) NULL; perl_exception=newSVpv("",0); reference=SvRV(ST(0)); av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } package_info=ClonePackageInfo(info,exception); draw_info=CloneDrawInfo(package_info->image_info,(DrawInfo *) NULL); CloneString(&draw_info->text,""); current=draw_info->affine; GetAffineMatrix(&affine); x=0.0; y=0.0; EXTEND(sp,7*items); for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'A': case 'a': { if (LocaleCompare(attribute,"antialias") == 0) { type=ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(ST(i),na)); if (type < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } draw_info->text_antialias=type != 0 ? MagickTrue : MagickFalse; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'd': case 'D': { if (LocaleCompare(attribute,"density") == 0) { CloneString(&draw_info->density,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"direction") == 0) { draw_info->direction=(DirectionType) ParseCommandOption( MagickDirectionOptions,MagickFalse,SvPV(ST(i),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'e': case 'E': { if (LocaleCompare(attribute,"encoding") == 0) { CloneString(&draw_info->encoding,SvPV(ST(i),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'f': case 'F': { if (LocaleCompare(attribute,"family") == 0) { CloneString(&draw_info->family,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"fill") == 0) { if (info) (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &draw_info->fill,exception); break; } if (LocaleCompare(attribute,"font") == 0) { CloneString(&draw_info->font,SvPV(ST(i),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'g': case 'G': { if (LocaleCompare(attribute,"geometry") == 0) { CloneString(&draw_info->geometry,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"gravity") == 0) { draw_info->gravity=(GravityType) ParseCommandOption( MagickGravityOptions,MagickFalse,SvPV(ST(i),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'i': case 'I': { if (LocaleCompare(attribute,"interline-spacing") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); draw_info->interline_spacing=geometry_info.rho; break; } if (LocaleCompare(attribute,"interword-spacing") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); draw_info->interword_spacing=geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'k': case 'K': { if (LocaleCompare(attribute,"kerning") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); draw_info->kerning=geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'p': case 'P': { if (LocaleCompare(attribute,"pointsize") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); draw_info->pointsize=geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'r': case 'R': { if (LocaleCompare(attribute,"rotate") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); affine.rx=geometry_info.rho; affine.ry=geometry_info.sigma; if ((flags & SigmaValue) == 0) affine.ry=affine.rx; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 's': case 'S': { if (LocaleCompare(attribute,"scale") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); affine.sx=geometry_info.rho; affine.sy=geometry_info.sigma; if ((flags & SigmaValue) == 0) affine.sy=affine.sx; break; } if (LocaleCompare(attribute,"skew") == 0) { double x_angle, y_angle; flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); x_angle=geometry_info.rho; y_angle=geometry_info.sigma; if ((flags & SigmaValue) == 0) y_angle=x_angle; affine.ry=tan(DegreesToRadians(fmod(x_angle,360.0))); affine.rx=tan(DegreesToRadians(fmod(y_angle,360.0))); break; } if (LocaleCompare(attribute,"stroke") == 0) { if (info) (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &draw_info->stroke,exception); break; } if (LocaleCompare(attribute,"style") == 0) { type=ParseCommandOption(MagickStyleOptions,MagickFalse, SvPV(ST(i),na)); if (type < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } draw_info->style=(StyleType) type; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 't': case 'T': { if (LocaleCompare(attribute,"text") == 0) { CloneString(&draw_info->text,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"translate") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); affine.tx=geometry_info.rho; affine.ty=geometry_info.sigma; if ((flags & SigmaValue) == 0) affine.ty=affine.tx; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'w': case 'W': { if (LocaleCompare(attribute,"weight") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); draw_info->weight=(size_t) geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'x': case 'X': { if (LocaleCompare(attribute,"x") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); x=geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'y': case 'Y': { if (LocaleCompare(attribute,"y") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); y=geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } draw_info->affine.sx=current.sx*affine.sx+current.ry*affine.rx; draw_info->affine.rx=current.rx*affine.sx+current.sy*affine.rx; draw_info->affine.ry=current.sx*affine.ry+current.ry*affine.sy; draw_info->affine.sy=current.rx*affine.ry+current.sy*affine.sy; draw_info->affine.tx=current.sx*affine.tx+current.ry*affine.ty+current.tx; draw_info->affine.ty=current.rx*affine.tx+current.sy*affine.ty+current.ty; if (draw_info->geometry == (char *) NULL) { draw_info->geometry=AcquireString((char *) NULL); (void) FormatLocaleString(draw_info->geometry,MagickPathExtent, "%.20g,%.20g",x,y); } status=GetTypeMetrics(image,draw_info,&metrics,exception); (void) CatchImageException(image); if (status == MagickFalse) PUSHs(&sv_undef); else { PUSHs(sv_2mortal(newSVnv(metrics.pixels_per_em.x))); PUSHs(sv_2mortal(newSVnv(metrics.pixels_per_em.y))); PUSHs(sv_2mortal(newSVnv(metrics.ascent))); PUSHs(sv_2mortal(newSVnv(metrics.descent))); PUSHs(sv_2mortal(newSVnv(metrics.width))); PUSHs(sv_2mortal(newSVnv(metrics.height))); PUSHs(sv_2mortal(newSVnv(metrics.max_advance))); PUSHs(sv_2mortal(newSVnv(metrics.bounds.x1))); PUSHs(sv_2mortal(newSVnv(metrics.bounds.y1))); PUSHs(sv_2mortal(newSVnv(metrics.bounds.x2))); PUSHs(sv_2mortal(newSVnv(metrics.bounds.y2))); PUSHs(sv_2mortal(newSVnv(metrics.origin.x))); PUSHs(sv_2mortal(newSVnv(metrics.origin.y))); } draw_info=DestroyDrawInfo(draw_info); PerlException: if (package_info != (struct PackageInfo *) NULL) DestroyPackageInfo(package_info); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* can't return warning messages */ } # ############################################################################### # # # # # # # Q u e r y M u l t i l i n e F o n t M e t r i c s # # # # # # # ############################################################################### # # void QueryMultilineFontMetrics(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: querymultilinefontmetrics = 1 PPCODE: { AffineMatrix affine, current; AV *av; char *attribute; double x, y; DrawInfo *draw_info; ExceptionInfo *exception; GeometryInfo geometry_info; Image *image; MagickBooleanType status; MagickStatusType flags; ssize_t i; ssize_t type; struct PackageInfo *info, *package_info; SV *perl_exception, *reference; /* reference is the SV* of ref=SvIV(reference) */ TypeMetric metrics; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); package_info=(struct PackageInfo *) NULL; perl_exception=newSVpv("",0); reference=SvRV(ST(0)); av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } package_info=ClonePackageInfo(info,exception); draw_info=CloneDrawInfo(package_info->image_info,(DrawInfo *) NULL); CloneString(&draw_info->text,""); current=draw_info->affine; GetAffineMatrix(&affine); x=0.0; y=0.0; EXTEND(sp,7*items); for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'A': case 'a': { if (LocaleCompare(attribute,"antialias") == 0) { type=ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(ST(i),na)); if (type < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } draw_info->text_antialias=type != 0 ? MagickTrue : MagickFalse; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'd': case 'D': { if (LocaleCompare(attribute,"density") == 0) { CloneString(&draw_info->density,SvPV(ST(i),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'e': case 'E': { if (LocaleCompare(attribute,"encoding") == 0) { CloneString(&draw_info->encoding,SvPV(ST(i),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'f': case 'F': { if (LocaleCompare(attribute,"family") == 0) { CloneString(&draw_info->family,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"fill") == 0) { if (info) (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &draw_info->fill,exception); break; } if (LocaleCompare(attribute,"font") == 0) { CloneString(&draw_info->font,SvPV(ST(i),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'g': case 'G': { if (LocaleCompare(attribute,"geometry") == 0) { CloneString(&draw_info->geometry,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"gravity") == 0) { draw_info->gravity=(GravityType) ParseCommandOption( MagickGravityOptions,MagickFalse,SvPV(ST(i),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'p': case 'P': { if (LocaleCompare(attribute,"pointsize") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); draw_info->pointsize=geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'r': case 'R': { if (LocaleCompare(attribute,"rotate") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); affine.rx=geometry_info.rho; affine.ry=geometry_info.sigma; if ((flags & SigmaValue) == 0) affine.ry=affine.rx; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 's': case 'S': { if (LocaleCompare(attribute,"scale") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); affine.sx=geometry_info.rho; affine.sy=geometry_info.sigma; if ((flags & SigmaValue) == 0) affine.sy=affine.sx; break; } if (LocaleCompare(attribute,"skew") == 0) { double x_angle, y_angle; flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); x_angle=geometry_info.rho; y_angle=geometry_info.sigma; if ((flags & SigmaValue) == 0) y_angle=x_angle; affine.ry=tan(DegreesToRadians(fmod(x_angle,360.0))); affine.rx=tan(DegreesToRadians(fmod(y_angle,360.0))); break; } if (LocaleCompare(attribute,"stroke") == 0) { if (info) (void) QueryColorCompliance(SvPV(ST(i),na),AllCompliance, &draw_info->stroke,exception); break; } if (LocaleCompare(attribute,"style") == 0) { type=ParseCommandOption(MagickStyleOptions,MagickFalse, SvPV(ST(i),na)); if (type < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } draw_info->style=(StyleType) type; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 't': case 'T': { if (LocaleCompare(attribute,"text") == 0) { CloneString(&draw_info->text,SvPV(ST(i),na)); break; } if (LocaleCompare(attribute,"translate") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); affine.tx=geometry_info.rho; affine.ty=geometry_info.sigma; if ((flags & SigmaValue) == 0) affine.ty=affine.tx; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'w': case 'W': { if (LocaleCompare(attribute,"weight") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); draw_info->weight=(size_t) geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'x': case 'X': { if (LocaleCompare(attribute,"x") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); x=geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'y': case 'Y': { if (LocaleCompare(attribute,"y") == 0) { flags=ParseGeometry(SvPV(ST(i),na),&geometry_info); y=geometry_info.rho; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } draw_info->affine.sx=current.sx*affine.sx+current.ry*affine.rx; draw_info->affine.rx=current.rx*affine.sx+current.sy*affine.rx; draw_info->affine.ry=current.sx*affine.ry+current.ry*affine.sy; draw_info->affine.sy=current.rx*affine.ry+current.sy*affine.sy; draw_info->affine.tx=current.sx*affine.tx+current.ry*affine.ty+current.tx; draw_info->affine.ty=current.rx*affine.tx+current.sy*affine.ty+current.ty; if (draw_info->geometry == (char *) NULL) { draw_info->geometry=AcquireString((char *) NULL); (void) FormatLocaleString(draw_info->geometry,MagickPathExtent, "%.20g,%.20g",x,y); } status=GetMultilineTypeMetrics(image,draw_info,&metrics,exception); (void) CatchException(exception); if (status == MagickFalse) PUSHs(&sv_undef); else { PUSHs(sv_2mortal(newSVnv(metrics.pixels_per_em.x))); PUSHs(sv_2mortal(newSVnv(metrics.pixels_per_em.y))); PUSHs(sv_2mortal(newSVnv(metrics.ascent))); PUSHs(sv_2mortal(newSVnv(metrics.descent))); PUSHs(sv_2mortal(newSVnv(metrics.width))); PUSHs(sv_2mortal(newSVnv(metrics.height))); PUSHs(sv_2mortal(newSVnv(metrics.max_advance))); PUSHs(sv_2mortal(newSVnv(metrics.bounds.x1))); PUSHs(sv_2mortal(newSVnv(metrics.bounds.y1))); PUSHs(sv_2mortal(newSVnv(metrics.bounds.x2))); PUSHs(sv_2mortal(newSVnv(metrics.bounds.y2))); PUSHs(sv_2mortal(newSVnv(metrics.origin.x))); PUSHs(sv_2mortal(newSVnv(metrics.origin.y))); } draw_info=DestroyDrawInfo(draw_info); PerlException: if (package_info != (struct PackageInfo *) NULL) DestroyPackageInfo(package_info); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* can't return warning messages */ } # ############################################################################### # # # # # # # Q u e r y F o r m a t # # # # # # # ############################################################################### # # void QueryFormat(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: queryformat = 1 PPCODE: { char *name; ExceptionInfo *exception; ssize_t i; SV *perl_exception; volatile const MagickInfo *magick_info; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (items == 1) { char format[MagickPathExtent]; const MagickInfo **format_list; size_t types; format_list=GetMagickInfoList("*",&types,exception); EXTEND(sp,types); for (i=0; i < (ssize_t) types; i++) { (void) CopyMagickString(format,format_list[i]->name,MagickPathExtent); LocaleLower(format); PUSHs(sv_2mortal(newSVpv(format,0))); } format_list=(const MagickInfo **) RelinquishMagickMemory((MagickInfo *) format_list); goto PerlException; } EXTEND(sp,8*items); for (i=1; i < items; i++) { name=(char *) SvPV(ST(i),na); magick_info=GetMagickInfo(name,exception); if (magick_info == (const MagickInfo *) NULL) { PUSHs(&sv_undef); continue; } if (magick_info->description == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(magick_info->description,0))); if (magick_info->magick_module == (char *) NULL) PUSHs(&sv_undef); else PUSHs(sv_2mortal(newSVpv(magick_info->magick_module,0))); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # Q u e r y O p t i o n # # # # # # # ############################################################################### # # void QueryOption(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: queryoption = 1 PPCODE: { char **options; ExceptionInfo *exception; ssize_t i; ssize_t j, option; SV *perl_exception; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); EXTEND(sp,8*items); for (i=1; i < items; i++) { option=ParseCommandOption(MagickListOptions,MagickFalse,(char *) SvPV(ST(i),na)); options=GetCommandOptions((CommandOption) option); if (options == (char **) NULL) PUSHs(&sv_undef); else { for (j=0; options[j] != (char *) NULL; j++) PUSHs(sv_2mortal(newSVpv(options[j],0))); options=DestroyStringList(options); } } InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # R e a d # # # # # # # ############################################################################### # # void Read(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: ReadImage = 1 read = 2 readimage = 3 PPCODE: { AV *av; char **keep, **list; ExceptionInfo *exception; HV *hv; Image *image; int n; MagickBooleanType status; char **p; ssize_t i; ssize_t ac, number_images; STRLEN *length; struct PackageInfo *info, *package_info; SV *perl_exception, /* Perl variable for storing messages */ *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; package_info=(struct PackageInfo *) NULL; number_images=0; ac=(items < 2) ? 1 : items-1; list=(char **) AcquireQuantumMemory((size_t) ac+1UL,sizeof(*list)); keep=list; length=(STRLEN *) NULL; if (list == (char **) NULL) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } length=(STRLEN *) AcquireQuantumMemory((size_t) ac+1UL,sizeof(*length)); if (length == (STRLEN *) NULL) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); if (SvTYPE(reference) != SVt_PVAV) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); package_info=ClonePackageInfo(info,exception); n=1; if (items <= 1) *list=(char *) (*package_info->image_info->filename ? package_info->image_info->filename : "XC:black"); else for (n=0, i=0; i < ac; i++) { list[n]=(char *) SvPV(ST(i+1),length[n]); if ((items >= 3) && strEQcase(list[n],"blob")) { void *blob; i++; blob=(void *) (SvPV(ST(i+1),length[n])); SetImageInfoBlob(package_info->image_info,blob,(size_t) length[n]); } if ((items >= 3) && strEQcase(list[n],"filename")) continue; if ((items >= 3) && strEQcase(list[n],"file")) { FILE *file; PerlIO *io_info; i++; io_info=IoIFP(sv_2io(ST(i+1))); if (io_info == (PerlIO *) NULL) { ThrowPerlException(exception,BlobError,"UnableToOpenFile", PackageName); continue; } file=PerlIO_findFILE(io_info); if (file == (FILE *) NULL) { ThrowPerlException(exception,BlobError,"UnableToOpenFile", PackageName); continue; } SetImageInfoFile(package_info->image_info,file); } if ((items >= 3) && strEQcase(list[n],"magick")) continue; n++; } list[n]=(char *) NULL; keep=list; status=ExpandFilenames(&n,&list); if (status == MagickFalse) { ThrowPerlException(exception,ResourceLimitError, "MemoryAllocationFailed",PackageName); goto PerlException; } number_images=0; for (i=0; i < n; i++) { if ((package_info->image_info->file == (FILE *) NULL) && (package_info->image_info->blob == (void *) NULL)) image=ReadImages(package_info->image_info,list[i],exception); else { image=ReadImages(package_info->image_info, package_info->image_info->filename,exception); if (image != (Image *) NULL) DisassociateImageStream(image); } if (image == (Image *) NULL) break; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); number_images++; } } /* Free resources. */ for (i=0; i < n; i++) if (list[i] != (char *) NULL) for (p=keep; list[i] != *p++; ) if (*p == (char *) NULL) { list[i]=(char *) RelinquishMagickMemory(list[i]); break; } PerlException: if (package_info != (struct PackageInfo *) NULL) DestroyPackageInfo(package_info); if (list && (list != keep)) list=(char **) RelinquishMagickMemory(list); if (keep) keep=(char **) RelinquishMagickMemory(keep); if (length) length=(STRLEN *) RelinquishMagickMemory(length); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) number_images); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # R e m o t e # # # # # # # ############################################################################### # # void Remote(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: RemoteCommand = 1 remote = 2 remoteCommand = 3 PPCODE: { AV *av; ExceptionInfo *exception; ssize_t i; SV *perl_exception, *reference; struct PackageInfo *info; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); reference=SvRV(ST(0)); av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); for (i=1; i < items; i++) (void) RemoteDisplayCommand(info->image_info,(char *) NULL,(char *) SvPV(ST(i),na),exception); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* throw away all errors */ } # ############################################################################### # # # # # # # S e t # # # # # # # ############################################################################### # # void Set(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: SetAttributes = 1 SetAttribute = 2 set = 3 setattributes = 4 setattribute = 5 PPCODE: { ExceptionInfo *exception; Image *image; ssize_t i; struct PackageInfo *info; SV *perl_exception, *reference; /* reference is the SV* of ref=SvIV(reference) */ PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (items == 2) SetAttribute(aTHX_ info,image,"size",ST(1),exception); else for (i=2; i < items; i+=2) SetAttribute(aTHX_ info,image,SvPV(ST(i-1),na),ST(i),exception); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) (SvCUR(perl_exception) != 0)); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # S e t P i x e l # # # # # # # ############################################################################### # # void SetPixel(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: setpixel = 1 setPixel = 2 PPCODE: { AV *av; char *attribute; ChannelType channel, channel_mask; ExceptionInfo *exception; Image *image; MagickBooleanType normalize; RectangleInfo region; ssize_t i; Quantum *q; ssize_t option; struct PackageInfo *info; SV *perl_exception, *reference; /* reference is the SV* of ref=SvIV(reference) */ PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); reference=SvRV(ST(0)); av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } av=(AV *) NULL; normalize=MagickTrue; region.x=0; region.y=0; region.width=image->columns; region.height=1; if (items == 1) (void) ParseAbsoluteGeometry(SvPV(ST(1),na),®ion); channel=DefaultChannels; for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'C': case 'c': { if (LocaleCompare(attribute,"channel") == 0) { ssize_t option; option=ParseChannelOption(SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); return; } channel=(ChannelType) option; break; } if (LocaleCompare(attribute,"color") == 0) { if (SvTYPE(ST(i)) != SVt_RV) { char message[MagickPathExtent]; (void) FormatLocaleString(message,MagickPathExtent, "invalid %.60s value",attribute); ThrowPerlException(exception,OptionError,message, SvPV(ST(i),na)); } av=(AV *) SvRV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'g': case 'G': { if (LocaleCompare(attribute,"geometry") == 0) { (void) ParseAbsoluteGeometry(SvPV(ST(i),na),®ion); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'N': case 'n': { if (LocaleCompare(attribute,"normalize") == 0) { option=ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); break; } normalize=option != 0 ? MagickTrue : MagickFalse; break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'x': case 'X': { if (LocaleCompare(attribute,"x") == 0) { region.x=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'y': case 'Y': { if (LocaleCompare(attribute,"y") == 0) { region.y=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } (void) SetImageStorageClass(image,DirectClass,exception); channel_mask=SetImageChannelMask(image,channel); q=GetAuthenticPixels(image,region.x,region.y,1,1,exception); if ((q == (Quantum *) NULL) || (av == (AV *) NULL) || (SvTYPE(av) != SVt_PVAV)) PUSHs(&sv_undef); else { double scale; ssize_t i; i=0; scale=1.0; if (normalize != MagickFalse) scale=QuantumRange; if (((GetPixelRedTraits(image) & UpdatePixelTrait) != 0) && (i <= av_len(av))) { SetPixelRed(image,ClampToQuantum(scale*SvNV(*( av_fetch(av,i,0)))),q); i++; } if (((GetPixelGreenTraits(image) & UpdatePixelTrait) != 0) && (i <= av_len(av))) { SetPixelGreen(image,ClampToQuantum(scale*SvNV(*( av_fetch(av,i,0)))),q); i++; } if (((GetPixelBlueTraits(image) & UpdatePixelTrait) != 0) && (i <= av_len(av))) { SetPixelBlue(image,ClampToQuantum(scale*SvNV(*( av_fetch(av,i,0)))),q); i++; } if ((((GetPixelBlackTraits(image) & UpdatePixelTrait) != 0) && (image->colorspace == CMYKColorspace)) && (i <= av_len(av))) { SetPixelBlack(image,ClampToQuantum(scale* SvNV(*(av_fetch(av,i,0)))),q); i++; } if (((GetPixelAlphaTraits(image) & UpdatePixelTrait) != 0) && (i <= av_len(av))) { SetPixelAlpha(image,ClampToQuantum(scale* SvNV(*(av_fetch(av,i,0)))),q); i++; } (void) SyncAuthenticPixels(image,exception); } (void) SetImageChannelMask(image,channel_mask); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # S e t P i x e l s # # # # # # # ############################################################################### # # void SetPixels(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: setpixels = 1 setPixels = 2 PPCODE: { AV *av; char *attribute; ChannelType channel, channel_mask; ExceptionInfo *exception; Image *image; RectangleInfo region; ssize_t i; Quantum *q; struct PackageInfo *info; SV *perl_exception, *reference; /* reference is the SV* of ref=SvIV(reference) */ PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); reference=SvRV(ST(0)); av=(AV *) reference; info=GetPackageInfo(aTHX_ (void *) av,(struct PackageInfo *) NULL, exception); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } av=(AV *) NULL; region.x=0; region.y=0; region.width=image->columns; region.height=1; if (items == 1) (void) ParseAbsoluteGeometry(SvPV(ST(1),na),®ion); channel=DefaultChannels; for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'C': case 'c': { if (LocaleCompare(attribute,"channel") == 0) { ssize_t option; option=ParseChannelOption(SvPV(ST(i),na)); if (option < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); return; } channel=(ChannelType) option; break; } if (LocaleCompare(attribute,"color") == 0) { if (SvTYPE(ST(i)) != SVt_RV) { char message[MagickPathExtent]; (void) FormatLocaleString(message,MagickPathExtent, "invalid %.60s value",attribute); ThrowPerlException(exception,OptionError,message, SvPV(ST(i),na)); } av=(AV *) SvRV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'g': case 'G': { if (LocaleCompare(attribute,"geometry") == 0) { (void) ParseAbsoluteGeometry(SvPV(ST(i),na),®ion); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'h': case 'H': { if (LocaleCompare(attribute,"height") == 0) { region.height=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'w': case 'W': { if (LocaleCompare(attribute,"width") == 0) { region.width=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'x': case 'X': { if (LocaleCompare(attribute,"x") == 0) { region.x=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'y': case 'Y': { if (LocaleCompare(attribute,"y") == 0) { region.y=SvIV(ST(i)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } (void) SetImageStorageClass(image,DirectClass,exception); channel_mask=SetImageChannelMask(image,channel); q=GetAuthenticPixels(image,region.x,region.y,region.width,region.height, exception); if ((q == (Quantum *) NULL) || (av == (AV *) NULL) || (SvTYPE(av) != SVt_PVAV)) PUSHs(&sv_undef); else { double scale; ssize_t i, n, number_pixels; i=0; n=0; scale=(double) QuantumRange; number_pixels=region.width*region.height; while ((n < number_pixels) && (i < av_len(av))) { if (((GetPixelRedTraits(image) & UpdatePixelTrait) != 0) && (i <= av_len(av))) { SetPixelRed(image,ClampToQuantum(scale*SvNV(*( av_fetch(av,i,0)))),q); i++; } if (((GetPixelGreenTraits(image) & UpdatePixelTrait) != 0) && (i <= av_len(av))) { SetPixelGreen(image,ClampToQuantum(scale*SvNV(*( av_fetch(av,i,0)))),q); i++; } if (((GetPixelBlueTraits(image) & UpdatePixelTrait) != 0) && (i <= av_len(av))) { SetPixelBlue(image,ClampToQuantum(scale*SvNV(*( av_fetch(av,i,0)))),q); i++; } if ((((GetPixelBlackTraits(image) & UpdatePixelTrait) != 0) && (image->colorspace == CMYKColorspace)) && (i <= av_len(av))) { SetPixelBlack(image,ClampToQuantum(scale* SvNV(*(av_fetch(av,i,0)))),q); i++; } if (((GetPixelAlphaTraits(image) & UpdatePixelTrait) != 0) && (i <= av_len(av))) { SetPixelAlpha(image,ClampToQuantum(scale* SvNV(*(av_fetch(av,i,0)))),q); i++; } n++; q+=image->number_channels; } (void) SyncAuthenticPixels(image,exception); } (void) SetImageChannelMask(image,channel_mask); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # S m u s h # # # # # # # ############################################################################### # # void Smush(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: SmushImage = 1 smush = 2 smushimage = 3 PPCODE: { AV *av; char *attribute; ExceptionInfo *exception; HV *hv; Image *image; ssize_t i; ssize_t offset, stack; struct PackageInfo *info; SV *av_reference, *perl_exception, *reference, *rv, *sv; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); sv=NULL; attribute=NULL; av=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); hv=SvSTASH(reference); av=newAV(); av_reference=sv_2mortal(sv_bless(newRV((SV *) av),hv)); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } info=GetPackageInfo(aTHX_ (void *) av,info,exception); /* Get options. */ offset=0; stack=MagickTrue; for (i=2; i < items; i+=2) { attribute=(char *) SvPV(ST(i-1),na); switch (*attribute) { case 'O': case 'o': { if (LocaleCompare(attribute,"offset") == 0) { offset=(ssize_t) StringToLong((char *) SvPV(ST(1),na)); break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } case 'S': case 's': { if (LocaleCompare(attribute,"stack") == 0) { stack=ParseCommandOption(MagickBooleanOptions,MagickFalse, SvPV(ST(i),na)); if (stack < 0) { ThrowPerlException(exception,OptionError,"UnrecognizedType", SvPV(ST(i),na)); return; } break; } ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } default: { ThrowPerlException(exception,OptionError,"UnrecognizedAttribute", attribute); break; } } } image=SmushImages(image,stack != 0 ? MagickTrue : MagickFalse,offset, exception); if (image == (Image *) NULL) goto PerlException; for ( ; image; image=image->next) { AddImageToRegistry(sv,image); rv=newRV(sv); av_push(av,sv_bless(rv,hv)); SvREFCNT_dec(sv); } exception=DestroyExceptionInfo(exception); ST(0)=av_reference; SvREFCNT_dec(perl_exception); XSRETURN(1); PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) SvCUR(perl_exception) != 0); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); } # ############################################################################### # # # # # # # S t a t i s t i c s # # # # # # # ############################################################################### # # void Statistics(ref) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: StatisticsImage = 1 statistics = 2 statisticsimage = 3 PPCODE: { #define ChannelStatistics(channel) \ { \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ (double) channel_statistics[channel].depth); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_statistics[channel].minima/QuantumRange); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_statistics[channel].maxima/QuantumRange); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_statistics[channel].mean/QuantumRange); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_statistics[channel].standard_deviation/QuantumRange); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_statistics[channel].kurtosis); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_statistics[channel].skewness); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ (void) FormatLocaleString(message,MagickPathExtent,"%.20g", \ channel_statistics[channel].entropy); \ PUSHs(sv_2mortal(newSVpv(message,0))); \ } AV *av; char message[MagickPathExtent]; ChannelStatistics *channel_statistics; ExceptionInfo *exception; Image *image; ssize_t count; struct PackageInfo *info; SV *perl_exception, *reference; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); av=NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); av=newAV(); SvREFCNT_dec(av); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } count=0; for ( ; image; image=image->next) { size_t i; channel_statistics=GetImageStatistics(image,exception); if (channel_statistics == (ChannelStatistics *) NULL) continue; count++; for (i=0; i < (ssize_t) GetPixelChannels(image); i++) { PixelChannel channel=GetPixelChannelChannel(image,i); PixelTrait traits=GetPixelChannelTraits(image,channel); if (traits == UndefinedPixelTrait) continue; EXTEND(sp,8*(i+1)*count); ChannelStatistics(channel); } EXTEND(sp,8*(i+1)*count); ChannelStatistics(CompositePixelChannel); channel_statistics=(ChannelStatistics *) RelinquishMagickMemory(channel_statistics); } PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); } # ############################################################################### # # # # # # # S y n c A u t h e n t i c P i x e l s # # # # # # # ############################################################################### # # void SyncAuthenticPixels(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: Syncauthenticpixels = 1 SyncImagePixels = 2 syncimagepixels = 3 CODE: { ExceptionInfo *exception; Image *image; MagickBooleanType status; struct PackageInfo *info; SV *perl_exception, *reference; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } status=SyncAuthenticPixels(image,exception); if (status != MagickFalse) return; PerlException: InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); SvREFCNT_dec(perl_exception); /* throw away all errors */ } # ############################################################################### # # # # # # # W r i t e # # # # # # # ############################################################################### # # void Write(ref,...) Image::Magick::@MAGICK_ABI_SUFFIX@ ref = NO_INIT ALIAS: WriteImage = 1 write = 2 writeimage = 3 PPCODE: { char filename[MagickPathExtent]; ExceptionInfo *exception; Image *image, *next; ssize_t i; ssize_t number_images, scene; struct PackageInfo *info, *package_info; SV *perl_exception, *reference; PERL_UNUSED_VAR(ref); PERL_UNUSED_VAR(ix); exception=AcquireExceptionInfo(); perl_exception=newSVpv("",0); number_images=0; package_info=(struct PackageInfo *) NULL; if (sv_isobject(ST(0)) == 0) { ThrowPerlException(exception,OptionError,"ReferenceIsNotMyType", PackageName); goto PerlException; } reference=SvRV(ST(0)); image=SetupList(aTHX_ reference,&info,(SV ***) NULL,exception); if (image == (Image *) NULL) { ThrowPerlException(exception,OptionError,"NoImagesDefined", PackageName); goto PerlException; } scene=0; for (next=image; next; next=next->next) next->scene=scene++; package_info=ClonePackageInfo(info,exception); if (items == 2) SetAttribute(aTHX_ package_info,NULL,"filename",ST(1),exception); else if (items > 2) for (i=2; i < items; i+=2) SetAttribute(aTHX_ package_info,image,SvPV(ST(i-1),na),ST(i), exception); (void) CopyMagickString(filename,package_info->image_info->filename, MagickPathExtent); for (next=image; next; next=next->next) (void) CopyMagickString(next->filename,filename,MagickPathExtent); *package_info->image_info->magick='\0'; SetImageInfo(package_info->image_info,(unsigned int) GetImageListLength(image),exception); for (next=image; next; next=next->next) { (void) WriteImage(package_info->image_info,next,exception); number_images++; if (package_info->image_info->adjoin) break; } PerlException: if (package_info != (struct PackageInfo *) NULL) DestroyPackageInfo(package_info); InheritPerlException(exception,perl_exception); exception=DestroyExceptionInfo(exception); sv_setiv(perl_exception,(IV) number_images); SvPOK_on(perl_exception); ST(0)=sv_2mortal(perl_exception); XSRETURN(1); }