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cf694132 | 1 | ///////////////////////////////////////////////////////////////////////////// |
d14a1e28 RD |
2 | // Name: _image.i |
3 | // Purpose: SWIG definitions for wxImage and such | |
cf694132 RD |
4 | // |
5 | // Author: Robin Dunn | |
6 | // | |
d14a1e28 | 7 | // Created: 25-Sept-2000 |
cf694132 | 8 | // RCS-ID: $Id$ |
d14a1e28 | 9 | // Copyright: (c) 2003 by Total Control Software |
cf694132 RD |
10 | // Licence: wxWindows license |
11 | ///////////////////////////////////////////////////////////////////////////// | |
12 | ||
d14a1e28 | 13 | // Not a %module |
cf694132 | 14 | |
d14a1e28 RD |
15 | |
16 | //--------------------------------------------------------------------------- | |
cf694132 RD |
17 | |
18 | %{ | |
d14a1e28 | 19 | #include "wx/wxPython/pyistream.h" |
cf694132 RD |
20 | %} |
21 | ||
69056570 RD |
22 | //--------------------------------------------------------------------------- |
23 | ||
24 | enum { | |
25 | wxIMAGE_ALPHA_TRANSPARENT, | |
26 | wxIMAGE_ALPHA_THRESHOLD, | |
27 | wxIMAGE_ALPHA_OPAQUE | |
28 | }; | |
29 | ||
30 | ||
f5263701 RD |
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 | ||
9cbf6f6e | 38 | //--------------------------------------------------------------------------- |
d14a1e28 | 39 | %newgroup |
9cbf6f6e | 40 | |
d5a7caf6 RD |
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.", ""); | |
9416aa89 | 45 | class wxImageHandler : public wxObject { |
cf694132 | 46 | public: |
1dec68aa | 47 | // wxImageHandler(); Abstract Base Class |
cf694132 RD |
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); | |
b5a5d647 | 55 | //virtual int GetImageCount( wxInputStream& stream ); |
b5a5d647 RD |
56 | |
57 | bool CanRead( const wxString& name ); | |
3ad84671 RD |
58 | %Rename(CanReadStream, bool, CanRead( wxInputStream& stream )); |
59 | ||
cf694132 RD |
60 | void SetName(const wxString& name); |
61 | void SetExtension(const wxString& extension); | |
62 | void SetType(long type); | |
63 | void SetMimeType(const wxString& mimetype); | |
76b8fa1d RD |
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`"); | |
cf694132 RD |
69 | }; |
70 | ||
cf694132 | 71 | |
d14a1e28 | 72 | //--------------------------------------------------------------------------- |
cf694132 | 73 | |
02b800ce RD |
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 | ||
d14a1e28 RD |
111 | class wxImageHistogram /* : public wxImageHistogramBase */ |
112 | { | |
06c0fba4 | 113 | public: |
d14a1e28 | 114 | wxImageHistogram(); |
cf694132 | 115 | |
d07d2bc9 | 116 | DocStr(MakeKey, "Get the key in the histogram for the given RGB values", ""); |
4187c382 RD |
117 | static unsigned long MakeKey(byte r, |
118 | byte g, | |
119 | byte b); | |
cf694132 | 120 | |
dd9f7fea | 121 | DocDeclAStr( |
4187c382 RD |
122 | bool, FindFirstUnusedColour(byte *OUTPUT, |
123 | byte *OUTPUT, | |
124 | byte *OUTPUT, | |
125 | byte startR = 1, | |
126 | byte startG = 0, | |
127 | byte startB = 0 ) const, | |
dd9f7fea | 128 | "FindFirstUnusedColour(int startR=1, int startG=0, int startB=0) -> (success, r, g, b)", |
d07d2bc9 RD |
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.", ""); | |
41c48dbb RD |
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.", ""); | |
4187c382 RD |
144 | unsigned long GetCountRGB(byte r, |
145 | byte g, | |
146 | byte b) { | |
41c48dbb RD |
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 | ||
9b3d3bc4 RD |
163 | }; |
164 | ||
165 | ||
cf694132 RD |
166 | //--------------------------------------------------------------------------- |
167 | ||
4187c382 RD |
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 | ||
02b800ce | 194 | |
978d3d36 VZ |
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 | %} | |
02b800ce RD |
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.", ""); | |
978d3d36 VZ |
206 | class wxImage_RGBValue |
207 | { | |
208 | public: | |
02b800ce RD |
209 | DocCtorStr( |
210 | wxImage_RGBValue(byte r=0, byte g=0, byte b=0), | |
211 | "Constructor.", ""); | |
978d3d36 VZ |
212 | byte red; |
213 | byte green; | |
214 | byte blue; | |
215 | }; | |
02b800ce RD |
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.", ""); | |
978d3d36 VZ |
223 | class wxImage_HSVValue |
224 | { | |
225 | public: | |
02b800ce RD |
226 | DocCtorStr( |
227 | wxImage_HSVValue(double h=0.0, double s=0.0, double v=0.0), | |
228 | "Constructor.", ""); | |
978d3d36 VZ |
229 | double hue; |
230 | double saturation; | |
231 | double value; | |
232 | }; | |
233 | ||
234 | ||
3ecece7e | 235 | |
9416aa89 | 236 | class wxImage : public wxObject { |
cf694132 | 237 | public: |
c83e65d5 RD |
238 | %typemap(out) wxImage*; // turn off this typemap |
239 | ||
1b8c7ba6 RD |
240 | DocCtorStr( |
241 | wxImage( const wxString& name, long type = wxBITMAP_TYPE_ANY, int index = -1 ), | |
4187c382 RD |
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`, | |
a8696086 RD |
271 | `wx.EmptyImage`, `wx.ImageFromBitmap`, `wx.ImageFromBuffer`, |
272 | `wx.ImageFromData`, `wx.ImageFromDataWithAlpha` | |
4187c382 | 273 | "); |
1b8c7ba6 | 274 | |
cf694132 RD |
275 | ~wxImage(); |
276 | ||
d14a1e28 | 277 | // Alternate constructors |
1b8c7ba6 RD |
278 | DocCtorStrName( |
279 | wxImage(const wxString& name, const wxString& mimetype, int index = -1), | |
4187c382 RD |
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`", | |
1b8c7ba6 RD |
284 | ImageFromMime); |
285 | ||
286 | DocCtorStrName( | |
287 | wxImage(wxInputStream& stream, long type = wxBITMAP_TYPE_ANY, int index = -1), | |
4187c382 RD |
288 | "Loads an image from an input stream, or any readable Python file-like |
289 | object.", " | |
290 | ||
291 | :see: `wx.Image`", | |
1b8c7ba6 RD |
292 | ImageFromStream); |
293 | ||
294 | DocCtorStrName( | |
295 | wxImage(wxInputStream& stream, const wxString& mimetype, int index = -1 ), | |
4187c382 RD |
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`", | |
1b8c7ba6 RD |
300 | ImageFromStreamMime); |
301 | ||
d14a1e28 | 302 | %extend { |
d8194e5d RD |
303 | %RenameDocCtor( |
304 | EmptyImage, | |
305 | "Construct an empty image of a given size, optionally setting all | |
4187c382 RD |
306 | pixels to black.", " |
307 | ||
308 | :see: `wx.Image`", | |
d8194e5d RD |
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; | |
d14a1e28 | 315 | } |
1b8c7ba6 RD |
316 | |
317 | ||
d8194e5d RD |
318 | MustHaveApp(wxImage(const wxBitmap &bitmap)); |
319 | ||
320 | %RenameDocCtor( | |
321 | ImageFromBitmap, | |
4187c382 RD |
322 | "Construct an Image from a `wx.Bitmap`.", " |
323 | ||
324 | :see: `wx.Image`", | |
d8194e5d RD |
325 | wxImage(const wxBitmap &bitmap)) |
326 | { | |
327 | return new wxImage(bitmap.ConvertToImage()); | |
c6d42899 | 328 | } |
d8194e5d RD |
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 | |
4187c382 RD |
334 | must be width*height*3.", " |
335 | ||
336 | :see: `wx.Image`", | |
d8194e5d RD |
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); | |
c6d42899 | 352 | } |
d8194e5d RD |
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 | |
4187c382 RD |
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`", | |
d8194e5d RD |
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); | |
c6d42899 | 381 | |
d8194e5d RD |
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 | } | |
d14a1e28 | 391 | } |
be43ef04 | 392 | |
9df51bd0 RD |
393 | // TODO: wxImage( char** xpmData ); |
394 | ||
a8696086 | 395 | // Turn the typemap back on again |
35f9639d | 396 | %typemap(out) wxImage* { $result = wxPyMake_wxObject($1, $owner); } |
c83e65d5 RD |
397 | |
398 | ||
4187c382 RD |
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( | |
f5263701 | 410 | wxImage , Scale( int width, int height, int quality = wxIMAGE_QUALITY_NORMAL ), |
4187c382 RD |
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 | |
f5263701 RD |
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. | |
4187c382 RD |
432 | |
433 | :see: `Rescale`"); | |
f5263701 RD |
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 | ||
4187c382 RD |
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( | |
f5263701 | 463 | wxImage& , Rescale(int width, int height, int quality = wxIMAGE_QUALITY_NORMAL), |
4187c382 RD |
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.", " | |
6c0168c9 | 468 | |
4187c382 RD |
469 | :see: `Scale`"); |
470 | ||
cf694132 | 471 | |
f5bac082 | 472 | // resizes the image in place |
4187c382 RD |
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.", ""); | |
f5bac082 | 496 | |
f5bac082 | 497 | |
4187c382 | 498 | DocDeclStrName( |
f5bac082 | 499 | void, SetRGB( const wxRect& rect, |
4187c382 RD |
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); | |
f5bac082 | 505 | |
4187c382 RD |
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 | ||
cf694132 | 518 | |
4187c382 RD |
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 | ||
9cbf6f6e | 541 | |
655e17cf RD |
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.", ""); | |
69056570 RD |
548 | |
549 | ||
550 | DocDeclStr( | |
551 | bool , IsTransparent(int x, int y, | |
4187c382 RD |
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.", ""); | |
655e17cf RD |
555 | |
556 | ||
9cbf6f6e | 557 | // find first colour that is not used in the image and has higher |
68bc8549 | 558 | // RGB values than <startR,startG,startB> |
dd9f7fea RD |
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)", | |
d07d2bc9 RD |
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.", ""); | |
dd9f7fea | 566 | |
125c972b RD |
567 | |
568 | DocDeclStr( | |
69056570 | 569 | bool , ConvertAlphaToMask(byte threshold = wxIMAGE_ALPHA_THRESHOLD), |
4187c382 RD |
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`. | |
125c972b RD |
574 | |
575 | If the image image doesn't have alpha channel, ConvertAlphaToMask does | |
576 | nothing.", ""); | |
577 | ||
578 | ||
6f7ecb3b | 579 | DocDeclStr( |
4187c382 | 580 | bool , ConvertColourToAlpha( byte r, byte g, byte b ), |
6f7ecb3b RD |
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 | ||
125c972b | 590 | |
4187c382 RD |
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 | ||
68bc8549 | 607 | |
db0ff83e RD |
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 */ ) ; | |
68bc8549 | 613 | |
4187c382 RD |
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 | ||
b5a5d647 | 636 | |
4187c382 RD |
637 | DocDeclStr( |
638 | bool , SaveFile( const wxString& name, int type ), | |
639 | "Saves an image in the named file.", ""); | |
cf694132 | 640 | |
4187c382 RD |
641 | |
642 | DocDeclStrName( | |
643 | bool , SaveFile( const wxString& name, const wxString& mimetype ), | |
644 | "Saves an image in the named file.", "", | |
645 | SaveMimeFile); | |
646 | ||
cf694132 | 647 | |
4187c382 RD |
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 | ||
f74ff5ef | 670 | |
4187c382 | 671 | DocDeclStr( |
6c2dd16f | 672 | bool , IsOk(), |
4187c382 | 673 | "Returns true if image data is present.", ""); |
6c2dd16f | 674 | %pythoncode { Ok = IsOk } |
4187c382 RD |
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 | ||
cf694132 | 684 | |
ba938c3d | 685 | %extend { |
4187c382 RD |
686 | DocStr(GetSize, |
687 | "Returns the size of the image in pixels.", ""); | |
ba938c3d RD |
688 | wxSize GetSize() { |
689 | wxSize size(self->GetWidth(), self->GetHeight()); | |
690 | return size; | |
691 | } | |
692 | } | |
693 | ||
4187c382 RD |
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 | ||
f5bac082 | 700 | |
4187c382 RD |
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.", ""); | |
f5bac082 | 723 | |
9d8bd15f | 724 | |
1dc2f865 RD |
725 | //unsigned char *GetData(); |
726 | //void SetData( unsigned char *data ); | |
727 | ||
d14a1e28 | 728 | %extend { |
d8194e5d RD |
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(); | |
d55d6b3f | 734 | int len = self->GetWidth() * self->GetHeight() * 3; |
d14a1e28 RD |
735 | PyObject* rv; |
736 | wxPyBLOCK_THREADS( rv = PyString_FromStringAndSize((char*)data, len)); | |
737 | return rv; | |
d55d6b3f | 738 | } |
d8194e5d RD |
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... | |
9cbf6f6e RD |
757 | } |
758 | ||
759 | ||
d8194e5d RD |
760 | DocStr(GetDataBuffer, |
761 | "Returns a writable Python buffer object that is pointing at the RGB | |
4187c382 RD |
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.", ""); | |
d8194e5d RD |
764 | PyObject* GetDataBuffer() |
765 | { | |
766 | buffer data = self->GetData(); | |
1dc2f865 | 767 | int len = self->GetWidth() * self->GetHeight() * 3; |
d14a1e28 RD |
768 | PyObject* rv; |
769 | wxPyBLOCK_THREADS( rv = PyBuffer_FromReadWriteMemory(data, len) ); | |
770 | return rv; | |
1dc2f865 | 771 | } |
1e4a197e | 772 | |
d8194e5d RD |
773 | DocStr(SetDataBuffer, |
774 | "Sets the internal image data pointer to point at a Python buffer | |
4187c382 RD |
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.", ""); | |
d8194e5d RD |
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; | |
1e4a197e | 782 | } |
d8194e5d | 783 | self->SetData(data, true); |
1e4a197e RD |
784 | } |
785 | ||
9cbf6f6e RD |
786 | |
787 | ||
d8194e5d RD |
788 | DocStr(GetAlphaData, |
789 | "Returns a string containing a copy of the alpha bytes of the image.", ""); | |
9cbf6f6e | 790 | PyObject* GetAlphaData() { |
d8194e5d | 791 | buffer data = self->GetAlpha(); |
9cbf6f6e RD |
792 | if (! data) { |
793 | RETURN_NONE(); | |
794 | } else { | |
795 | int len = self->GetWidth() * self->GetHeight(); | |
d14a1e28 RD |
796 | PyObject* rv; |
797 | wxPyBLOCK_THREADS( rv = PyString_FromStringAndSize((char*)data, len) ); | |
798 | return rv; | |
9cbf6f6e RD |
799 | } |
800 | } | |
1dc2f865 | 801 | |
d8194e5d RD |
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; | |
1dc2f865 | 811 | } |
d8194e5d RD |
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... | |
1dc2f865 | 820 | } |
9cbf6f6e RD |
821 | |
822 | ||
d8194e5d | 823 | |
a8696086 | 824 | DocStr(GetAlphaBuffer, |
d8194e5d | 825 | "Returns a writable Python buffer object that is pointing at the Alpha |
4187c382 RD |
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.", ""); | |
d8194e5d RD |
828 | PyObject* GetAlphaBuffer() |
829 | { | |
830 | buffer data = self->GetAlpha(); | |
9cbf6f6e | 831 | int len = self->GetWidth() * self->GetHeight(); |
d14a1e28 RD |
832 | PyObject* rv; |
833 | wxPyBLOCK_THREADS( rv = PyBuffer_FromReadWriteMemory(data, len) ); | |
834 | return rv; | |
9cbf6f6e | 835 | } |
9cbf6f6e | 836 | |
d8194e5d | 837 | |
a8696086 | 838 | DocStr(SetAlphaBuffer, |
d8194e5d | 839 | "Sets the internal image alpha pointer to point at a Python buffer |
4187c382 RD |
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.", ""); | |
d8194e5d RD |
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; | |
9cbf6f6e | 847 | } |
d8194e5d | 848 | self->SetAlpha(alpha, true); |
9cbf6f6e | 849 | } |
1dc2f865 | 850 | } |
cf694132 | 851 | |
4187c382 RD |
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 | ||
f5bac082 RD |
859 | |
860 | DocDeclAStr( | |
4187c382 RD |
861 | /*bool*/ void , GetOrFindMaskColour( byte *OUTPUT, |
862 | byte *OUTPUT, | |
863 | byte *OUTPUT ) const, | |
f5bac082 RD |
864 | "GetOrFindMaskColour() -> (r,g,b)", |
865 | "Get the current mask colour or find a suitable colour.", ""); | |
866 | ||
867 | ||
4187c382 RD |
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 | ||
cf694132 | 889 | |
4187c382 RD |
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 | ||
f6bcfd97 | 911 | |
4187c382 RD |
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)``.", ""); | |
e054c6ad RD |
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", ""); | |
4187c382 | 925 | |
f6bcfd97 | 926 | |
4187c382 RD |
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 | ||
6c0168c9 | 933 | |
4187c382 RD |
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 | ||
e47ce385 | 940 | ================================= === |
4187c382 RD |
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 | |
e47ce385 | 955 | ================================= === |
4187c382 RD |
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 | ||
6c0168c9 | 985 | |
f6bcfd97 | 986 | unsigned long CountColours( unsigned long stopafter = (unsigned long) -1 ); |
9cbf6f6e | 987 | unsigned long ComputeHistogram( wxImageHistogram& h ); |
f6bcfd97 | 988 | |
96bfd053 RD |
989 | static void AddHandler( wxImageHandler *handler ); |
990 | static void InsertHandler( wxImageHandler *handler ); | |
991 | static bool RemoveHandler( const wxString& name ); | |
df5f8f4e RD |
992 | %extend { |
993 | static PyObject* GetHandlers() { | |
994 | wxList& list = wxImage::GetHandlers(); | |
995 | return wxPy_ConvertList(&list); | |
996 | } | |
997 | } | |
4187c382 RD |
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 | ||
b96c7a38 | 1006 | |
ab1f7d2a RD |
1007 | MustHaveApp(ConvertToBitmap); |
1008 | MustHaveApp(ConvertToMonoBitmap); | |
be43ef04 | 1009 | |
d14a1e28 | 1010 | %extend { |
12523ae4 RD |
1011 | wxBitmap ConvertToBitmap(int depth=-1) { |
1012 | wxBitmap bitmap(*self, depth); | |
b96c7a38 RD |
1013 | return bitmap; |
1014 | } | |
1015 | ||
4187c382 RD |
1016 | wxBitmap ConvertToMonoBitmap( byte red, |
1017 | byte green, | |
1018 | byte blue ) { | |
b96c7a38 RD |
1019 | wxImage mono = self->ConvertToMono( red, green, blue ); |
1020 | wxBitmap bitmap( mono, 1 ); | |
1021 | return bitmap; | |
1022 | } | |
1023 | } | |
1fded56b | 1024 | |
978d3d36 VZ |
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 | ||
02b800ce RD |
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 | ||
978d3d36 | 1039 | |
6c2dd16f | 1040 | %pythoncode { def __nonzero__(self): return self.IsOk() } |
76b8fa1d RD |
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`"); | |
76b8fa1d | 1050 | %property(Width, GetWidth, doc="See `GetWidth`"); |
2dda3864 | 1051 | |
cf694132 RD |
1052 | }; |
1053 | ||
926bb76c | 1054 | |
bf7df69e RD |
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 | ||
a8696086 RD |
1082 | %pythoncode { |
1083 | def ImageFromBuffer(width, height, dataBuffer, alphaBuffer=None): | |
1084 | """ | |
1085 | Creates a `wx.Image` from the data in dataBuffer. The dataBuffer | |
bf64693b RD |
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. | |
a8696086 | 1091 | |
bf7df69e RD |
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. | |
a8696086 | 1107 | """ |
bf7df69e | 1108 | image = _core_._ImageFromBuffer(width, height, dataBuffer, alphaBuffer) |
a8696086 RD |
1109 | image._buffer = dataBuffer |
1110 | image._alpha = alphaBuffer | |
1111 | return image | |
1112 | } | |
1113 | ||
f74ff5ef | 1114 | |
a3150741 RD |
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 | ||
cf694132 | 1126 | |
f74ff5ef | 1127 | |
d14a1e28 RD |
1128 | %immutable; |
1129 | const wxImage wxNullImage; | |
1130 | %mutable; | |
cf694132 | 1131 | |
d14a1e28 | 1132 | //--------------------------------------------------------------------------- |
f74ff5ef | 1133 | |
655e17cf | 1134 | MAKE_CONST_WXSTRING(IMAGE_OPTION_FILENAME); |
d14a1e28 RD |
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); | |
655e17cf RD |
1139 | MAKE_CONST_WXSTRING(IMAGE_OPTION_RESOLUTIONX); |
1140 | MAKE_CONST_WXSTRING(IMAGE_OPTION_RESOLUTIONY); | |
be43ef04 | 1141 | MAKE_CONST_WXSTRING(IMAGE_OPTION_RESOLUTIONUNIT); |
97185340 | 1142 | MAKE_CONST_WXSTRING(IMAGE_OPTION_QUALITY); |
f74ff5ef | 1143 | |
d14a1e28 RD |
1144 | enum |
1145 | { | |
1146 | wxIMAGE_RESOLUTION_INCHES = 1, | |
1147 | wxIMAGE_RESOLUTION_CM = 2 | |
1148 | }; | |
f74ff5ef RD |
1149 | |
1150 | ||
655e17cf RD |
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 | ||
9df51bd0 RD |
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 | ||
d14a1e28 RD |
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 | }; | |
f74ff5ef RD |
1179 | |
1180 | ||
d5a7caf6 RD |
1181 | DocStr(wxBMPHandler, |
1182 | "A `wx.ImageHandler` for \*.bmp bitmap files.", ""); | |
d14a1e28 RD |
1183 | class wxBMPHandler : public wxImageHandler { |
1184 | public: | |
1185 | wxBMPHandler(); | |
1186 | }; | |
cf694132 | 1187 | |
d5a7caf6 RD |
1188 | DocStr(wxICOHandler, |
1189 | "A `wx.ImageHandler` for \*.ico icon files.", ""); | |
d14a1e28 RD |
1190 | class wxICOHandler : public wxBMPHandler { |
1191 | public: | |
1192 | wxICOHandler(); | |
1193 | }; | |
f74ff5ef | 1194 | |
d5a7caf6 RD |
1195 | DocStr(wxCURHandler, |
1196 | "A `wx.ImageHandler` for \*.cur cursor files.", ""); | |
d14a1e28 RD |
1197 | class wxCURHandler : public wxICOHandler { |
1198 | public: | |
1199 | wxCURHandler(); | |
1200 | }; | |
f74ff5ef | 1201 | |
d5a7caf6 RD |
1202 | DocStr(wxANIHandler, |
1203 | "A `wx.ImageHandler` for \*.ani animated cursor files.", ""); | |
d14a1e28 RD |
1204 | class wxANIHandler : public wxCURHandler { |
1205 | public: | |
1206 | wxANIHandler(); | |
1207 | }; | |
06c0fba4 | 1208 | |
0a651eb8 | 1209 | |
d14a1e28 | 1210 | //--------------------------------------------------------------------------- |
0a651eb8 | 1211 | |
d5a7caf6 RD |
1212 | DocStr(wxPNGHandler, |
1213 | "A `wx.ImageHandler` for PNG image files.", ""); | |
d14a1e28 RD |
1214 | class wxPNGHandler : public wxImageHandler { |
1215 | public: | |
1216 | wxPNGHandler(); | |
1217 | }; | |
0a651eb8 | 1218 | |
0a651eb8 | 1219 | |
d5a7caf6 RD |
1220 | DocStr(wxGIFHandler, |
1221 | "A `wx.ImageHandler` for GIF image files.", ""); | |
d14a1e28 RD |
1222 | class wxGIFHandler : public wxImageHandler { |
1223 | public: | |
1224 | wxGIFHandler(); | |
1225 | }; | |
0a651eb8 RD |
1226 | |
1227 | ||
d5a7caf6 RD |
1228 | DocStr(wxPCXHandler, |
1229 | "A `wx.ImageHandler` for PCX imager files.", ""); | |
d14a1e28 RD |
1230 | class wxPCXHandler : public wxImageHandler { |
1231 | public: | |
1232 | wxPCXHandler(); | |
1233 | }; | |
926bb76c | 1234 | |
926bb76c | 1235 | |
d5a7caf6 RD |
1236 | DocStr(wxJPEGHandler, |
1237 | "A `wx.ImageHandler` for JPEG/JPG image files.", ""); | |
d14a1e28 RD |
1238 | class wxJPEGHandler : public wxImageHandler { |
1239 | public: | |
1240 | wxJPEGHandler(); | |
1241 | }; | |
926bb76c | 1242 | |
926bb76c | 1243 | |
d5a7caf6 RD |
1244 | DocStr(wxPNMHandler, |
1245 | "A `wx.ImageHandler` for PNM image files.", ""); | |
d14a1e28 RD |
1246 | class wxPNMHandler : public wxImageHandler { |
1247 | public: | |
1248 | wxPNMHandler(); | |
1249 | }; | |
1250 | ||
d5a7caf6 RD |
1251 | DocStr(wxXPMHandler, |
1252 | "A `wx.ImageHandler` for XPM image.", ""); | |
d14a1e28 RD |
1253 | class wxXPMHandler : public wxImageHandler { |
1254 | public: | |
1255 | wxXPMHandler(); | |
1256 | }; | |
1257 | ||
d5a7caf6 RD |
1258 | DocStr(wxTIFFHandler, |
1259 | "A `wx.ImageHandler` for TIFF image files.", ""); | |
d14a1e28 RD |
1260 | class wxTIFFHandler : public wxImageHandler { |
1261 | public: | |
1262 | wxTIFFHandler(); | |
1263 | }; | |
1264 | ||
1265 | ||
1266 | #if wxUSE_IFF | |
d5a7caf6 RD |
1267 | DocStr(wxIFFHandler, |
1268 | "A `wx.ImageHandler` for IFF image files.", ""); | |
d14a1e28 RD |
1269 | class wxIFFHandler : public wxImageHandler { |
1270 | public: | |
1271 | wxIFFHandler(); | |
1272 | }; | |
1273 | #endif | |
926bb76c | 1274 | |
be43ef04 RD |
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 | |
39101468 | 1299 | destination image, setting the palette in the destination if |
be43ef04 RD |
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 | ||
cf694132 | 1316 | //--------------------------------------------------------------------------- |