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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: _image.i
3 // Purpose: SWIG definitions for wxImage and such
4 //
5 // Author: Robin Dunn
6 //
7 // Created: 25-Sept-2000
8 // RCS-ID: $Id$
9 // Copyright: (c) 2003 by Total Control Software
10 // Licence: wxWindows license
11 /////////////////////////////////////////////////////////////////////////////
12
13 // Not a %module
14
15
16 //---------------------------------------------------------------------------
17
18 %{
19 #include "wx/wxPython/pyistream.h"
20 %}
21
22 //---------------------------------------------------------------------------
23
24 enum {
25 wxIMAGE_ALPHA_TRANSPARENT,
26 wxIMAGE_ALPHA_THRESHOLD,
27 wxIMAGE_ALPHA_OPAQUE
28 };
29
30
31 // Constants for wxImage::Scale() for determining the level of quality
32 enum
33 {
34 wxIMAGE_QUALITY_NORMAL = 0,
35 wxIMAGE_QUALITY_HIGH = 1
36 };
37
38 //---------------------------------------------------------------------------
39 %newgroup
40
41 DocStr(wxImageHandler,
42 "This is the base class for implementing image file loading/saving, and
43 image creation from data. It is used within `wx.Image` and is not
44 normally seen by the application.", "");
45 class wxImageHandler : public wxObject {
46 public:
47 // wxImageHandler(); Abstract Base Class
48 wxString GetName();
49 wxString GetExtension();
50 long GetType();
51 wxString GetMimeType();
52
53 //bool LoadFile(wxImage* image, wxInputStream& stream);
54 //bool SaveFile(wxImage* image, wxOutputStream& stream);
55 //virtual int GetImageCount( wxInputStream& stream );
56
57 bool CanRead( const wxString& name );
58 %Rename(CanReadStream, bool, CanRead( wxInputStream& stream ));
59
60 void SetName(const wxString& name);
61 void SetExtension(const wxString& extension);
62 void SetType(long type);
63 void SetMimeType(const wxString& mimetype);
64
65 %property(Extension, GetExtension, SetExtension, doc="See `GetExtension` and `SetExtension`");
66 %property(MimeType, GetMimeType, SetMimeType, doc="See `GetMimeType` and `SetMimeType`");
67 %property(Name, GetName, SetName, doc="See `GetName` and `SetName`");
68 %property(Type, GetType, SetType, doc="See `GetType` and `SetType`");
69 };
70
71
72 //---------------------------------------------------------------------------
73
74
75 DocStr(wxPyImageHandler,
76 "This is the base class for implementing image file loading/saving, and
77 image creation from data, all written in Python. To create a custom
78 image handler derive a new class from wx.PyImageHandler and provide
79 the following methods::
80
81 def DoCanRead(self, stream) --> bool
82 '''Check if this handler can read the image on the stream'''
83
84 def LoadFile(self, image, stream, verbose, index) --> bool
85 '''Load image data from the stream and load it into image.'''
86
87 def SaveFile(self, image, stream, verbose) --> bool
88 '''Save the iamge data in image to the stream using
89 this handler's image file format.'''
90
91 def GetImageCount(self, stream) --> int
92 '''If this image format can hold more than one image,
93 how many does the image on the stream have?'''
94
95 To activate your handler create an instance of it and pass it to
96 `wx.Image_AddHandler`. Be sure to call `SetName`, `SetType`, and
97 `SetExtension` from your constructor.
98 ", "");
99
100 class wxPyImageHandler: public wxImageHandler {
101 public:
102 %pythonAppend wxPyImageHandler() "self._SetSelf(self)"
103 wxPyImageHandler();
104 void _SetSelf(PyObject *self);
105 };
106
107
108 //---------------------------------------------------------------------------
109
110
111 class wxImageHistogram /* : public wxImageHistogramBase */
112 {
113 public:
114 wxImageHistogram();
115
116 DocStr(MakeKey, "Get the key in the histogram for the given RGB values", "");
117 static unsigned long MakeKey(byte r,
118 byte g,
119 byte b);
120
121 DocDeclAStr(
122 bool, FindFirstUnusedColour(byte *OUTPUT,
123 byte *OUTPUT,
124 byte *OUTPUT,
125 byte startR = 1,
126 byte startG = 0,
127 byte startB = 0 ) const,
128 "FindFirstUnusedColour(int startR=1, int startG=0, int startB=0) -> (success, r, g, b)",
129 "Find first colour that is not used in the image and has higher RGB
130 values than startR, startG, startB. Returns a tuple consisting of a
131 success flag and rgb values.", "");
132
133 %extend {
134 DocStr(GetCount,
135 "Returns the pixel count for the given key. Use `MakeKey` to create a
136 key value from a RGB tripple.", "");
137 unsigned long GetCount(unsigned long key) {
138 wxImageHistogramEntry e = (*self)[key];
139 return e.value;
140 }
141
142 DocStr(GetCountRGB,
143 "Returns the pixel count for the given RGB values.", "");
144 unsigned long GetCountRGB(byte r,
145 byte g,
146 byte b) {
147 unsigned long key = wxImageHistogram::MakeKey(r, g, b);
148 wxImageHistogramEntry e = (*self)[key];
149 return e.value;
150 }
151
152 DocStr(GetCountColour,
153 "Returns the pixel count for the given `wx.Colour` value.", "");
154 unsigned long GetCountColour(const wxColour& colour) {
155 unsigned long key = wxImageHistogram::MakeKey(colour.Red(),
156 colour.Green(),
157 colour.Blue());
158 wxImageHistogramEntry e = (*self)[key];
159 return e.value;
160 }
161 }
162
163 };
164
165
166 //---------------------------------------------------------------------------
167
168 DocStr(wxImage,
169 "A platform-independent image class. An image can be created from
170 data, or using `wx.Bitmap.ConvertToImage`, or loaded from a file in a
171 variety of formats. Functions are available to set and get image
172 bits, so it can be used for basic image manipulation.
173
174 A wx.Image cannot be drawn directly to a `wx.DC`. Instead, a
175 platform-specific `wx.Bitmap` object must be created from it using the
176 `wx.BitmapFromImage` constructor. This bitmap can then be drawn in a
177 device context, using `wx.DC.DrawBitmap`.
178
179 One colour value of the image may be used as a mask colour which will
180 lead to the automatic creation of a `wx.Mask` object associated to the
181 bitmap object.
182
183 wx.Image supports alpha channel data, that is in addition to a byte
184 for the red, green and blue colour components for each pixel it also
185 stores a byte representing the pixel opacity. An alpha value of 0
186 corresponds to a transparent pixel (null opacity) while a value of 255
187 means that the pixel is 100% opaque.
188
189 Unlike RGB data, not all images have an alpha channel and before using
190 `GetAlpha` you should check if this image contains an alpha channel
191 with `HasAlpha`. Note that currently only images loaded from PNG files
192 with transparency information will have an alpha channel.", "");
193
194
195 %{
196 // Pull the nested class out to the top level for SWIG's sake
197 #define wxImage_RGBValue wxImage::RGBValue
198 #define wxImage_HSVValue wxImage::HSVValue
199 %}
200
201 DocStr(wxImage_RGBValue,
202 "An object that contains values for red, green and blue which represent
203 the value of a color. It is used by `wx.Image.HSVtoRGB` and
204 `wx.Image.RGBtoHSV`, which converts between HSV color space and RGB
205 color space.", "");
206 class wxImage_RGBValue
207 {
208 public:
209 DocCtorStr(
210 wxImage_RGBValue(byte r=0, byte g=0, byte b=0),
211 "Constructor.", "");
212 byte red;
213 byte green;
214 byte blue;
215 };
216
217
218 DocStr(wxImage_HSVValue,
219 "An object that contains values for hue, saturation and value which
220 represent the value of a color. It is used by `wx.Image.HSVtoRGB` and
221 `wx.Image.RGBtoHSV`, which +converts between HSV color space and RGB
222 color space.", "");
223 class wxImage_HSVValue
224 {
225 public:
226 DocCtorStr(
227 wxImage_HSVValue(double h=0.0, double s=0.0, double v=0.0),
228 "Constructor.", "");
229 double hue;
230 double saturation;
231 double value;
232 };
233
234
235
236 class wxImage : public wxObject {
237 public:
238 %typemap(out) wxImage*; // turn off this typemap
239
240 DocCtorStr(
241 wxImage( const wxString& name, long type = wxBITMAP_TYPE_ANY, int index = -1 ),
242 "Loads an image from a file.",
243 "
244 :param name: Name of the file from which to load the image.
245
246 :param type: May be one of the following:
247
248 ==================== =======================================
249 wx.BITMAP_TYPE_BMP Load a Windows bitmap file.
250 wx.BITMAP_TYPE_GIF Load a GIF bitmap file.
251 wx.BITMAP_TYPE_JPEG Load a JPEG bitmap file.
252 wx.BITMAP_TYPE_PNG Load a PNG bitmap file.
253 wx.BITMAP_TYPE_PCX Load a PCX bitmap file.
254 wx.BITMAP_TYPE_PNM Load a PNM bitmap file.
255 wx.BITMAP_TYPE_TIF Load a TIFF bitmap file.
256 wx.BITMAP_TYPE_XPM Load a XPM bitmap file.
257 wx.BITMAP_TYPE_ICO Load a Windows icon file (ICO).
258 wx.BITMAP_TYPE_CUR Load a Windows cursor file (CUR).
259 wx.BITMAP_TYPE_ANI Load a Windows animated cursor file (ANI).
260 wx.BITMAP_TYPE_ANY Will try to autodetect the format.
261 ==================== =======================================
262
263 :param index: Index of the image to load in the case that the
264 image file contains multiple images. This is only used by GIF,
265 ICO and TIFF handlers. The default value (-1) means to choose
266 the default image and is interpreted as the first image (the
267 one with index=0) by the GIF and TIFF handler and as the
268 largest and most colourful one by the ICO handler.
269
270 :see: `wx.ImageFromMime`, `wx.ImageFromStream`, `wx.ImageFromStreamMime`,
271 `wx.EmptyImage`, `wx.ImageFromBitmap`, `wx.ImageFromBuffer`,
272 `wx.ImageFromData`, `wx.ImageFromDataWithAlpha`
273 ");
274
275 ~wxImage();
276
277 // Alternate constructors
278 DocCtorStrName(
279 wxImage(const wxString& name, const wxString& mimetype, int index = -1),
280 "Loads an image from a file, using a MIME type string (such as
281 'image/jpeg') to specify image type.", "
282
283 :see: `wx.Image`",
284 ImageFromMime);
285
286 DocCtorStrName(
287 wxImage(wxInputStream& stream, long type = wxBITMAP_TYPE_ANY, int index = -1),
288 "Loads an image from an input stream, or any readable Python file-like
289 object.", "
290
291 :see: `wx.Image`",
292 ImageFromStream);
293
294 DocCtorStrName(
295 wxImage(wxInputStream& stream, const wxString& mimetype, int index = -1 ),
296 "Loads an image from an input stream, or any readable Python file-like
297 object, specifying the image format with a MIME type string.", "
298
299 :see: `wx.Image`",
300 ImageFromStreamMime);
301
302 %extend {
303 %RenameDocCtor(
304 EmptyImage,
305 "Construct an empty image of a given size, optionally setting all
306 pixels to black.", "
307
308 :see: `wx.Image`",
309 wxImage(int width=0, int height=0, bool clear = true))
310 {
311 if (width > 0 && height > 0)
312 return new wxImage(width, height, clear);
313 else
314 return new wxImage;
315 }
316
317
318 MustHaveApp(wxImage(const wxBitmap &bitmap));
319
320 %RenameDocCtor(
321 ImageFromBitmap,
322 "Construct an Image from a `wx.Bitmap`.", "
323
324 :see: `wx.Image`",
325 wxImage(const wxBitmap &bitmap))
326 {
327 return new wxImage(bitmap.ConvertToImage());
328 }
329
330 %RenameDocCtor(
331 ImageFromData,
332 "Construct an Image from a buffer of RGB bytes. Accepts either a
333 string or a buffer object holding the data and the length of the data
334 must be width*height*3.", "
335
336 :see: `wx.Image`",
337 wxImage(int width, int height, buffer data, int DATASIZE))
338 {
339 if (DATASIZE != width*height*3) {
340 wxPyErr_SetString(PyExc_ValueError, "Invalid data buffer size.");
341 return NULL;
342 }
343
344 // Copy the source data so the wxImage can clean it up later
345 buffer copy = (buffer)malloc(DATASIZE);
346 if (copy == NULL) {
347 wxPyBLOCK_THREADS(PyErr_NoMemory());
348 return NULL;
349 }
350 memcpy(copy, data, DATASIZE);
351 return new wxImage(width, height, copy, false);
352 }
353
354
355 %RenameDocCtor(
356 ImageFromDataWithAlpha,
357 "Construct an Image from a buffer of RGB bytes with an Alpha channel.
358 Accepts either a string or a buffer object holding the data and the
359 length of the data must be width*height*3 bytes, and the length of the
360 alpha data must be width*height bytes.", "
361
362 :see: `wx.Image`",
363 wxImage(int width, int height, buffer data, int DATASIZE, buffer alpha, int ALPHASIZE))
364 {
365 if (DATASIZE != width*height*3) {
366 wxPyErr_SetString(PyExc_ValueError, "Invalid data buffer size.");
367 return NULL;
368 }
369 if (ALPHASIZE != width*height) {
370 wxPyErr_SetString(PyExc_ValueError, "Invalid alpha buffer size.");
371 return NULL;
372 }
373
374 // Copy the source data so the wxImage can clean it up later
375 buffer dcopy = (buffer)malloc(DATASIZE);
376 if (dcopy == NULL) {
377 wxPyBLOCK_THREADS(PyErr_NoMemory());
378 return NULL;
379 }
380 memcpy(dcopy, data, DATASIZE);
381
382 buffer acopy = (buffer)malloc(ALPHASIZE);
383 if (acopy == NULL) {
384 wxPyBLOCK_THREADS(PyErr_NoMemory());
385 return NULL;
386 }
387 memcpy(acopy, alpha, ALPHASIZE);
388
389 return new wxImage(width, height, dcopy, acopy, false);
390 }
391 }
392
393 // TODO: wxImage( char** xpmData );
394
395 // Turn the typemap back on again
396 %typemap(out) wxImage* { $result = wxPyMake_wxObject($1, $owner); }
397
398
399 DocDeclStr(
400 void , Create( int width, int height, bool clear=true ),
401 "Creates a fresh image. If clear is ``True``, the new image will be
402 initialized to black. Otherwise, the image data will be uninitialized.", "");
403
404 DocDeclStr(
405 void , Destroy(),
406 "Destroys the image data.", "");
407
408
409 DocDeclStr(
410 wxImage , Scale( int width, int height, int quality = wxIMAGE_QUALITY_NORMAL ),
411 "Returns a scaled version of the image. This is also useful for scaling
412 bitmaps in general as the only other way to scale bitmaps is to blit a
413 `wx.MemoryDC` into another `wx.MemoryDC`. The ``quality`` parameter
414 specifies what method to use for resampling the image. It can be
415 either wx.IMAGE_QUALITY_NORMAL, which uses the normal default scaling
416 method of pixel replication, or wx.IMAGE_QUALITY_HIGH which uses
417 bicubic and box averaging resampling methods for upsampling and
418 downsampling respectively.", "
419
420 It should be noted that although using wx.IMAGE_QUALITY_HIGH produces
421 much nicer looking results it is a slower method. Downsampling will
422 use the box averaging method which seems to operate very fast. If you
423 are upsampling larger images using this method you will most likely
424 notice that it is a bit slower and in extreme cases it will be quite
425 substantially slower as the bicubic algorithm has to process a lot of
426 data.
427
428 It should also be noted that the high quality scaling may not work as
429 expected when using a single mask colour for transparency, as the
430 scaling will blur the image and will therefore remove the mask
431 partially. Using the alpha channel will work.
432
433 :see: `Rescale`");
434
435
436 wxImage ResampleBox(int width, int height) const;
437 wxImage ResampleBicubic(int width, int height) const;
438
439 DocDeclStr(
440 wxImage , Blur(int radius),
441 "Blurs the image in both horizontal and vertical directions by the
442 specified pixel ``radius``. This should not be used when using a
443 single mask colour for transparency.", "");
444
445 DocDeclStr(
446 wxImage , BlurHorizontal(int radius),
447 "Blurs the image in the horizontal direction only. This should not be
448 used when using a single mask colour for transparency.
449 ", "");
450
451 DocDeclStr(
452 wxImage , BlurVertical(int radius),
453 "Blurs the image in the vertical direction only. This should not be
454 used when using a single mask colour for transparency.", "");
455
456
457
458 DocDeclStr(
459 wxImage , ShrinkBy( int xFactor , int yFactor ) const ,
460 "Return a version of the image scaled smaller by the given factors.", "");
461
462 DocDeclStr(
463 wxImage& , Rescale(int width, int height, int quality = wxIMAGE_QUALITY_NORMAL),
464 "Changes the size of the image in-place by scaling it: after a call to
465 this function, the image will have the given width and height.
466
467 Returns the (modified) image itself.", "
468
469 :see: `Scale`");
470
471
472 // resizes the image in place
473 DocDeclStr(
474 wxImage& , Resize( const wxSize& size, const wxPoint& pos,
475 int r = -1, int g = -1, int b = -1 ),
476 "Changes the size of the image in-place without scaling it, by adding
477 either a border with the given colour or cropping as necessary. The
478 image is pasted into a new image with the given size and background
479 colour at the position pos relative to the upper left of the new
480 image. If red = green = blue = -1 then use either the current mask
481 colour if set or find, use, and set a suitable mask colour for any
482 newly exposed areas.
483
484 Returns the (modified) image itself.", "
485
486 :see: `Size`");
487
488
489 DocDeclStr(
490 void , SetRGB( int x, int y, byte r, byte g, byte b ),
491 "Sets the pixel at the given coordinate. This routine performs
492 bounds-checks for the coordinate so it can be considered a safe way to
493 manipulate the data, but in some cases this might be too slow so that
494 the data will have to be set directly. In that case you will have to
495 get access to the image data using the `GetData` method.", "");
496
497
498 DocDeclStrName(
499 void, SetRGB( const wxRect& rect,
500 byte r, byte g, byte b ),
501 "Sets the colour of the pixels within the given rectangle. This routine
502 performs bounds-checks for the rectangle so it can be considered a
503 safe way to manipulate the data.", "",
504 SetRGBRect);
505
506 DocDeclStr(
507 byte , GetRed( int x, int y ),
508 "Returns the red intensity at the given coordinate.", "");
509
510 DocDeclStr(
511 byte , GetGreen( int x, int y ),
512 "Returns the green intensity at the given coordinate.", "");
513
514 DocDeclStr(
515 byte , GetBlue( int x, int y ),
516 "Returns the blue intensity at the given coordinate.", "");
517
518
519 DocDeclStr(
520 void , SetAlpha(int x, int y, byte alpha),
521 "Sets the alpha value for the given pixel. This function should only be
522 called if the image has alpha channel data, use `HasAlpha` to check
523 for this.", "");
524
525 DocDeclStr(
526 byte , GetAlpha(int x, int y),
527 "Returns the alpha value for the given pixel. This function may only be
528 called for the images with alpha channel, use `HasAlpha` to check for
529 this.
530
531 The returned value is the *opacity* of the image, i.e. the value of 0
532 corresponds to the fully transparent pixels while the value of 255 to
533 the fully opaque pixels.", "");
534
535 DocDeclStr(
536 bool , HasAlpha(),
537 "Returns true if this image has alpha channel, false otherwise.", "
538
539 :see: `GetAlpha`, `SetAlpha`");
540
541
542 DocDeclStr(
543 void , InitAlpha(),
544 "Initializes the image alpha channel data. It is an error to call it if
545 the image already has alpha data. If it doesn't, alpha data will be by
546 default initialized to all pixels being fully opaque. But if the image
547 has a a mask colour, all mask pixels will be completely transparent.", "");
548
549
550 DocDeclStr(
551 bool , IsTransparent(int x, int y,
552 byte threshold = wxIMAGE_ALPHA_THRESHOLD) const,
553 "Returns ``True`` if this pixel is masked or has an alpha value less
554 than the spcified threshold.", "");
555
556
557 // find first colour that is not used in the image and has higher
558 // RGB values than <startR,startG,startB>
559 DocDeclAStr(
560 bool, FindFirstUnusedColour( byte *OUTPUT, byte *OUTPUT, byte *OUTPUT,
561 byte startR = 0, byte startG = 0, byte startB = 0 ) const,
562 "FindFirstUnusedColour(int startR=1, int startG=0, int startB=0) -> (success, r, g, b)",
563 "Find first colour that is not used in the image and has higher RGB
564 values than startR, startG, startB. Returns a tuple consisting of a
565 success flag and rgb values.", "");
566
567
568 DocDeclStr(
569 bool , ConvertAlphaToMask(byte threshold = wxIMAGE_ALPHA_THRESHOLD),
570 "If the image has alpha channel, this method converts it to mask. All
571 pixels with alpha value less than ``threshold`` are replaced with the
572 mask colour and the alpha channel is removed. The mask colour is
573 chosen automatically using `FindFirstUnusedColour`.
574
575 If the image image doesn't have alpha channel, ConvertAlphaToMask does
576 nothing.", "");
577
578
579 DocDeclStr(
580 bool , ConvertColourToAlpha( byte r, byte g, byte b ),
581 "This method converts an image where the original alpha information is
582 only available as a shades of a colour (actually shades of grey)
583 typically when you draw anti-aliased text into a bitmap. The DC
584 drawing routines draw grey values on the black background although
585 they actually mean to draw white with differnt alpha values. This
586 method reverses it, assuming a black (!) background and white text.
587 The method will then fill up the whole image with the colour given.", "");
588
589
590
591 DocDeclStr(
592 bool , SetMaskFromImage(const wxImage & mask,
593 byte mr, byte mg, byte mb),
594 "Sets the image's mask so that the pixels that have RGB value of
595 ``(mr,mg,mb)`` in ``mask`` will be masked in this image. This is done
596 by first finding an unused colour in the image, setting this colour as
597 the mask colour and then using this colour to draw all pixels in the
598 image who corresponding pixel in mask has given RGB value.
599
600 Returns ``False`` if ``mask`` does not have same dimensions as the
601 image or if there is no unused colour left. Returns ``True`` if the
602 mask was successfully applied.
603
604 Note that this method involves computing the histogram, which is
605 computationally intensive operation.", "");
606
607
608 // void DoFloodFill (wxCoord x, wxCoord y,
609 // const wxBrush & fillBrush,
610 // const wxColour& testColour,
611 // int style = wxFLOOD_SURFACE,
612 // int LogicalFunction = wxCOPY /* currently unused */ ) ;
613
614 DocDeclStr(
615 static bool , CanRead( const wxString& filename ),
616 "Returns True if the image handlers can read this file.", "");
617
618 DocDeclStr(
619 static int , GetImageCount( const wxString& filename, long type = wxBITMAP_TYPE_ANY ),
620 "If the image file contains more than one image and the image handler
621 is capable of retrieving these individually, this function will return
622 the number of available images.", "");
623
624
625 DocDeclStr(
626 bool , LoadFile( const wxString& name, long type = wxBITMAP_TYPE_ANY, int index = -1 ),
627 "Loads an image from a file. If no handler type is provided, the
628 library will try to autodetect the format.", "");
629
630 DocDeclStrName(
631 bool , LoadFile( const wxString& name, const wxString& mimetype, int index = -1 ),
632 "Loads an image from a file, specifying the image type with a MIME type
633 string.", "",
634 LoadMimeFile);
635
636
637 DocDeclStr(
638 bool , SaveFile( const wxString& name, int type ),
639 "Saves an image in the named file.", "");
640
641
642 DocDeclStrName(
643 bool , SaveFile( const wxString& name, const wxString& mimetype ),
644 "Saves an image in the named file.", "",
645 SaveMimeFile);
646
647
648 DocDeclStrName(
649 static bool , CanRead( wxInputStream& stream ),
650 "Returns True if the image handlers can read an image file from the
651 data currently on the input stream, or a readable Python file-like
652 object.", "",
653 CanReadStream);
654
655
656 DocDeclStrName(
657 bool , LoadFile( wxInputStream& stream, long type = wxBITMAP_TYPE_ANY, int index = -1 ),
658 "Loads an image from an input stream or a readable Python file-like
659 object. If no handler type is provided, the library will try to
660 autodetect the format.", "",
661 LoadStream);
662
663
664 DocDeclStrName(
665 bool , LoadFile( wxInputStream& stream, const wxString& mimetype, int index = -1 ),
666 "Loads an image from an input stream or a readable Python file-like
667 object, using a MIME type string to specify the image file format.", "",
668 LoadMimeStream);
669
670
671 DocDeclStr(
672 bool , IsOk(),
673 "Returns true if image data is present.", "");
674 %pythoncode { Ok = IsOk }
675
676 DocDeclStr(
677 int , GetWidth(),
678 "Gets the width of the image in pixels.", "");
679
680 DocDeclStr(
681 int , GetHeight(),
682 "Gets the height of the image in pixels.", "");
683
684
685 %extend {
686 DocStr(GetSize,
687 "Returns the size of the image in pixels.", "");
688 wxSize GetSize() {
689 wxSize size(self->GetWidth(), self->GetHeight());
690 return size;
691 }
692 }
693
694
695 DocDeclStr(
696 wxImage , GetSubImage(const wxRect& rect),
697 "Returns a sub image of the current one as long as the rect belongs
698 entirely to the image.", "");
699
700
701 DocDeclStr(
702 wxImage , Size( const wxSize& size, const wxPoint& pos,
703 int r = -1, int g = -1, int b = -1 ) const,
704 "Returns a resized version of this image without scaling it by adding
705 either a border with the given colour or cropping as necessary. The
706 image is pasted into a new image with the given size and background
707 colour at the position ``pos`` relative to the upper left of the new
708 image. If red = green = blue = -1 then use either the current mask
709 colour if set or find, use, and set a suitable mask colour for any
710 newly exposed areas.", "
711
712 :see: `Resize`");
713
714
715 DocDeclStr(
716 wxImage , Copy(),
717 "Returns an identical copy of the image.", "");
718
719 DocDeclStr(
720 void , Paste( const wxImage &image, int x, int y ),
721 "Pastes ``image`` into this instance and takes care of the mask colour
722 and any out of bounds problems.", "");
723
724
725 //unsigned char *GetData();
726 //void SetData( unsigned char *data );
727
728 %extend {
729 DocStr(GetData,
730 "Returns a string containing a copy of the RGB bytes of the image.", "");
731 PyObject* GetData()
732 {
733 buffer data = self->GetData();
734 int len = self->GetWidth() * self->GetHeight() * 3;
735 PyObject* rv;
736 wxPyBLOCK_THREADS( rv = PyString_FromStringAndSize((char*)data, len));
737 return rv;
738 }
739 DocStr(SetData,
740 "Resets the Image's RGB data from a buffer of RGB bytes. Accepts
741 either a string or a buffer object holding the data and the length of
742 the data must be width*height*3.", "");
743 void SetData(buffer data, int DATASIZE)
744 {
745 if (DATASIZE != self->GetWidth() * self->GetHeight() * 3) {
746 wxPyErr_SetString(PyExc_ValueError, "Invalid data buffer size.");
747 return;
748 }
749 buffer copy = (buffer)malloc(DATASIZE);
750 if (copy == NULL) {
751 wxPyBLOCK_THREADS(PyErr_NoMemory());
752 return;
753 }
754 memcpy(copy, data, DATASIZE);
755 self->SetData(copy, false);
756 // wxImage takes ownership of copy...
757 }
758
759
760 DocStr(GetDataBuffer,
761 "Returns a writable Python buffer object that is pointing at the RGB
762 image data buffer inside the wx.Image. You need to ensure that you do
763 not use this buffer object after the image has been destroyed.", "");
764 PyObject* GetDataBuffer()
765 {
766 buffer data = self->GetData();
767 int len = self->GetWidth() * self->GetHeight() * 3;
768 PyObject* rv;
769 wxPyBLOCK_THREADS( rv = PyBuffer_FromReadWriteMemory(data, len) );
770 return rv;
771 }
772
773 DocStr(SetDataBuffer,
774 "Sets the internal image data pointer to point at a Python buffer
775 object. This can save making an extra copy of the data but you must
776 ensure that the buffer object lives longer than the wx.Image does.", "");
777 void SetDataBuffer(buffer data, int DATASIZE)
778 {
779 if (DATASIZE != self->GetWidth() * self->GetHeight() * 3) {
780 wxPyErr_SetString(PyExc_ValueError, "Invalid data buffer size.");
781 return;
782 }
783 self->SetData(data, true);
784 }
785
786
787
788 DocStr(GetAlphaData,
789 "Returns a string containing a copy of the alpha bytes of the image.", "");
790 PyObject* GetAlphaData() {
791 buffer data = self->GetAlpha();
792 if (! data) {
793 RETURN_NONE();
794 } else {
795 int len = self->GetWidth() * self->GetHeight();
796 PyObject* rv;
797 wxPyBLOCK_THREADS( rv = PyString_FromStringAndSize((char*)data, len) );
798 return rv;
799 }
800 }
801
802 DocStr(SetAlphaData,
803 "Resets the Image's alpha data from a buffer of bytes. Accepts either
804 a string or a buffer object holding the data and the length of the
805 data must be width*height.", "");
806 void SetAlphaData(buffer alpha, int ALPHASIZE)
807 {
808 if (ALPHASIZE != self->GetWidth() * self->GetHeight()) {
809 wxPyErr_SetString(PyExc_ValueError, "Invalid alpha buffer size.");
810 return;
811 }
812 buffer acopy = (buffer)malloc(ALPHASIZE);
813 if (acopy == NULL) {
814 wxPyBLOCK_THREADS(PyErr_NoMemory());
815 return;
816 }
817 memcpy(acopy, alpha, ALPHASIZE);
818 self->SetAlpha(acopy, false);
819 // wxImage takes ownership of acopy...
820 }
821
822
823
824 DocStr(GetAlphaBuffer,
825 "Returns a writable Python buffer object that is pointing at the Alpha
826 data buffer inside the wx.Image. You need to ensure that you do not
827 use this buffer object after the image has been destroyed.", "");
828 PyObject* GetAlphaBuffer()
829 {
830 buffer data = self->GetAlpha();
831 int len = self->GetWidth() * self->GetHeight();
832 PyObject* rv;
833 wxPyBLOCK_THREADS( rv = PyBuffer_FromReadWriteMemory(data, len) );
834 return rv;
835 }
836
837
838 DocStr(SetAlphaBuffer,
839 "Sets the internal image alpha pointer to point at a Python buffer
840 object. This can save making an extra copy of the data but you must
841 ensure that the buffer object lives as long as the wx.Image does.", "");
842 void SetAlphaBuffer(buffer alpha, int ALPHASIZE)
843 {
844 if (ALPHASIZE != self->GetWidth() * self->GetHeight()) {
845 wxPyErr_SetString(PyExc_ValueError, "Invalid alpha buffer size.");
846 return;
847 }
848 self->SetAlpha(alpha, true);
849 }
850 }
851
852
853
854 DocDeclStr(
855 void , SetMaskColour( byte r, byte g, byte b ),
856 "Sets the mask colour for this image (and tells the image to use the
857 mask).", "");
858
859
860 DocDeclAStr(
861 /*bool*/ void , GetOrFindMaskColour( byte *OUTPUT,
862 byte *OUTPUT,
863 byte *OUTPUT ) const,
864 "GetOrFindMaskColour() -> (r,g,b)",
865 "Get the current mask colour or find a suitable colour.", "");
866
867
868 DocDeclStr(
869 byte , GetMaskRed(),
870 "Gets the red component of the mask colour.", "");
871
872 DocDeclStr(
873 byte , GetMaskGreen(),
874 "Gets the green component of the mask colour.", "");
875
876 DocDeclStr(
877 byte , GetMaskBlue(),
878 "Gets the blue component of the mask colour.", "");
879
880 DocDeclStr(
881 void , SetMask( bool mask = true ),
882 "Specifies whether there is a mask or not. The area of the mask is
883 determined by the current mask colour.", "");
884
885 DocDeclStr(
886 bool , HasMask(),
887 "Returns ``True`` if there is a mask active, ``False`` otherwise.", "");
888
889
890 DocDeclStr(
891 wxImage , Rotate(double angle, const wxPoint & centre_of_rotation,
892 bool interpolating = true, wxPoint * offset_after_rotation = NULL) const ,
893 "Rotates the image about the given point, by ``angle`` radians. Passing
894 ``True`` to ``interpolating`` results in better image quality, but is
895 slower. If the image has a mask, then the mask colour is used for the
896 uncovered pixels in the rotated image background. Otherwise, black
897 will be used as the fill colour.
898
899 Returns the rotated image, leaving this image intact.", "");
900
901 DocDeclStr(
902 wxImage , Rotate90( bool clockwise = true ) ,
903 "Returns a copy of the image rotated 90 degrees in the direction
904 indicated by ``clockwise``.", "");
905
906 DocDeclStr(
907 wxImage , Mirror( bool horizontally = true ) ,
908 "Returns a mirrored copy of the image. The parameter ``horizontally``
909 indicates the orientation.", "");
910
911
912 DocDeclStr(
913 void , Replace( byte r1, byte g1, byte b1,
914 byte r2, byte g2, byte b2 ),
915 "Replaces the colour specified by ``(r1,g1,b1)`` by the colour
916 ``(r2,g2,b2)``.", "");
917
918 DocDeclStr(
919 wxImage , ConvertToGreyscale( double lr = 0.299,
920 double lg = 0.587,
921 double lb = 0.114 ) const,
922 "Convert to greyscale image. Uses the luminance component (Y) of the
923 image. The luma value (YUV) is calculated using (R * lr) + (G * lg) + (B * lb),
924 defaults to ITU-T BT.601", "");
925
926
927 DocDeclStr(
928 wxImage , ConvertToMono( byte r, byte g, byte b ) const,
929 "Returns monochromatic version of the image. The returned image has
930 white colour where the original has ``(r,g,b)`` colour and black
931 colour everywhere else.", "");
932
933
934 DocDeclStr(
935 void , SetOption(const wxString& name, const wxString& value),
936 "Sets an image handler defined option. For example, when saving as a
937 JPEG file, the option ``wx.IMAGE_OPTION_QUALITY`` is used, which is a
938 number between 0 and 100 (0 is terrible, 100 is very good).", "
939
940 ================================= ===
941 wx.IMAGE_OPTION_BMP_FORMAT
942 wx.IMAGE_OPTION_CUR_HOTSPOT_X
943 wx.IMAGE_OPTION_CUR_HOTSPOT_Y
944 wx.IMAGE_OPTION_RESOLUTION
945 wx.IMAGE_OPTION_RESOLUTIONX
946 wx.IMAGE_OPTION_RESOLUTIONY
947 wx.IMAGE_OPTION_RESOLUTIONUNIT
948 wx.IMAGE_OPTION_QUALITY
949 wx.IMAGE_OPTION_BITSPERSAMPLE
950 wx.IMAGE_OPTION_SAMPLESPERPIXEL
951 wx.IMAGE_OPTION_COMPRESSION
952 wx.IMAGE_OPTION_IMAGEDESCRIPTOR
953 wx.IMAGE_OPTION_PNG_FORMAT
954 wx.IMAGE_OPTION_PNG_BITDEPTH
955 ================================= ===
956
957 :see: `HasOption`, `GetOption`, `GetOptionInt`, `SetOptionInt`");
958
959 DocDeclStrName(
960 void, SetOption(const wxString& name, int value),
961 "Sets an image option as an integer.", "
962
963 :see: `HasOption`, `GetOption`, `GetOptionInt`, `SetOption`",
964 SetOptionInt);
965
966 DocDeclStr(
967 wxString , GetOption(const wxString& name) const,
968 "Gets the value of an image handler option.", "
969
970 :see: `HasOption`, `GetOptionInt`, `SetOption`, `SetOptionInt`");
971
972 DocDeclStr(
973 int , GetOptionInt(const wxString& name) const,
974 "Gets the value of an image handler option as an integer. If the given
975 option is not present, the function returns 0.", "
976
977 :see: `HasOption`, `GetOption`, `SetOptionInt`, `SetOption`");
978
979 DocDeclStr(
980 bool , HasOption(const wxString& name) const,
981 "Returns true if the given option is present.", "
982
983 :see: `GetOption`, `GetOptionInt`, `SetOption`, `SetOptionInt`");
984
985
986 unsigned long CountColours( unsigned long stopafter = (unsigned long) -1 );
987 unsigned long ComputeHistogram( wxImageHistogram& h );
988
989 static void AddHandler( wxImageHandler *handler );
990 static void InsertHandler( wxImageHandler *handler );
991 static bool RemoveHandler( const wxString& name );
992 %extend {
993 static PyObject* GetHandlers() {
994 wxList& list = wxImage::GetHandlers();
995 return wxPy_ConvertList(&list);
996 }
997 }
998
999 DocDeclStr(
1000 static wxString , GetImageExtWildcard(),
1001 "Iterates all registered wxImageHandler objects, and returns a string
1002 containing file extension masks suitable for passing to file open/save
1003 dialog boxes.", "");
1004
1005
1006
1007 MustHaveApp(ConvertToBitmap);
1008 MustHaveApp(ConvertToMonoBitmap);
1009
1010 %extend {
1011 wxBitmap ConvertToBitmap(int depth=-1) {
1012 wxBitmap bitmap(*self, depth);
1013 return bitmap;
1014 }
1015
1016 wxBitmap ConvertToMonoBitmap( byte red,
1017 byte green,
1018 byte blue ) {
1019 wxImage mono = self->ConvertToMono( red, green, blue );
1020 wxBitmap bitmap( mono, 1 );
1021 return bitmap;
1022 }
1023 }
1024
1025
1026 DocDeclStr(
1027 void , RotateHue(double angle),
1028 "Rotates the hue of each pixel of the image. Hue is a double in the
1029 range -1.0..1.0 where -1.0 is -360 degrees and 1.0 is 360 degrees", "");
1030
1031 DocDeclStr(
1032 static wxImage_HSVValue , RGBtoHSV(wxImage_RGBValue rgb),
1033 "Converts a color in RGB color space to HSV color space.", "");
1034
1035 DocDeclStr(
1036 static wxImage_RGBValue , HSVtoRGB(wxImage_HSVValue hsv),
1037 "Converts a color in HSV color space to RGB color space.", "");
1038
1039
1040 %pythoncode { def __nonzero__(self): return self.IsOk() }
1041
1042 %property(AlphaBuffer, GetAlphaBuffer, SetAlphaBuffer, doc="See `GetAlphaBuffer` and `SetAlphaBuffer`");
1043 %property(AlphaData, GetAlphaData, SetAlphaData, doc="See `GetAlphaData` and `SetAlphaData`");
1044 %property(Data, GetData, SetData, doc="See `GetData` and `SetData`");
1045 %property(DataBuffer, GetDataBuffer, SetDataBuffer, doc="See `GetDataBuffer` and `SetDataBuffer`");
1046 %property(Height, GetHeight, doc="See `GetHeight`");
1047 %property(MaskBlue, GetMaskBlue, doc="See `GetMaskBlue`");
1048 %property(MaskGreen, GetMaskGreen, doc="See `GetMaskGreen`");
1049 %property(MaskRed, GetMaskRed, doc="See `GetMaskRed`");
1050 %property(Width, GetWidth, doc="See `GetWidth`");
1051
1052 };
1053
1054
1055
1056 // Make an image from buffer objects. Not that this is here instead of in the
1057 // wxImage class (as a constructor) because there is already another one with
1058 // the exact same signature, so there woudl be ambiguities in the generated
1059 // C++. Doing it as an independent factory function like this accomplishes
1060 // the same thing however.
1061 %newobject _ImageFromBuffer;
1062 %inline %{
1063 wxImage* _ImageFromBuffer(int width, int height,
1064 buffer data, int DATASIZE,
1065 buffer alpha=NULL, int ALPHASIZE=0)
1066 {
1067 if (DATASIZE != width*height*3) {
1068 wxPyErr_SetString(PyExc_ValueError, "Invalid data buffer size.");
1069 return NULL;
1070 }
1071 if (alpha != NULL) {
1072 if (ALPHASIZE != width*height) {
1073 wxPyErr_SetString(PyExc_ValueError, "Invalid alpha buffer size.");
1074 return NULL;
1075 }
1076 return new wxImage(width, height, data, alpha, true);
1077 }
1078 return new wxImage(width, height, data, true);
1079 }
1080 %}
1081
1082 %pythoncode {
1083 def ImageFromBuffer(width, height, dataBuffer, alphaBuffer=None):
1084 """
1085 Creates a `wx.Image` from the data in dataBuffer. The dataBuffer
1086 parameter must be a Python object that implements the buffer interface,
1087 such as a string, array, etc. The dataBuffer object is expected to
1088 contain a series of RGB bytes and be width*height*3 bytes long. A buffer
1089 object can optionally be supplied for the image's alpha channel data, and
1090 it is expected to be width*height bytes long.
1091
1092 The wx.Image will be created with its data and alpha pointers initialized
1093 to the memory address pointed to by the buffer objects, thus saving the
1094 time needed to copy the image data from the buffer object to the wx.Image.
1095 While this has advantages, it also has the shoot-yourself-in-the-foot
1096 risks associated with sharing a C pointer between two objects.
1097
1098 To help alleviate the risk a reference to the data and alpha buffer
1099 objects are kept with the wx.Image, so that they won't get deleted until
1100 after the wx.Image is deleted. However please be aware that it is not
1101 guaranteed that an object won't move its memory buffer to a new location
1102 when it needs to resize its contents. If that happens then the wx.Image
1103 will end up referring to an invalid memory location and could cause the
1104 application to crash. Therefore care should be taken to not manipulate
1105 the objects used for the data and alpha buffers in a way that would cause
1106 them to change size.
1107 """
1108 image = _core_._ImageFromBuffer(width, height, dataBuffer, alphaBuffer)
1109 image._buffer = dataBuffer
1110 image._alpha = alphaBuffer
1111 return image
1112 }
1113
1114
1115 ///void wxInitAllImageHandlers();
1116
1117 %pythoncode {
1118 def InitAllImageHandlers():
1119 """
1120 The former functionality of InitAllImageHanders is now done internal to
1121 the _core_ extension module and so this function has become a simple NOP.
1122 """
1123 pass
1124 }
1125
1126
1127
1128 %immutable;
1129 const wxImage wxNullImage;
1130 %mutable;
1131
1132 //---------------------------------------------------------------------------
1133
1134 MAKE_CONST_WXSTRING(IMAGE_OPTION_FILENAME);
1135 MAKE_CONST_WXSTRING(IMAGE_OPTION_BMP_FORMAT);
1136 MAKE_CONST_WXSTRING(IMAGE_OPTION_CUR_HOTSPOT_X);
1137 MAKE_CONST_WXSTRING(IMAGE_OPTION_CUR_HOTSPOT_Y);
1138 MAKE_CONST_WXSTRING(IMAGE_OPTION_RESOLUTION);
1139 MAKE_CONST_WXSTRING(IMAGE_OPTION_RESOLUTIONX);
1140 MAKE_CONST_WXSTRING(IMAGE_OPTION_RESOLUTIONY);
1141 MAKE_CONST_WXSTRING(IMAGE_OPTION_RESOLUTIONUNIT);
1142 MAKE_CONST_WXSTRING(IMAGE_OPTION_QUALITY);
1143
1144 enum
1145 {
1146 wxIMAGE_RESOLUTION_INCHES = 1,
1147 wxIMAGE_RESOLUTION_CM = 2
1148 };
1149
1150
1151 MAKE_CONST_WXSTRING(IMAGE_OPTION_BITSPERSAMPLE);
1152 MAKE_CONST_WXSTRING(IMAGE_OPTION_SAMPLESPERPIXEL);
1153 MAKE_CONST_WXSTRING(IMAGE_OPTION_COMPRESSION);
1154 MAKE_CONST_WXSTRING(IMAGE_OPTION_IMAGEDESCRIPTOR);
1155
1156 MAKE_CONST_WXSTRING(IMAGE_OPTION_PNG_FORMAT);
1157 MAKE_CONST_WXSTRING(IMAGE_OPTION_PNG_BITDEPTH);
1158
1159 enum
1160 {
1161 wxPNG_TYPE_COLOUR = 0,
1162 wxPNG_TYPE_GREY = 2,
1163 wxPNG_TYPE_GREY_RED = 3
1164 };
1165
1166 enum
1167 {
1168 wxBMP_24BPP = 24, // default, do not need to set
1169 //wxBMP_16BPP = 16, // wxQuantize can only do 236 colors?
1170 wxBMP_8BPP = 8, // 8bpp, quantized colors
1171 wxBMP_8BPP_GREY = 9, // 8bpp, rgb averaged to greys
1172 wxBMP_8BPP_GRAY = wxBMP_8BPP_GREY,
1173 wxBMP_8BPP_RED = 10, // 8bpp, red used as greyscale
1174 wxBMP_8BPP_PALETTE = 11, // 8bpp, use the wxImage's palette
1175 wxBMP_4BPP = 4, // 4bpp, quantized colors
1176 wxBMP_1BPP = 1, // 1bpp, quantized "colors"
1177 wxBMP_1BPP_BW = 2 // 1bpp, black & white from red
1178 };
1179
1180
1181 DocStr(wxBMPHandler,
1182 "A `wx.ImageHandler` for \*.bmp bitmap files.", "");
1183 class wxBMPHandler : public wxImageHandler {
1184 public:
1185 wxBMPHandler();
1186 };
1187
1188 DocStr(wxICOHandler,
1189 "A `wx.ImageHandler` for \*.ico icon files.", "");
1190 class wxICOHandler : public wxBMPHandler {
1191 public:
1192 wxICOHandler();
1193 };
1194
1195 DocStr(wxCURHandler,
1196 "A `wx.ImageHandler` for \*.cur cursor files.", "");
1197 class wxCURHandler : public wxICOHandler {
1198 public:
1199 wxCURHandler();
1200 };
1201
1202 DocStr(wxANIHandler,
1203 "A `wx.ImageHandler` for \*.ani animated cursor files.", "");
1204 class wxANIHandler : public wxCURHandler {
1205 public:
1206 wxANIHandler();
1207 };
1208
1209
1210 //---------------------------------------------------------------------------
1211
1212 DocStr(wxPNGHandler,
1213 "A `wx.ImageHandler` for PNG image files.", "");
1214 class wxPNGHandler : public wxImageHandler {
1215 public:
1216 wxPNGHandler();
1217 };
1218
1219
1220 DocStr(wxGIFHandler,
1221 "A `wx.ImageHandler` for GIF image files.", "");
1222 class wxGIFHandler : public wxImageHandler {
1223 public:
1224 wxGIFHandler();
1225 };
1226
1227
1228 DocStr(wxPCXHandler,
1229 "A `wx.ImageHandler` for PCX imager files.", "");
1230 class wxPCXHandler : public wxImageHandler {
1231 public:
1232 wxPCXHandler();
1233 };
1234
1235
1236 DocStr(wxJPEGHandler,
1237 "A `wx.ImageHandler` for JPEG/JPG image files.", "");
1238 class wxJPEGHandler : public wxImageHandler {
1239 public:
1240 wxJPEGHandler();
1241 };
1242
1243
1244 DocStr(wxPNMHandler,
1245 "A `wx.ImageHandler` for PNM image files.", "");
1246 class wxPNMHandler : public wxImageHandler {
1247 public:
1248 wxPNMHandler();
1249 };
1250
1251 DocStr(wxXPMHandler,
1252 "A `wx.ImageHandler` for XPM image.", "");
1253 class wxXPMHandler : public wxImageHandler {
1254 public:
1255 wxXPMHandler();
1256 };
1257
1258 DocStr(wxTIFFHandler,
1259 "A `wx.ImageHandler` for TIFF image files.", "");
1260 class wxTIFFHandler : public wxImageHandler {
1261 public:
1262 wxTIFFHandler();
1263 };
1264
1265
1266 #if wxUSE_IFF
1267 DocStr(wxIFFHandler,
1268 "A `wx.ImageHandler` for IFF image files.", "");
1269 class wxIFFHandler : public wxImageHandler {
1270 public:
1271 wxIFFHandler();
1272 };
1273 #endif
1274
1275 //---------------------------------------------------------------------------
1276
1277 %{
1278 #include <wx/quantize.h>
1279 %}
1280
1281 enum {
1282 wxQUANTIZE_INCLUDE_WINDOWS_COLOURS,
1283 // wxQUANTIZE_RETURN_8BIT_DATA,
1284 wxQUANTIZE_FILL_DESTINATION_IMAGE
1285 };
1286
1287
1288 DocStr(wxQuantize,
1289 "Performs quantization, or colour reduction, on a wxImage.", "");
1290
1291 class wxQuantize /*: public wxObject */
1292 {
1293 public:
1294
1295 %extend {
1296 DocStr(
1297 Quantize,
1298 "Reduce the colours in the source image and put the result into the
1299 destination image, setting the palette in the destination if
1300 needed. Both images may be the same, to overwrite the source image.", "
1301 :todo: Create a version that returns the wx.Palette used.");
1302
1303 static bool Quantize(const wxImage& src, wxImage& dest, int desiredNoColours = 236,
1304 int flags = wxQUANTIZE_INCLUDE_WINDOWS_COLOURS|wxQUANTIZE_FILL_DESTINATION_IMAGE)
1305 {
1306 return wxQuantize::Quantize(src, dest,
1307 //NULL, // palette
1308 desiredNoColours,
1309 NULL, // eightBitData
1310 flags);
1311 }
1312 }
1313 };
1314
1315
1316 //---------------------------------------------------------------------------