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1 // This may look like C code, but it is really -*- C++ -*-
2 //
3 // Copyright Bob Friesenhahn, 1999, 2000, 2001, 2002, 2003
4 // Copyright Dirk Lemstra 2013-2017
5 //
6 // Definition of Image, the representation of a single image in Magick++
7 //
8 
9 #if !defined(Magick_Image_header)
10 #define Magick_Image_header
11 
12 #include "Magick++/Include.h"
13 #include <string>
14 #include <list>
15 #include "Magick++/Blob.h"
16 #include "Magick++/Color.h"
17 #include "Magick++/Drawable.h"
18 #include "Magick++/Exception.h"
19 #include "Magick++/Geometry.h"
20 #include "Magick++/Statistic.h"
21 #include "Magick++/TypeMetric.h"
22 
23 namespace Magick
24 {
25   // Forward declarations
26   class Options;
27   class ImageRef;
28 
29   extern MagickPPExport const char *borderGeometryDefault;
30   extern MagickPPExport const char *frameGeometryDefault;
31   extern MagickPPExport const char *raiseGeometryDefault;
32 
33   // Compare two Image objects regardless of LHS/RHS
34   // Image sizes and signatures are used as basis of comparison
35   MagickPPExport int operator ==
36     (const Magick::Image &left_,const Magick::Image &right_);
37   MagickPPExport int operator !=
38     (const Magick::Image &left_,const Magick::Image &right_);
39   MagickPPExport int operator >
40     (const Magick::Image &left_,const Magick::Image &right_);
41   MagickPPExport int operator <
42     (const Magick::Image &left_,const Magick::Image &right_);
43   MagickPPExport int operator >=
44     (const Magick::Image &left_,const Magick::Image &right_);
45   MagickPPExport int operator <=
46     (const Magick::Image &left_,const Magick::Image &right_);
47 
48   //
49   // Image is the representation of an image. In reality, it actually
50   // a handle object which contains a pointer to a shared reference
51   // object (ImageRef). As such, this object is extremely space efficient.
52   //
53   class MagickPPExport Image
54   {
55   public:
56 
57     // Default constructor
58     Image(void);
59 
60     // Construct Image from in-memory BLOB
61     Image(const Blob &blob_);
62 
63     // Construct Image of specified size from in-memory BLOB
64     Image(const Blob &blob_,const Geometry &size_);
65 
66     // Construct Image of specified size and depth from in-memory BLOB
67     Image(const Blob &blob_,const Geometry &size_,const size_t depth_);
68 
69     // Construct Image of specified size, depth, and format from
70     // in-memory BLOB
71     Image(const Blob &blob_,const Geometry &size_,const size_t depth_,
72       const std::string &magick_);
73 
74     // Construct Image of specified size, and format from in-memory BLOB
75     Image(const Blob &blob_,const Geometry &size_,const std::string &magick_);
76 
77     // Construct a blank image canvas of specified size and color
78     Image(const Geometry &size_,const Color &color_);
79 
80     // Copy constructor
81     Image(const Image &image_);
82 
83     // Copy constructor to copy part of the image
84     Image(const Image &image_,const Geometry &geometry_);
85 
86     // Construct an image based on an array of raw pixels, of
87     // specified type and mapping, in memory
88     Image(const size_t width_,const size_t height_,const std::string &map_,
89       const StorageType type_,const void *pixels_);
90 
91     // Construct from image file or image specification
92     Image(const std::string &imageSpec_);
93 
94     // Destructor
95     virtual ~Image();
96 
97     // Assignment operator
98     Image& operator=(const Image &image_);
99 
100     // Join images into a single multi-image file
101     void adjoin(const bool flag_);
102     bool adjoin(void) const;
103 
104     // Image supports transparency (alpha channel)
105     void alpha(const bool alphaFlag_);
106     bool alpha(void) const;
107 
108     // Transparent color
109     void matteColor(const Color &matteColor_);
110     Color matteColor(void) const;
111 
112     // Time in 1/100ths of a second which must expire before
113     // displaying the next image in an animated sequence.
114     void animationDelay(const size_t delay_);
115     size_t animationDelay(void) const;
116 
117     // Number of iterations to loop an animation (e.g. Netscape loop
118     // extension) for.
119     void animationIterations(const size_t iterations_);
120     size_t animationIterations(void) const;
121 
122     // Image background color
123     void backgroundColor(const Color &color_);
124     Color backgroundColor(void) const;
125 
126     // Name of texture image to tile onto the image background
127     void backgroundTexture(const std::string &backgroundTexture_);
128     std::string backgroundTexture(void) const;
129 
130     // Base image width (before transformations)
131     size_t baseColumns(void) const;
132 
133     // Base image filename (before transformations)
134     std::string baseFilename(void) const;
135 
136     // Base image height (before transformations)
137     size_t baseRows(void) const;
138 
139     // Use black point compensation.
140     void blackPointCompensation(const bool flag_);
141     bool blackPointCompensation(void) const;
142 
143     // Image border color
144     void borderColor(const Color &color_);
145     Color borderColor(void) const;
146 
147     // Return smallest bounding box enclosing non-border pixels. The
148     // current fuzz value is used when discriminating between pixels.
149     // This is the crop bounding box used by crop(Geometry(0,0));
150     Geometry boundingBox(void) const;
151 
152     // Text bounding-box base color (default none)
153     void boxColor(const Color &boxColor_);
154     Color boxColor(void) const;
155 
156     // Set or obtain modulus channel depth
157     void channelDepth(const ChannelType channel_,const size_t depth_);
158     size_t channelDepth(const ChannelType channel_);
159 
160     // Returns the number of channels in this image.
161     size_t channels() const;
162 
163     // Image class (DirectClass or PseudoClass)
164     // NOTE: setting a DirectClass image to PseudoClass will result in
165     // the loss of color information if the number of colors in the
166     // image is greater than the maximum palette size (either 256 or
167     // 65536 entries depending on the value of MAGICKCORE_QUANTUM_DEPTH when
168     // ImageMagick was built).
169     void classType(const ClassType class_);
170     ClassType classType(void) const;
171 
172     // Colors within this distance are considered equal
173     void colorFuzz(const double fuzz_);
174     double colorFuzz(void) const;
175 
176     // Colormap size (number of colormap entries)
177     void colorMapSize(const size_t entries_);
178     size_t colorMapSize(void) const;
179 
180     // Image Color Space
181     void colorSpace(const ColorspaceType colorSpace_);
182     ColorspaceType colorSpace(void) const;
183 
184     void colorSpaceType(const ColorspaceType colorSpace_);
185     ColorspaceType colorSpaceType(void) const;
186 
187     // Image width
188     size_t columns(void) const;
189 
190     // Comment image (add comment string to image)
191     void comment(const std::string &comment_);
192     std::string comment(void) const;
193 
194     // Composition operator to be used when composition is implicitly
195     // used (such as for image flattening).
196     void compose(const CompositeOperator compose_);
197     CompositeOperator compose(void) const;
198 
199     // Compression type
200     void compressType(const CompressionType compressType_);
201     CompressionType compressType(void) const;
202 
203     // Enable printing of debug messages from ImageMagick
204     void debug(const bool flag_);
205     bool debug(void) const;
206 
207     // Vertical and horizontal resolution in pixels of the image
208     void density(const Point &density_);
209     Point density(void) const;
210 
211     // Image depth (bits allocated to red/green/blue components)
212     void depth(const size_t depth_);
213     size_t depth(void) const;
214 
215     // Tile names from within an image montage
216     std::string directory(void) const;
217 
218     // Endianness (little like Intel or big like SPARC) for image
219     // formats which support endian-specific options.
220     void endian(const EndianType endian_);
221     EndianType endian(void) const;
222 
223     // Exif profile (BLOB)
224     void exifProfile(const Blob &exifProfile_);
225     Blob exifProfile(void) const;
226 
227     // Image file name
228     void fileName(const std::string &fileName_);
229     std::string fileName(void) const;
230 
231     // Number of bytes of the image on disk
232     MagickSizeType fileSize(void) const;
233 
234     // Color to use when filling drawn objects
235     void fillColor(const Color &fillColor_);
236     Color fillColor(void) const;
237 
238     // Rule to use when filling drawn objects
239     void fillRule(const FillRule &fillRule_);
240     FillRule fillRule(void) const;
241 
242     // Pattern to use while filling drawn objects.
243     void fillPattern(const Image &fillPattern_);
244     Image fillPattern(void) const;
245 
246     // Filter to use when resizing image
247     void filterType(const FilterType filterType_);
248     FilterType filterType(void) const;
249 
250     // Text rendering font
251     void font(const std::string &font_);
252     std::string font(void) const;
253 
254     // Font family
255     void fontFamily(const std::string &family_);
256     std::string fontFamily(void) const;
257 
258     // Font point size
259     void fontPointsize(const double pointSize_);
260     double fontPointsize(void) const;
261 
262     // Font style
263     void fontStyle(const StyleType style_);
264     StyleType fontStyle(void) const;
265 
266     // Font weight
267     void fontWeight(const size_t weight_);
268     size_t fontWeight(void) const;
269 
270     // Long image format description
271     std::string format(void) const;
272 
273     // Formats the specified expression
274     // More info here: https://imagemagick.org/script/escape.php
275     std::string formatExpression(const std::string expression);
276 
277     // Gamma level of the image
278     double gamma(void) const;
279 
280     // Preferred size of the image when encoding
281     Geometry geometry(void) const;
282 
283     // GIF disposal method
284     void gifDisposeMethod(const DisposeType disposeMethod_);
285     DisposeType gifDisposeMethod(void) const;
286 
287     bool hasChannel(const PixelChannel channel) const;
288 
289     // When comparing images, emphasize pixel differences with this color.
290     void highlightColor(const Color color_);
291 
292     // ICC color profile (BLOB)
293     void iccColorProfile(const Blob &colorProfile_);
294     Blob iccColorProfile(void) const;
295 
296     // Type of interlacing to use
297     void interlaceType(const InterlaceType interlace_);
298     InterlaceType interlaceType(void) const;
299 
300     // Pixel color interpolation method to use
301     void interpolate(const PixelInterpolateMethod interpolate_);
302     PixelInterpolateMethod interpolate(void) const;
303 
304     // IPTC profile (BLOB)
305     void iptcProfile(const Blob &iptcProfile_);
306     Blob iptcProfile(void) const;
307 
308     // Returns true if none of the pixels in the image have an alpha value
309     // other than OpaqueAlpha (QuantumRange).
310     bool isOpaque(void) const;
311 
312     // Does object contain valid image?
313     void isValid(const bool isValid_);
314     bool isValid(void) const;
315 
316     // Image label
317     void label(const std::string &label_);
318     std::string label(void) const;
319 
320     // When comparing images, de-emphasize pixel differences with this color.
321     void lowlightColor(const Color color_);
322 
323     // File type magick identifier (.e.g "GIF")
324     void magick(const std::string &magick_);
325     std::string magick(void) const;
326 
327     // When comparing images, set pixels with a read mask to this color.
328     void masklightColor(const Color color_);
329 
330     // The mean error per pixel computed when an image is color reduced
331     double meanErrorPerPixel(void) const;
332 
333     // Image modulus depth (minimum number of bits required to support
334     // red/green/blue components without loss of accuracy)
335     void modulusDepth(const size_t modulusDepth_);
336     size_t modulusDepth(void) const;
337 
338     // Transform image to black and white
339     void monochrome(const bool monochromeFlag_);
340     bool monochrome(void) const;
341 
342     // Tile size and offset within an image montage
343     Geometry montageGeometry(void) const;
344 
345     // The normalized max error per pixel computed when an image is
346     // color reduced.
347     double normalizedMaxError(void) const;
348 
349     // The normalized mean error per pixel computed when an image is
350     // color reduced.
351     double normalizedMeanError(void) const;
352 
353     // Image orientation
354     void orientation(const OrientationType orientation_);
355     OrientationType orientation(void) const;
356 
357     // Preferred size and location of an image canvas.
358     void page(const Geometry &pageSize_);
359     Geometry page(void) const;
360 
361     // JPEG/MIFF/PNG compression level (default 75).
362     void quality(const size_t quality_);
363     size_t quality(void) const;
364 
365     // Maximum number of colors to quantize to
366     void quantizeColors(const size_t colors_);
367     size_t quantizeColors(void) const;
368 
369     // Colorspace to quantize in.
370     void quantizeColorSpace(const ColorspaceType colorSpace_);
371     ColorspaceType quantizeColorSpace(void) const;
372 
373     // Dither image during quantization (default true).
374     void quantizeDither(const bool ditherFlag_);
375     bool quantizeDither(void) const;
376 
377     // Dither method
378     void quantizeDitherMethod(const DitherMethod ditherMethod_);
379     DitherMethod quantizeDitherMethod(void) const;
380 
381     // Quantization tree-depth
382     void quantizeTreeDepth(const size_t treeDepth_);
383     size_t quantizeTreeDepth(void) const;
384 
385     // Suppress all warning messages. Error messages are still reported.
386     void quiet(const bool quiet_);
387     bool quiet(void) const;
388 
389     // The type of rendering intent
390     void renderingIntent(const RenderingIntent renderingIntent_);
391     RenderingIntent renderingIntent(void) const;
392 
393     // Units of image resolution
394     void resolutionUnits(const ResolutionType resolutionUnits_);
395     ResolutionType resolutionUnits(void) const;
396 
397     // The number of pixel rows in the image
398     size_t rows(void) const;
399 
400     // Image scene number
401     void scene(const size_t scene_);
402     size_t scene(void) const;
403 
404     // Width and height of a raw image
405     void size(const Geometry &geometry_);
406     Geometry size(void) const;
407 
408     // enabled/disable stroke anti-aliasing
409     void strokeAntiAlias(const bool flag_);
410     bool strokeAntiAlias(void) const;
411 
412     // Color to use when drawing object outlines
413     void strokeColor(const Color &strokeColor_);
414     Color strokeColor(void) const;
415 
416     // Specify the pattern of dashes and gaps used to stroke
417     // paths. The strokeDashArray represents a zero-terminated array
418     // of numbers that specify the lengths of alternating dashes and
419     // gaps in pixels. If an odd number of values is provided, then
420     // the list of values is repeated to yield an even number of
421     // values.  A typical strokeDashArray_ array might contain the
422     // members 5 3 2 0, where the zero value indicates the end of the
423     // pattern array.
424     void strokeDashArray(const double *strokeDashArray_);
425     const double *strokeDashArray(void) const;
426 
427     // While drawing using a dash pattern, specify distance into the
428     // dash pattern to start the dash (default 0).
429     void strokeDashOffset(const double strokeDashOffset_);
430     double strokeDashOffset(void) const;
431 
432     // Specify the shape to be used at the end of open subpaths when
433     // they are stroked. Values of LineCap are UndefinedCap, ButtCap,
434     // RoundCap, and SquareCap.
435     void strokeLineCap(const LineCap lineCap_);
436     LineCap strokeLineCap(void) const;
437 
438     // Specify the shape to be used at the corners of paths (or other
439     // vector shapes) when they are stroked. Values of LineJoin are
440     // UndefinedJoin, MiterJoin, RoundJoin, and BevelJoin.
441     void strokeLineJoin(const LineJoin lineJoin_);
442     LineJoin strokeLineJoin(void) const;
443 
444     // Specify miter limit. When two line segments meet at a sharp
445     // angle and miter joins have been specified for 'lineJoin', it is
446     // possible for the miter to extend far beyond the thickness of
447     // the line stroking the path. The miterLimit' imposes a limit on
448     // the ratio of the miter length to the 'lineWidth'. The default
449     // value of this parameter is 4.
450     void strokeMiterLimit(const size_t miterLimit_);
451     size_t strokeMiterLimit(void) const;
452 
453     // Pattern image to use while stroking object outlines.
454     void strokePattern(const Image &strokePattern_);
455     Image strokePattern(void) const;
456 
457     // Stroke width for drawing vector objects (default one)
458     void strokeWidth(const double strokeWidth_);
459     double strokeWidth(void) const;
460 
461     // Subimage of an image sequence
462     void subImage(const size_t subImage_);
463     size_t subImage(void) const;
464 
465     // Number of images relative to the base image
466     void subRange(const size_t subRange_);
467     size_t subRange(void) const;
468 
469     // Anti-alias Postscript and TrueType fonts (default true)
470     void textAntiAlias(const bool flag_);
471     bool textAntiAlias(void) const;
472 
473     // Render text right-to-left or left-to-right.
474     void textDirection(DirectionType direction_);
475     DirectionType textDirection() const;
476 
477     // Annotation text encoding (e.g. "UTF-16")
478     void textEncoding(const std::string &encoding_);
479     std::string textEncoding(void) const;
480 
481     // Text gravity.
482     void textGravity(GravityType gravity_);
483     GravityType textGravity() const;
484 
485     // Text inter-line spacing
486     void textInterlineSpacing(double spacing_);
487     double textInterlineSpacing(void) const;
488 
489     // Text inter-word spacing
490     void textInterwordSpacing(double spacing_);
491     double textInterwordSpacing(void) const;
492 
493     // Text inter-character kerning
494     void textKerning(double kerning_);
495     double textKerning(void) const;
496 
497     // Text undercolor box
498     void textUnderColor(const Color &underColor_);
499     Color textUnderColor(void) const;
500 
501     // Number of colors in the image
502     size_t totalColors(void) const;
503 
504     // Rotation to use when annotating with text or drawing
505     void transformRotation(const double angle_);
506 
507     // Skew to use in X axis when annotating with text or drawing
508     void transformSkewX(const double skewx_);
509 
510     // Skew to use in Y axis when annotating with text or drawing
511     void transformSkewY(const double skewy_);
512 
513     // Image representation type (also see type operation)
514     //   Available types:
515     //    Bilevel        Grayscale       GrayscaleMatte
516     //    Palette        PaletteMatte    TrueColor
517     //    TrueColorMatte ColorSeparation ColorSeparationMatte
518     void type(const ImageType type_);
519     ImageType type(void) const;
520 
521     // Print detailed information about the image
522     void verbose(const bool verboseFlag_);
523     bool verbose(void) const;
524 
525     // Virtual pixel method
526     void virtualPixelMethod(const VirtualPixelMethod virtualPixelMethod_);
527     VirtualPixelMethod virtualPixelMethod(void) const;
528 
529     // X11 display to display to, obtain fonts from, or to capture
530     // image from
531     void x11Display(const std::string &display_);
532     std::string x11Display(void) const;
533 
534     // x resolution of the image
535     double xResolution(void) const;
536 
537     // y resolution of the image
538     double yResolution(void) const;
539 
540     // Adaptive-blur image with specified blur factor
541     // The radius_ parameter specifies the radius of the Gaussian, in
542     // pixels, not counting the center pixel.  The sigma_ parameter
543     // specifies the standard deviation of the Laplacian, in pixels.
544     void adaptiveBlur(const double radius_=0.0,const double sigma_=1.0);
545 
546     // This is shortcut function for a fast interpolative resize using mesh
547     // interpolation.  It works well for small resizes of less than +/- 50%
548     // of the original image size.  For larger resizing on images a full
549     // filtered and slower resize function should be used instead.
550     void adaptiveResize(const Geometry &geometry_);
551 
552     // Adaptively sharpens the image by sharpening more intensely near image
553     // edges and less intensely far from edges. We sharpen the image with a
554     // Gaussian operator of the given radius and standard deviation (sigma).
555     // For reasonable results, radius should be larger than sigma.
556     void adaptiveSharpen(const double radius_=0.0,const double sigma_=1.0);
557     void adaptiveSharpenChannel(const ChannelType channel_,
558       const double radius_=0.0,const double sigma_=1.0);
559 
560     // Local adaptive threshold image
561     // http://www.dai.ed.ac.uk/HIPR2/adpthrsh.htm
562     // Width x height define the size of the pixel neighborhood
563     // bias = constant to subtract from pixel neighborhood mean
564     void adaptiveThreshold(const size_t width_,const size_t height_,
565       const double bias_=0.0);
566 
567     // Add noise to image with specified noise type
568     void addNoise(const NoiseType noiseType_,const double attenuate_=1.0);
569     void addNoiseChannel(const ChannelType channel_,
570       const NoiseType noiseType_,const double attenuate_=1.0);
571 
572     // Transform image by specified affine (or free transform) matrix.
573     void affineTransform(const DrawableAffine &affine);
574 
575     // Set or attenuate the alpha channel in the image. If the image
576     // pixels are opaque then they are set to the specified alpha
577     // value, otherwise they are blended with the supplied alpha
578     // value.  The value of alpha_ ranges from 0 (completely opaque)
579     // to QuantumRange. The defines OpaqueAlpha and TransparentAlpha are
580     // available to specify completely opaque or completely
581     // transparent, respectively.
582     void alpha(const unsigned int alpha_);
583 
584     // AlphaChannel() activates, deactivates, resets, or sets the alpha
585     // channel.
586     void alphaChannel(AlphaChannelOption alphaOption_);
587 
588     //
589     // Annotate image (draw text on image)
590     //
591     // Gravity effects text placement in bounding area according to rules:
592     //  NorthWestGravity  text bottom-left corner placed at top-left
593     //  NorthGravity      text bottom-center placed at top-center
594     //  NorthEastGravity  text bottom-right corner placed at top-right
595     //  WestGravity       text left-center placed at left-center
596     //  CenterGravity     text center placed at center
597     //  EastGravity       text right-center placed at right-center
598     //  SouthWestGravity  text top-left placed at bottom-left
599     //  SouthGravity      text top-center placed at bottom-center
600     //  SouthEastGravity  text top-right placed at bottom-right
601 
602     // Annotate using specified text, and placement location
603     void annotate(const std::string &text_,const Geometry &location_);
604 
605     // Annotate using specified text, bounding area, and placement
606     // gravity
607     void annotate(const std::string &text_,const Geometry &boundingArea_,
608       const GravityType gravity_);
609 
610     // Annotate with text using specified text, bounding area,
611     // placement gravity, and rotation.
612     void annotate(const std::string &text_,const Geometry &boundingArea_,
613       const GravityType gravity_,const double degrees_);
614 
615     // Annotate with text (bounding area is entire image) and placement
616     // gravity.
617     void annotate(const std::string &text_,const GravityType gravity_);
618 
619     // Inserts the artifact with the specified name and value into
620     // the artifact tree of the image.
621     void artifact(const std::string &name_,const std::string &value_);
622 
623     // Returns the value of the artifact with the specified name.
624     std::string artifact(const std::string &name_) const;
625 
626     // Access/Update a named image attribute
627     void attribute(const std::string name_,const char *value_);
628     void attribute(const std::string name_,const std::string value_);
629     std::string attribute(const std::string name_) const;
630 
631     // Extracts the 'mean' from the image and adjust the image to try
632     // make set its gamma appropriatally.
633     void autoGamma(void);
634     void autoGammaChannel(const ChannelType channel_);
635 
636     // Adjusts the levels of a particular image channel by scaling the
637     // minimum and maximum values to the full quantum range.
638     void autoLevel(void);
639     void autoLevelChannel(const ChannelType channel_);
640 
641     // Adjusts an image so that its orientation is suitable for viewing.
642     void autoOrient(void);
643 
644     // Automatically selects a threshold and replaces each pixel in the image
645     // with a black pixel if the image intentsity is less than the selected
646     // threshold otherwise white.
647     void autoThreshold(const AutoThresholdMethod method_);
648 
649     // Forces all pixels below the threshold into black while leaving all
650     // pixels at or above the threshold unchanged.
651     void blackThreshold(const std::string &threshold_);
652     void blackThresholdChannel(const ChannelType channel_,
653       const std::string &threshold_);
654 
655      // Simulate a scene at nighttime in the moonlight.
656     void blueShift(const double factor_=1.5);
657 
658     // Blur image with specified blur factor
659     // The radius_ parameter specifies the radius of the Gaussian, in
660     // pixels, not counting the center pixel.  The sigma_ parameter
661     // specifies the standard deviation of the Laplacian, in pixels.
662     void blur(const double radius_=0.0,const double sigma_=1.0);
663     void blurChannel(const ChannelType channel_,const double radius_=0.0,
664       const double sigma_=1.0);
665 
666     // Border image (add border to image)
667     void border(const Geometry &geometry_=borderGeometryDefault);
668 
669     // Changes the brightness and/or contrast of an image. It converts the
670     // brightness and contrast parameters into slope and intercept and calls
671     // a polynomical function to apply to the image.
672     void brightnessContrast(const double brightness_=0.0,
673       const double contrast_=0.0);
674     void brightnessContrastChannel(const ChannelType channel_,
675       const double brightness_=0.0,const double contrast_=0.0);
676 
677     // Uses a multi-stage algorithm to detect a wide range of edges in images.
678     void cannyEdge(const double radius_=0.0,const double sigma_=1.0,
679       const double lowerPercent_=0.1,const double upperPercent_=0.3);
680 
681     // Accepts a lightweight Color Correction Collection
682     // (CCC) file which solely contains one or more color corrections and
683     // applies the correction to the image.
684     void cdl(const std::string &cdl_);
685 
686     // Extract channel from image
687     void channel(const ChannelType channel_);
688 
689     // Charcoal effect image (looks like charcoal sketch)
690     // The radius_ parameter specifies the radius of the Gaussian, in
691     // pixels, not counting the center pixel.  The sigma_ parameter
692     // specifies the standard deviation of the Laplacian, in pixels.
693     void charcoal(const double radius_=0.0,const double sigma_=1.0);
694     void charcoalChannel(const ChannelType channel_,const double radius_=0.0,
695       const double sigma_=1.0);
696 
697     // Chop image (remove vertical or horizontal subregion of image)
698     // FIXME: describe how geometry argument is used to select either
699     // horizontal or vertical subregion of image.
700     void chop(const Geometry &geometry_);
701 
702     // Chromaticity blue primary point.
703     void chromaBluePrimary(const double x_,const double y_,const double z_);
704     void chromaBluePrimary(double *x_,double *y_,double *z_) const;
705 
706     // Chromaticity green primary point.
707     void chromaGreenPrimary(const double x_,const double y_,const double z_);
708     void chromaGreenPrimary(double *x_,double *y_,double *z_) const;
709 
710     // Chromaticity red primary point.
711     void chromaRedPrimary(const double x_,const double y_,const double z_);
712     void chromaRedPrimary(double *x_,double *y_,double *z_) const;
713 
714     // Chromaticity white point.
715     void chromaWhitePoint(const double x_,const double y_,const double z_);
716     void chromaWhitePoint(double *x_,double *y_,double *z_) const;
717 
718     // Set each pixel whose value is below zero to zero and any the
719     // pixel whose value is above the quantum range to the quantum range (e.g.
720     // 65535) otherwise the pixel value remains unchanged.
721     void clamp(void);
722     void clampChannel(const ChannelType channel_);
723 
724     // Sets the image clip mask based on any clipping path information
725     // if it exists.
726     void clip(void);
727     void clipPath(const std::string pathname_,const bool inside_);
728 
729     // Apply a color lookup table (CLUT) to the image.
730     void clut(const Image &clutImage_,const PixelInterpolateMethod method);
731     void clutChannel(const ChannelType channel_,const Image &clutImage_,
732       const PixelInterpolateMethod method);
733 
734     // Colorize image with pen color, using specified percent alpha.
735     void colorize(const unsigned int alpha_,const Color &penColor_);
736 
737     // Colorize image with pen color, using specified percent alpha
738     // for red, green, and blue quantums
739     void colorize(const unsigned int alphaRed_,const unsigned int alphaGreen_,
740        const unsigned int alphaBlue_,const Color &penColor_);
741 
742      // Color at colormap position index_
743     void colorMap(const size_t index_,const Color &color_);
744     Color colorMap(const size_t index_) const;
745 
746     // Apply a color matrix to the image channels. The user supplied
747     // matrix may be of order 1 to 5 (1x1 through 5x5).
748     void colorMatrix(const size_t order_,const double *color_matrix_);
749 
750     // Compare current image with another image
751     // False is returned if the images are not identical.
752     bool compare(const Image &reference_) const;
753 
754     // Compare current image with another image
755     // Returns the distortion based on the specified metric.
756     double compare(const Image &reference_,const MetricType metric_);
757     double compareChannel(const ChannelType channel_,
758                                      const Image &reference_,
759                                      const MetricType metric_ );
760 
761     // Compare current image with another image
762     // Sets the distortion and returns the difference image.
763     Image compare(const Image &reference_,const MetricType metric_,
764       double *distortion);
765     Image compareChannel(const ChannelType channel_,const Image &reference_,
766       const MetricType metric_,double *distortion);
767 
768     // Compose an image onto another at specified offset and using
769     // specified algorithm
770     void composite(const Image &compositeImage_,const Geometry &offset_,
771       const CompositeOperator compose_=InCompositeOp);
772     void composite(const Image &compositeImage_,const GravityType gravity_,
773       const CompositeOperator compose_=InCompositeOp);
774     void composite(const Image &compositeImage_,const ::ssize_t xOffset_,
775       const ::ssize_t yOffset_,const CompositeOperator compose_=InCompositeOp);
776 
777     // Determines the connected-components of the image
778     void connectedComponents(const size_t connectivity_);
779 
780     // Contrast image (enhance intensity differences in image)
781     void contrast(const bool sharpen_);
782 
783     // A simple image enhancement technique that attempts to improve the
784     // contrast in an image by 'stretching' the range of intensity values
785     // it contains to span a desired range of values. It differs from the
786     // more sophisticated histogram equalization in that it can only apply a
787     // linear scaling function to the image pixel values. As a result the
788     // 'enhancement' is less harsh.
789     void contrastStretch(const double blackPoint_,const double whitePoint_);
790     void contrastStretchChannel(const ChannelType channel_,
791       const double blackPoint_,const double whitePoint_);
792 
793     // Convolve image.  Applies a user-specified convolution to the image.
794     //  order_ represents the number of columns and rows in the filter kernel.
795     //  kernel_ is an array of doubles representing the convolution kernel.
796     void convolve(const size_t order_,const double *kernel_);
797 
798     // Copies pixels from the source image as defined by the geometry the
799     // destination image at the specified offset.
800     void copyPixels(const Image &source_,const Geometry &geometry_,
801       const Offset &offset_);
802 
803     // Crop image (subregion of original image)
804     void crop(const Geometry &geometry_);
805 
806     // Cycle image colormap
807     void cycleColormap(const ::ssize_t amount_);
808 
809     // Converts cipher pixels to plain pixels.
810     void decipher(const std::string &passphrase_);
811 
812     // Tagged image format define. Similar to the defineValue() method
813     // except that passing the flag_ value 'true' creates a value-less
814     // define with that format and key. Passing the flag_ value 'false'
815     // removes any existing matching definition. The method returns 'true'
816     // if a matching key exists, and 'false' if no matching key exists.
817     void defineSet(const std::string &magick_,const std::string &key_,
818       bool flag_);
819     bool defineSet(const std::string &magick_,const std::string &key_) const;
820 
821     // Tagged image format define (set/access coder-specific option) The
822     // magick_ option specifies the coder the define applies to.  The key_
823     // option provides the key specific to that coder.  The value_ option
824     // provides the value to set (if any). See the defineSet() method if the
825     // key must be removed entirely.
826     void defineValue(const std::string &magick_,const std::string &key_,
827       const std::string &value_);
828     std::string defineValue(const std::string &magick_,
829       const std::string &key_) const;
830 
831     // Removes skew from the image. Skew is an artifact that occurs in scanned
832     // images because of the camera being misaligned, imperfections in the
833     // scanning or surface, or simply because the paper was not placed
834     // completely flat when scanned. The value of threshold_ ranges from 0
835     // to QuantumRange.
836     void deskew(const double threshold_);
837 
838     // Despeckle image (reduce speckle noise)
839     void despeckle(void);
840 
841     // Display image on screen
842     void display(void);
843 
844     // Distort image.  distorts an image using various distortion methods, by
845     // mapping color lookups of the source image to a new destination image
846     // usally of the same size as the source image, unless 'bestfit' is set to
847     // true.
848     void distort(const DistortMethod method_,
849       const size_t numberArguments_,const double *arguments_,
850       const bool bestfit_=false);
851 
852     // Draw on image using a single drawable
853     void draw(const Drawable &drawable_);
854 
855     // Draw on image using a drawable list
856     void draw(const std::vector<Magick::Drawable> &drawable_);
857 
858     // Edge image (hilight edges in image)
859     void edge(const double radius_=0.0);
860 
861     // Emboss image (hilight edges with 3D effect)
862     // The radius_ parameter specifies the radius of the Gaussian, in
863     // pixels, not counting the center pixel.  The sigma_ parameter
864     // specifies the standard deviation of the Laplacian, in pixels.
865     void emboss(const double radius_=0.0,const double sigma_=1.0);
866 
867     // Converts pixels to cipher-pixels.
868     void encipher(const std::string &passphrase_);
869 
870     // Enhance image (minimize noise)
871     void enhance(void);
872 
873     // Equalize image (histogram equalization)
874     void equalize(void);
875 
876     // Erase image to current "background color"
877     void erase(void);
878 
879     // Apply a value with an arithmetic, relational, or logical operator.
880     void evaluate(const ChannelType channel_,
881       const MagickEvaluateOperator operator_,double rvalue_);
882 
883     // Apply a value with an arithmetic, relational, or logical operator.
884     void evaluate(const ChannelType channel_,const MagickFunction function_,
885       const size_t number_parameters_,const double *parameters_);
886 
887     // Apply a value with an arithmetic, relational, or logical operator.
888     void evaluate(const ChannelType channel_,const ::ssize_t x_,
889       const ::ssize_t y_,const size_t columns_,const size_t rows_,
890       const MagickEvaluateOperator operator_,const double rvalue_);
891 
892     // Extend the image as defined by the geometry.
893     void extent(const Geometry &geometry_);
894     void extent(const Geometry &geometry_,const Color &backgroundColor);
895     void extent(const Geometry &geometry_,const Color &backgroundColor,
896       const GravityType gravity_);
897     void extent(const Geometry &geometry_,const GravityType gravity_);
898 
899     // Flip image (reflect each scanline in the vertical direction)
900     void flip(void);
901 
902     // Floodfill pixels matching color (within fuzz factor) of target
903     // pixel(x,y) with replacement alpha value.
904     void floodFillAlpha(const ::ssize_t x_,const ::ssize_t y_,
905       const unsigned int alpha_,const bool invert_=false);
906 
907     // Floodfill designated area with replacement alpha value
908     void floodFillAlpha(const ssize_t x_,const ssize_t y_,
909       const unsigned int alpha_,const Color &target_,const bool invert_=false);
910 
911     // Flood-fill color across pixels that match the color of the
912     // target pixel and are neighbors of the target pixel.
913     // Uses current fuzz setting when determining color match.
914     void floodFillColor(const Geometry &point_,const Color &fillColor_,
915       const bool invert_=false);
916     void floodFillColor(const ::ssize_t x_,const ::ssize_t y_,
917       const Color &fillColor_,const bool invert_=false);
918 
919     // Flood-fill color across pixels starting at target-pixel and
920     // stopping at pixels matching specified border color.
921     // Uses current fuzz setting when determining color match.
922     void floodFillColor(const Geometry &point_,const Color &fillColor_,
923       const Color &borderColor_,const bool invert_=false);
924     void floodFillColor(const ::ssize_t x_,const ::ssize_t y_,
925       const Color &fillColor_,const Color &borderColor_,
926       const bool invert_=false);
927 
928     // Flood-fill texture across pixels that match the color of the
929     // target pixel and are neighbors of the target pixel.
930     // Uses current fuzz setting when determining color match.
931     void floodFillTexture(const Geometry &point_,const Image &texture_,
932       const bool invert_=false);
933     void floodFillTexture(const ::ssize_t x_,const ::ssize_t y_,
934       const Image &texture_,const bool invert_=false);
935 
936     // Flood-fill texture across pixels starting at target-pixel and
937     // stopping at pixels matching specified border color.
938     // Uses current fuzz setting when determining color match.
939     void floodFillTexture(const Geometry &point_,const Image &texture_,
940       const Color &borderColor_,const bool invert_=false);
941     void floodFillTexture(const ::ssize_t x_,const ::ssize_t y_,
942       const Image &texture_,const Color &borderColor_,
943       const bool invert_=false);
944 
945     // Flop image (reflect each scanline in the horizontal direction)
946     void flop(void);
947 
948     // Obtain font metrics for text string given current font,
949     // pointsize, and density settings.
950     void fontTypeMetrics(const std::string &text_,TypeMetric *metrics);
951 
952     // Obtain multi line font metrics for text string given current font,
953     // pointsize, and density settings.
954     void fontTypeMetricsMultiline(const std::string &text_,
955       TypeMetric *metrics);
956 
957     // Frame image
958     void frame(const Geometry &geometry_=frameGeometryDefault);
959     void frame(const size_t width_,const size_t height_,
960       const ::ssize_t innerBevel_=6,const ::ssize_t outerBevel_=6);
961 
962     // Applies a mathematical expression to the image.
963     void fx(const std::string expression_);
964     void fx(const std::string expression_,const Magick::ChannelType channel_);
965 
966     // Gamma correct image
967     void gamma(const double gamma_);
968     void gamma(const double gammaRed_,const double gammaGreen_,
969       const double gammaBlue_);
970 
971     // Gaussian blur image
972     // The number of neighbor pixels to be included in the convolution
973     // mask is specified by 'radius_'. The standard deviation of the
974     // gaussian bell curve is specified by 'sigma_'.
975     void gaussianBlur(const double radius_,const double sigma_);
976     void gaussianBlurChannel(const ChannelType channel_,const double radius_,
977       const double sigma_);
978 
979     // Transfers read-only pixels from the image to the pixel cache as
980     // defined by the specified region
981     const Quantum *getConstPixels(const ::ssize_t x_, const ::ssize_t y_,
982       const size_t columns_,const size_t rows_) const;
983 
984     // Obtain immutable image pixel metacontent (valid for PseudoClass images)
985     const void *getConstMetacontent(void) const;
986 
987     // Obtain mutable image pixel metacontent (valid for PseudoClass images)
988     void *getMetacontent(void);
989 
990     // Transfers pixels from the image to the pixel cache as defined
991     // by the specified region. Modified pixels may be subsequently
992     // transferred back to the image via syncPixels.  This method is
993     // valid for DirectClass images.
994     Quantum *getPixels(const ::ssize_t x_,const ::ssize_t y_,
995       const size_t columns_,const size_t rows_);
996 
997     // Converts the colors in the image to gray.
998     void grayscale(const PixelIntensityMethod method_);
999 
1000     // Apply a color lookup table (Hald CLUT) to the image.
1001     void haldClut(const Image &clutImage_);
1002 
1003     // Identifies lines in the image.
1004     void houghLine(const size_t width_,const size_t height_,
1005       const size_t threshold_=40);
1006 
1007     // Identifies the potential color type of the image. This method can be
1008     // used to detect if the type can be changed to GrayScale.
1009     ImageType identifyType(void) const;
1010 
1011     // Implode image (special effect)
1012     void implode(const double factor_);
1013 
1014     // Implements the inverse discrete Fourier transform (DFT) of the image
1015     // either as a magnitude / phase or real / imaginary image pair.
1016     void inverseFourierTransform(const Image &phase_);
1017     void inverseFourierTransform(const Image &phase_,const bool magnitude_);
1018 
1019     // An edge preserving noise reduction filter.
1020     void kuwahara(const double radius_=0.0,const double sigma_=1.0);
1021     void kuwaharaChannel(const ChannelType channel_,const double radius_=0.0,
1022       const double sigma_=1.0);
1023 
1024     // Level image. Adjust the levels of the image by scaling the
1025     // colors falling between specified white and black points to the
1026     // full available quantum range. The parameters provided represent
1027     // the black, mid (gamma), and white points.  The black point
1028     // specifies the darkest color in the image. Colors darker than
1029     // the black point are set to zero. Mid point (gamma) specifies a
1030     // gamma correction to apply to the image. White point specifies
1031     // the lightest color in the image.  Colors brighter than the
1032     // white point are set to the maximum quantum value. The black and
1033     // white point have the valid range 0 to QuantumRange while mid (gamma)
1034     // has a useful range of 0 to ten.
1035     void level(const double blackPoint_,const double whitePoint_,
1036       const double gamma_=1.0);
1037     void levelChannel(const ChannelType channel_,const double blackPoint_,
1038       const double whitePoint_,const double gamma_=1.0);
1039 
1040     // Maps the given color to "black" and "white" values, linearly spreading
1041     // out the colors, and level values on a channel by channel bases, as
1042     // per level(). The given colors allows you to specify different level
1043     // ranges for each of the color channels separately.
1044     void levelColors(const Color &blackColor_,const Color &whiteColor_,
1045       const bool invert_=true);
1046     void levelColorsChannel(const ChannelType channel_,
1047       const Color &blackColor_,const Color &whiteColor_,
1048       const bool invert_=true);
1049 
1050     // Levelize applies the reversed level operation to just the specific
1051     // channels specified.It compresses the full range of color values, so
1052     // that they lie between the given black and white points. Gamma is
1053     // applied before the values are mapped.
1054     void levelize(const double blackPoint_,const double whitePoint_,
1055       const double gamma_=1.0);
1056     void levelizeChannel(const ChannelType channel_,const double blackPoint_,
1057       const double whitePoint_,const double gamma_=1.0);
1058 
1059     // Discards any pixels below the black point and above the white point and
1060     // levels the remaining pixels.
1061     void linearStretch(const double blackPoint_,const double whitePoint_);
1062 
1063     // Rescales image with seam carving.
1064     void liquidRescale(const Geometry &geometry_);
1065 
1066     // Local contrast enhancement
1067     void localContrast(const double radius_,const double strength_);
1068     void localContrastChannel(const ChannelType channel_,const double radius_,
1069       const double strength_);
1070 
1071     // Magnify image by integral size
1072     void magnify(void);
1073 
1074     // Remap image colors with closest color from reference image
1075     void map(const Image &mapImage_,const bool dither_=false);
1076 
1077     // Delineate arbitrarily shaped clusters in the image.
1078     void meanShift(const size_t width_,const size_t height_,
1079       const double color_distance_);
1080 
1081     // Filter image by replacing each pixel component with the median
1082     // color in a circular neighborhood
1083     void medianFilter(const double radius_=0.0);
1084 
1085     // Reduce image by integral size
1086     void minify(void);
1087 
1088     // Modulate percent hue, saturation, and brightness of an image
1089     void modulate(const double brightness_,const double saturation_,
1090       const double hue_);
1091 
1092     // Returns the normalized moments of one or more image channels.
1093     ImageMoments moments(void) const;
1094 
1095     // Applies a kernel to the image according to the given mophology method.
1096     void morphology(const MorphologyMethod method_,const std::string kernel_,
1097       const ssize_t iterations_=1);
1098     void morphology(const MorphologyMethod method_,
1099       const KernelInfoType kernel_,const std::string arguments_,
1100       const ssize_t iterations_=1);
1101     void morphologyChannel(const ChannelType channel_,
1102       const MorphologyMethod method_,const std::string kernel_,
1103       const ssize_t iterations_=1);
1104     void morphologyChannel(const ChannelType channel_,
1105       const MorphologyMethod method_,const KernelInfoType kernel_,
1106       const std::string arguments_,const ssize_t iterations_=1);
1107 
1108     // Motion blur image with specified blur factor
1109     // The radius_ parameter specifies the radius of the Gaussian, in
1110     // pixels, not counting the center pixel.  The sigma_ parameter
1111     // specifies the standard deviation of the Laplacian, in pixels.
1112     // The angle_ parameter specifies the angle the object appears
1113     // to be comming from (zero degrees is from the right).
1114     void motionBlur(const double radius_,const double sigma_,
1115       const double angle_);
1116 
1117     // Negate colors in image.  Set grayscale to only negate grayscale
1118     // values in image.
1119     void negate(const bool grayscale_=false);
1120     void negateChannel(const ChannelType channel_,const bool grayscale_=false);
1121 
1122     // Normalize image (increase contrast by normalizing the pixel
1123     // values to span the full range of color values)
1124     void normalize(void);
1125 
1126     // Oilpaint image (image looks like oil painting)
1127     void oilPaint(const double radius_=0.0,const double sigma=1.0);
1128 
1129     // Change color of opaque pixel to specified pen color.
1130     void opaque(const Color &opaqueColor_,const Color &penColor_,
1131       const bool invert_=false);
1132 
1133     // Perform a ordered dither based on a number of pre-defined dithering
1134     // threshold maps, but over multiple intensity levels.
1135     void orderedDither(std::string thresholdMap_);
1136     void orderedDitherChannel(const ChannelType channel_,
1137       std::string thresholdMap_);
1138 
1139     // Set each pixel whose value is less than epsilon to epsilon or
1140     // -epsilon (whichever is closer) otherwise the pixel value remains
1141     // unchanged.
1142     void perceptible(const double epsilon_);
1143     void perceptibleChannel(const ChannelType channel_,const double epsilon_);
1144 
1145     // Returns the perceptual hash for this image.
1146     Magick::ImagePerceptualHash perceptualHash() const;
1147 
1148     // Ping is similar to read except only enough of the image is read
1149     // to determine the image columns, rows, and filesize.  Access the
1150     // columns(), rows(), and fileSize() attributes after invoking
1151     // ping.  The image data is not valid after calling ping.
1152     void ping(const std::string &imageSpec_);
1153 
1154     // Ping is similar to read except only enough of the image is read
1155     // to determine the image columns, rows, and filesize.  Access the
1156     // columns(), rows(), and fileSize() attributes after invoking
1157     // ping.  The image data is not valid after calling ping.
1158     void ping(const Blob &blob_);
1159 
1160     // Get/set pixel color at location x & y.
1161     void pixelColor(const ::ssize_t x_,const ::ssize_t y_,const Color &color_);
1162     Color pixelColor(const ::ssize_t x_,const ::ssize_t y_ ) const;
1163 
1164     // Simulates a Polaroid picture.
1165     void polaroid(const std::string &caption_,const double angle_,
1166       const PixelInterpolateMethod method_);
1167 
1168     // Reduces the image to a limited number of colors for a "poster" effect.
1169     void posterize(const size_t levels_,const DitherMethod method_);
1170     void posterizeChannel(const ChannelType channel_,const size_t levels_,
1171       const DitherMethod method_);
1172 
1173     // Execute a named process module using an argc/argv syntax similar to
1174     // that accepted by a C 'main' routine. An exception is thrown if the
1175     // requested process module doesn't exist, fails to load, or fails during
1176     // execution.
1177     void process(std::string name_,const ::ssize_t argc_,const char **argv_);
1178 
1179     // Add or remove a named profile to/from the image. Remove the
1180     // profile by passing an empty Blob (e.g. Blob()). Valid names are
1181     // "*", "8BIM", "ICM", "IPTC", or a user/format-defined profile name.
1182     void profile(const std::string name_,const Blob &colorProfile_);
1183 
1184     // Retrieve a named profile from the image. Valid names are:
1185     // "8BIM", "8BIMTEXT", "APP1", "APP1JPEG", "ICC", "ICM", & "IPTC"
1186     // or an existing user/format-defined profile name.
1187     Blob profile(const std::string name_) const;
1188 
1189     // Quantize image (reduce number of colors)
1190     void quantize(const bool measureError_=false);
1191 
1192     // Raise image (lighten or darken the edges of an image to give a
1193     // 3-D raised or lowered effect)
1194     void raise(const Geometry &geometry_=raiseGeometryDefault,
1195       const bool raisedFlag_=false);
1196 
1197     // Random threshold image.
1198     //
1199     // Changes the value of individual pixels based on the intensity
1200     // of each pixel compared to a random threshold.  The result is a
1201     // low-contrast, two color image.
1202     void randomThreshold(const double low_,const double high_);
1203     void randomThresholdChannel(const ChannelType channel_,const double low_,
1204       const double high_);
1205 
1206     // Read single image frame from in-memory BLOB
1207     void read(const Blob &blob_);
1208 
1209     // Read single image frame of specified size from in-memory BLOB
1210     void read(const Blob &blob_,const Geometry &size_);
1211 
1212     // Read single image frame of specified size and depth from
1213     // in-memory BLOB
1214     void read(const Blob &blob_,const Geometry &size_,const size_t depth_);
1215 
1216     // Read single image frame of specified size, depth, and format
1217     // from in-memory BLOB
1218     void read(const Blob &blob_,const Geometry &size_,const size_t depth_,
1219       const std::string &magick_);
1220 
1221     // Read single image frame of specified size, and format from
1222     // in-memory BLOB
1223     void read(const Blob &blob_,const Geometry &size_,
1224       const std::string &magick_);
1225 
1226     // Read single image frame of specified size into current object
1227     void read(const Geometry &size_,const std::string &imageSpec_);
1228 
1229     // Read single image frame from an array of raw pixels, with
1230     // specified storage type (ConstituteImage), e.g.
1231     // image.read( 640, 480, "RGB", 0, pixels );
1232     void read(const size_t width_,const size_t height_,const std::string &map_,
1233       const StorageType type_,const void *pixels_);
1234 
1235     // Read single image frame into current object
1236     void read(const std::string &imageSpec_);
1237 
1238     // Associate a mask with the image. The mask must be the same dimensions
1239     // as the image. Pass an invalid image to unset an existing mask.
1240     void readMask(const Image &mask_);
1241     Image readMask(void) const;
1242 
1243     // Transfers one or more pixel components from a buffer or file
1244     // into the image pixel cache of an image.
1245     // Used to support image decoders.
1246     void readPixels(const QuantumType quantum_,const unsigned char *source_);
1247 
1248     // Reduce noise in image using a noise peak elimination filter
1249     void reduceNoise(void);
1250     void reduceNoise(const size_t order_);
1251 
1252     // Resets the image page canvas and position.
1253     void repage();
1254 
1255     // Resize image in terms of its pixel size.
1256     void resample(const Point &density_);
1257 
1258     // Resize image to specified size.
1259     void resize(const Geometry &geometry_);
1260 
1261     // Roll image (rolls image vertically and horizontally) by specified
1262     // number of columnms and rows)
1263     void roll(const Geometry &roll_);
1264     void roll(const size_t columns_,const size_t rows_);
1265 
1266     // Rotate image clockwise by specified number of degrees. Specify a
1267     // negative number for degrees to rotate counter-clockwise.
1268     void rotate(const double degrees_);
1269 
1270     // Rotational blur image.
1271     void rotationalBlur(const double angle_);
1272     void rotationalBlurChannel(const ChannelType channel_,const double angle_);
1273 
1274     // Resize image by using pixel sampling algorithm
1275     void sample(const Geometry &geometry_);
1276 
1277     // Resize image by using simple ratio algorithm
1278     void scale(const Geometry &geometry_);
1279 
1280     // Segment (coalesce similar image components) by analyzing the
1281     // histograms of the color components and identifying units that
1282     // are homogeneous with the fuzzy c-means technique.  Also uses
1283     // QuantizeColorSpace and Verbose image attributes
1284     void segment(const double clusterThreshold_=1.0,
1285       const double smoothingThreshold_=1.5);
1286 
1287     // Selectively blur pixels within a contrast threshold. It is similar to
1288     // the unsharpen mask that sharpens everything with contrast above a
1289     // certain threshold.
1290     void selectiveBlur(const double radius_,const double sigma_,
1291       const double threshold_);
1292     void selectiveBlurChannel(const ChannelType channel_,const double radius_,
1293       const double sigma_,const double threshold_);
1294 
1295     // Separates a channel from the image and returns it as a grayscale image.
1296     Image separate(const ChannelType channel_) const;
1297 
1298     // Applies a special effect to the image, similar to the effect achieved in
1299     // a photo darkroom by sepia toning.  Threshold ranges from 0 to
1300     // QuantumRange and is a measure of the extent of the sepia toning.
1301     // A threshold of 80% is a good starting point for a reasonable tone.
1302     void sepiaTone(const double threshold_);
1303 
1304     // Sets meanErrorPerPixel, normalizedMaxError, and normalizedMeanError
1305     // in the current image. False is returned if the images are not identical.
1306     bool setColorMetric(const Image &reference_);
1307 
1308     // Allocates a pixel cache region to store image pixels as defined
1309     // by the region rectangle.  This area is subsequently transferred
1310     // from the pixel cache to the image via syncPixels.
1311     Quantum *setPixels(const ::ssize_t x_, const ::ssize_t y_,
1312       const size_t columns_,const size_t rows_);
1313 
1314     // Shade image using distant light source
1315     void shade(const double azimuth_=30,const double elevation_=30,
1316       const bool colorShading_=false);
1317 
1318     // Simulate an image shadow
1319     void shadow(const double percentAlpha_=80.0,const double sigma_=0.5,
1320       const ssize_t x_=5,const ssize_t y_=5);
1321 
1322     // Sharpen pixels in image
1323     // The radius_ parameter specifies the radius of the Gaussian, in
1324     // pixels, not counting the center pixel.  The sigma_ parameter
1325     // specifies the standard deviation of the Laplacian, in pixels.
1326     void sharpen(const double radius_=0.0,const double sigma_=1.0);
1327     void sharpenChannel(const ChannelType channel_,const double radius_=0.0,
1328       const double sigma_=1.0);
1329 
1330     // Shave pixels from image edges.
1331     void shave(const Geometry &geometry_);
1332 
1333     // Shear image (create parallelogram by sliding image by X or Y axis)
1334     void shear(const double xShearAngle_,const double yShearAngle_);
1335 
1336     // adjust the image contrast with a non-linear sigmoidal contrast algorithm
1337     void sigmoidalContrast(const bool sharpen_,const double contrast,
1338       const double midpoint=QuantumRange/2.0);
1339 
1340     // Image signature. Set force_ to true in order to re-calculate
1341     // the signature regardless of whether the image data has been
1342     // modified.
1343     std::string signature(const bool force_=false) const;
1344 
1345     // Simulates a pencil sketch. We convolve the image with a Gaussian
1346     // operator of the given radius and standard deviation (sigma). For
1347     // reasonable results, radius should be larger than sigma. Use a
1348     // radius of 0 and SketchImage() selects a suitable radius for you.
1349     void sketch(const double radius_=0.0,const double sigma_=1.0,
1350       const double angle_=0.0);
1351 
1352     // Solarize image (similar to effect seen when exposing a
1353     // photographic film to light during the development process)
1354     void solarize(const double factor_=50.0);
1355 
1356     // Sparse color image, given a set of coordinates, interpolates the colors
1357     // found at those coordinates, across the whole image, using various
1358     // methods.
1359     void sparseColor(const ChannelType channel_,
1360       const SparseColorMethod method_,const size_t numberArguments_,
1361       const double *arguments_);
1362 
1363     // Splice the background color into the image.
1364     void splice(const Geometry &geometry_);
1365     void splice(const Geometry &geometry_,const Color &backgroundColor_);
1366     void splice(const Geometry &geometry_,const Color &backgroundColor_,
1367       const GravityType gravity_);
1368 
1369     // Spread pixels randomly within image by specified ammount
1370     void spread(const double amount_=3.0);
1371 
1372     // Returns the statistics for this image.
1373     Magick::ImageStatistics statistics() const;
1374 
1375     // Add a digital watermark to the image (based on second image)
1376     void stegano(const Image &watermark_);
1377 
1378     // Create an image which appears in stereo when viewed with
1379     // red-blue glasses (Red image on left, blue on right)
1380     void stereo(const Image &rightImage_);
1381 
1382     // Strip strips an image of all profiles and comments.
1383     void strip(void);
1384 
1385     // Search for the specified image at EVERY possible location in this image.
1386     // This is slow! very very slow.. It returns a similarity image such that
1387     // an exact match location is completely white and if none of the pixels
1388     // match, black, otherwise some gray level in-between.
1389     Image subImageSearch(const Image &reference_,const MetricType metric_,
1390       Geometry *offset_,double *similarityMetric_,
1391       const double similarityThreshold=(-1.0));
1392 
1393     // Swirl image (image pixels are rotated by degrees)
1394     void swirl(const double degrees_);
1395 
1396     // Transfers the image cache pixels to the image.
1397     void syncPixels(void);
1398 
1399     // Channel a texture on image background
1400     void texture(const Image &texture_);
1401 
1402     // Threshold image
1403     void threshold(const double threshold_);
1404 
1405     // Resize image to thumbnail size
1406     void thumbnail(const Geometry &geometry_);
1407 
1408     // Applies a color vector to each pixel in the image. The length of the
1409     // vector is 0 for black and white and at its maximum for the midtones.
1410     // The vector weighting function is f(x)=(1-(4.0*((x-0.5)*(x-0.5))))
1411     void tint(const std::string opacity_);
1412 
1413     // Origin of coordinate system to use when annotating with text or drawing
1414     void transformOrigin(const double x_,const double y_);
1415 
1416     // Reset transformation parameters to default
1417     void transformReset(void);
1418 
1419     // Scale to use when annotating with text or drawing
1420     void transformScale(const double sx_,const double sy_);
1421 
1422     // Add matte image to image, setting pixels matching color to
1423     // transparent
1424     void transparent(const Color &color_,const bool inverse_=false);
1425 
1426     // Add matte image to image, for all the pixels that lies in between
1427     // the given two color
1428     void transparentChroma(const Color &colorLow_,const Color &colorHigh_);
1429 
1430     // Creates a horizontal mirror image by reflecting the pixels around the
1431     // central y-axis while rotating them by 90 degrees.
1432     void transpose(void);
1433 
1434     // Creates a vertical mirror image by reflecting the pixels around the
1435     // central x-axis while rotating them by 270 degrees.
1436     void transverse(void);
1437 
1438     // Trim edges that are the background color from the image
1439     void trim(void);
1440 
1441     // Returns the unique colors of an image.
1442     Image uniqueColors(void) const;
1443 
1444     // Replace image with a sharpened version of the original image
1445     // using the unsharp mask algorithm.
1446     //  radius_
1447     //    the radius of the Gaussian, in pixels, not counting the
1448     //    center pixel.
1449     //  sigma_
1450     //    the standard deviation of the Gaussian, in pixels.
1451     //  amount_
1452     //    the percentage of the difference between the original and
1453     //    the blur image that is added back into the original.
1454     // threshold_
1455     //   the threshold in pixels needed to apply the diffence amount.
1456     void unsharpmask(const double radius_,const double sigma_,
1457       const double amount_,const double threshold_);
1458     void unsharpmaskChannel(const ChannelType channel_,const double radius_,
1459       const double sigma_,const double amount_,const double threshold_);
1460 
1461     // Softens the edges of the image in vignette style.
1462     void vignette(const double radius_=0.0,const double sigma_=1.0,
1463       const ssize_t x_=0,const ssize_t y_=0);
1464 
1465     // Map image pixels to a sine wave
1466     void wave(const double amplitude_=25.0,const double wavelength_=150.0);
1467 
1468     // Removes noise from the image using a wavelet transform.
1469     void waveletDenoise(const double threshold_,const double softness_);
1470 
1471     // Forces all pixels above the threshold into white while leaving all
1472     // pixels at or below the threshold unchanged.
1473     void whiteThreshold(const std::string &threshold_);
1474     void whiteThresholdChannel(const ChannelType channel_,
1475       const std::string &threshold_);
1476 
1477     // Write single image frame to in-memory BLOB, with optional
1478     // format and adjoin parameters.
1479     void write(Blob *blob_);
1480     void write(Blob *blob_,const std::string &magick_);
1481     void write(Blob *blob_,const std::string &magick_,const size_t depth_);
1482 
1483     // Write single image frame to an array of pixels with storage
1484     // type specified by user (DispatchImage), e.g.
1485     // image.write( 0, 0, 640, 1, "RGB", 0, pixels );
1486     void write(const ::ssize_t x_,const ::ssize_t y_,const size_t columns_,
1487       const size_t rows_,const std::string &map_,const StorageType type_,
1488       void *pixels_);
1489 
1490     // Write single image frame to a file
1491     void write(const std::string &imageSpec_);
1492 
1493     // Associate a mask with the image. The mask must be the same dimensions
1494     // as the image. Pass an invalid image to unset an existing mask.
1495     void writeMask(const Image &mask_);
1496     Image writeMask(void) const;
1497 
1498     // Transfers one or more pixel components from the image pixel
1499     // cache to a buffer or file.
1500     // Used to support image encoders.
1501     void writePixels(const QuantumType quantum_,unsigned char *destination_);
1502 
1503     // Zoom image to specified size.
1504     void zoom(const Geometry &geometry_);
1505 
1506     //////////////////////////////////////////////////////////////////////
1507     //
1508     // No user-serviceable parts beyond this point
1509     //
1510     //////////////////////////////////////////////////////////////////////
1511 
1512     // Construct with MagickCore::Image and default options
1513     Image(MagickCore::Image *image_);
1514 
1515     // Retrieve Image*
1516     MagickCore::Image *&image(void);
1517     const MagickCore::Image *constImage(void) const;
1518 
1519     // Retrieve ImageInfo*
1520     MagickCore::ImageInfo *imageInfo(void);
1521     const MagickCore::ImageInfo *constImageInfo(void) const;
1522 
1523     // Retrieve Options*
1524     Options *options(void);
1525     const Options *constOptions(void) const;
1526 
1527     // Retrieve QuantizeInfo*
1528     MagickCore::QuantizeInfo *quantizeInfo(void);
1529     const MagickCore::QuantizeInfo *constQuantizeInfo(void) const;
1530 
1531     // Prepare to update image (copy if reference > 1)
1532     void modifyImage(void);
1533 
1534     // Replace current image (reference counted)
1535     MagickCore::Image *replaceImage(MagickCore::Image *replacement_);
1536 
1537   private:
1538 
1539     void floodFill(const ssize_t x_,const ssize_t y_,
1540       const Magick::Image *fillPattern_,const Color &fill_,
1541       const PixelInfo *target,const bool invert_);
1542 
1543     void mask(const Image &mask_,const PixelMask);
1544     Image mask(const PixelMask) const;
1545 
1546     void read(MagickCore::Image *image,
1547       MagickCore::ExceptionInfo *exceptionInfo);
1548 
1549     ImageRef *_imgRef;
1550   };
1551 
1552 } // end of namespace Magick
1553 
1554 #endif // Magick_Image_header
1555